var bibbase_data = {"data":"<img src=\"//bibbase.org/img/ajax-loader.gif\" id=\"spinner\"\n  style=\"display: none;\" alt=\"Loading..\" />\n\n<div id=\"bibbase\">\n\n  <script type=\"text/javascript\">\n    var bibbase = {\n      params: {\"bib\":\"https://bibbase.org/zotero/umbio\",\"commas\":\"true\",\"jsonp\":\"1\",\"host\":\"bibbase.org\",\"ssl\":false},\n      data: [{\"bibtype\":\"techreport\",\"type\":\"techreport\",\"title\":\"Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT; outputs from 2024 meeting)\",\"copyright\":\"Creative Commons Attribution 4.0 International\",\"url\":\"https://ices-library.figshare.com/articles/report/Working_Group_on_Fisheries_Benthic_Impact_and_Trade-offs_WGFBIT_outputs_from_2024_meeting_/28351412\",\"abstract\":\"\\\\textbfCorrection (11/02/2025): Update to the list of Authors and to the list of ParticipantsThe Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT) develops methods and assessments to evaluate fisheries’ benthic impact at a regional scale while considering trade-offs between fisheries and seabed health. This report summarizes progress on a European-wide assessment of bottom trawl impacts, presenting the first quantitative evaluation across the Baltic, Atlantic, Mediterranean, and Black Seas. Using indicators of seabed status—RBStot (biomass relative to fauna carrying capacity) and RBSsen (biomass of the 10% most sensitive fauna relative to carrying capacity)—significant regional and habitat differences in bottom trawling impacts were identified. Methods to differentiate between good and degraded states were further refined, including probability-based approaches for seabed condition assessment.A roadmap was established to implement a Core Fishing Grounds Analysis (CFGA) across all EU marine regions within the 2024–2027 cycle. CFGs aim to balance sustainable fishing and environmental goals by protecting high-value fishing areas. Discussions addressed current limitations of CFGA and guidelines for defining scenarios in trade-off analyses. A preliminary exercise using Atlantic and Mediterranean data explored the effects of varying RBS values on surface area, landing value, fishing effort, and weight. Assuming RBS = 0.8 as the threshold for a \\\"good\\\" condition, the study assessed reductions in exploited areas and fishing efforts needed to meet EU marine targets (D6C5 Adverse Effects on Habitats).The BFIAT (Bottom Fishing Impact Assessment Tool) model was advanced to predict trawling-induced habitat changes and their impact on biological processes like bioturbation. Case studies in the Celtic Sea, Greek waters, Baltic Sea, and Kattegat utilized datasets linking macrofauna traits to biogeochemical processes under different fishing and hydrodynamic regimes. Outputs from BFIAT are integrated with models like OMEXDIA to evaluate sediment carbon processing and with 3D models (NEMO/SPM-IOW, NEMO-ERSEM) to analyze carbon dynamics and deposition. Future work will examine the impacts of fauna reduction, sediment mixing, and carbon decay on ecosystem processes.\",\"language\":\"en\",\"urldate\":\"2025-03-14\",\"institution\":\"ICES Scientific Reports\",\"author\":[{\"firstnames\":[],\"propositions\":[],\"lastnames\":[\"ICES\"],\"suffixes\":[]}],\"collaborator\":\"WGFBIT\",\"year\":\"2025\",\"doi\":\"10.17895/ICES.PUB.28351412\",\"keywords\":\"Pressures, impacts, conservation, and management\",\"pages\":\"6304207 Bytes\",\"bibtex\":\"@techreport{ices_working_2025,\\n\\ttitle = {Working {Group} on {Fisheries} {Benthic} {Impact} and {Trade}-offs ({WGFBIT}; outputs from 2024 meeting)},\\n\\tcopyright = {Creative Commons Attribution 4.0 International},\\n\\turl = {https://ices-library.figshare.com/articles/report/Working_Group_on_Fisheries_Benthic_Impact_and_Trade-offs_WGFBIT_outputs_from_2024_meeting_/28351412},\\n\\tabstract = {\\\\textbf{Correction (11/02/2025): Update to the list of Authors and to the list of Participants}The Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT) develops methods and assessments to evaluate fisheries’ benthic impact at a regional scale while considering trade-offs between fisheries and seabed health. This report summarizes progress on a European-wide assessment of bottom trawl impacts, presenting the first quantitative evaluation across the Baltic, Atlantic, Mediterranean, and Black Seas. Using indicators of seabed status—RBStot (biomass relative to fauna carrying capacity) and RBSsen (biomass of the 10\\\\% most sensitive fauna relative to carrying capacity)—significant regional and habitat differences in bottom trawling impacts were identified. Methods to differentiate between good and degraded states were further refined, including probability-based approaches for seabed condition assessment.A roadmap was established to implement a Core Fishing Grounds Analysis (CFGA) across all EU marine regions within the 2024–2027 cycle. CFGs aim to balance sustainable fishing and environmental goals by protecting high-value fishing areas. Discussions addressed current limitations of CFGA and guidelines for defining scenarios in trade-off analyses. A preliminary exercise using Atlantic and Mediterranean data explored the effects of varying RBS values on surface area, landing value, fishing effort, and weight. Assuming RBS = 0.8 as the threshold for a \\\"good\\\" condition, the study assessed reductions in exploited areas and fishing efforts needed to meet EU marine targets (D6C5 Adverse Effects on Habitats).The BFIAT (Bottom Fishing Impact Assessment Tool) model was advanced to predict trawling-induced habitat changes and their impact on biological processes like bioturbation. Case studies in the Celtic Sea, Greek waters, Baltic Sea, and Kattegat utilized datasets linking macrofauna traits to biogeochemical processes under different fishing and hydrodynamic regimes. Outputs from BFIAT are integrated with models like OMEXDIA to evaluate sediment carbon processing and with 3D models (NEMO/SPM-IOW, NEMO-ERSEM) to analyze carbon dynamics and deposition. Future work will examine the impacts of fauna reduction, sediment mixing, and carbon decay on ecosystem processes.},\\n\\tlanguage = {en},\\n\\turldate = {2025-03-14},\\n\\tinstitution = {ICES Scientific Reports},\\n\\tauthor = {{ICES}},\\n\\tcollaborator = {{WGFBIT}},\\n\\tyear = {2025},\\n\\tdoi = {10.17895/ICES.PUB.28351412},\\n\\tkeywords = {Pressures, impacts, conservation, and management},\\n\\tpages = {6304207 Bytes},\\n}\\n\\n\\n\\n\",\"author_short\":[\"ICES\"],\"key\":\"ices_working_2025\",\"id\":\"ices_working_2025\",\"bibbaseid\":\"ices-workinggrouponfisheriesbenthicimpactandtradeoffswgfbitoutputsfrom2024meeting-2025\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://ices-library.figshare.com/articles/report/Working_Group_on_Fisheries_Benthic_Impact_and_Trade-offs_WGFBIT_outputs_from_2024_meeting_/28351412\"},\"keyword\":[\"Pressures\",\"impacts\",\"conservation\",\"and management\"],\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Seasonal Cycles in a Seaweed Holobiont: A Multiyear Time Series Reveals Repetitive Microbial Shifts and Core Taxa\",\"volume\":\"27\",\"issn\":\"1462-2912, 1462-2920\",\"shorttitle\":\"Seasonal Cycles in a Seaweed Holobiont\",\"url\":\"https://sfamjournals.onlinelibrary.wiley.com/doi/10.1111/1462-2920.70062\",\"doi\":\"10.1111/1462-2920.70062\",\"abstract\":\"ABSTRACT Seasonality is an important natural feature that drives cyclic environmental changes. Seaweed holobionts, inhabiting shallow waters such as rocky shores and mud flats, are subject to seasonal changes in particular, but little is known about the influence of seasonality on their microbial communities. In this study, we conducted a three‐year time series, sampling at two‐month intervals, to assess the seasonality of microbial epibiota in the seaweed holobiont Gracilaria vermiculophylla . Our results reveal pronounced seasonal shifts that are both taxonomic and functional, oscillating between late winter and early summer across consecutive years. While epibiota varied taxonomically between populations, they were functionally similar, indicating that seasonal variability drives functional changes, while spatial variability is more redundant. We also identified seasonal core microbiota that consistently (re)associated with the host at specific times, alongside a permanent core that is present year‐round, independent of season or geography. These findings highlight the dynamic yet resilient nature of seaweed holobionts and demonstrate that their epibiota undergo predictable changes. Therewith, this research offers important insights into the temporal dynamics of seaweed‐associated microbiota and demonstrates that the relationship between seaweed host and its epibiota is not static but naturally subject to an ongoing seasonal succession process.\",\"language\":\"en\",\"number\":\"3\",\"urldate\":\"2025-03-13\",\"journal\":\"Environmental Microbiology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Mudlaff\"],\"firstnames\":[\"Chantal\",\"Marie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Weinberger\"],\"firstnames\":[\"Florian\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Düsedau\"],\"firstnames\":[\"Luisa\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ghotbi\"],\"firstnames\":[\"Marjan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Künzel\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bonthond\"],\"firstnames\":[\"Guido\"],\"suffixes\":[]}],\"month\":\"March\",\"year\":\"2025\",\"pages\":\"e70062\",\"bibtex\":\"@article{mudlaff_seasonal_2025,\\n\\ttitle = {Seasonal {Cycles} in a {Seaweed} {Holobiont}: {A} {Multiyear} {Time} {Series} {Reveals} {Repetitive} {Microbial} {Shifts} and {Core} {Taxa}},\\n\\tvolume = {27},\\n\\tissn = {1462-2912, 1462-2920},\\n\\tshorttitle = {Seasonal {Cycles} in a {Seaweed} {Holobiont}},\\n\\turl = {https://sfamjournals.onlinelibrary.wiley.com/doi/10.1111/1462-2920.70062},\\n\\tdoi = {10.1111/1462-2920.70062},\\n\\tabstract = {ABSTRACT \\n             \\n              Seasonality is an important natural feature that drives cyclic environmental changes. Seaweed holobionts, inhabiting shallow waters such as rocky shores and mud flats, are subject to seasonal changes in particular, but little is known about the influence of seasonality on their microbial communities. In this study, we conducted a three‐year time series, sampling at two‐month intervals, to assess the seasonality of microbial epibiota in the seaweed holobiont \\n              Gracilaria vermiculophylla \\n              . Our results reveal pronounced seasonal shifts that are both taxonomic and functional, oscillating between late winter and early summer across consecutive years. While epibiota varied taxonomically between populations, they were functionally similar, indicating that seasonal variability drives functional changes, while spatial variability is more redundant. We also identified seasonal core microbiota that consistently (re)associated with the host at specific times, alongside a permanent core that is present year‐round, independent of season or geography. These findings highlight the dynamic yet resilient nature of seaweed holobionts and demonstrate that their epibiota undergo predictable changes. Therewith, this research offers important insights into the temporal dynamics of seaweed‐associated microbiota and demonstrates that the relationship between seaweed host and its epibiota is not static but naturally subject to an ongoing seasonal succession process.},\\n\\tlanguage = {en},\\n\\tnumber = {3},\\n\\turldate = {2025-03-13},\\n\\tjournal = {Environmental Microbiology},\\n\\tauthor = {Mudlaff, Chantal Marie and Weinberger, Florian and Düsedau, Luisa and Ghotbi, Marjan and Künzel, Sven and Bonthond, Guido},\\n\\tmonth = mar,\\n\\tyear = {2025},\\n\\tpages = {e70062},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Mudlaff, C. M.\",\"Weinberger, F.\",\"Düsedau, L.\",\"Ghotbi, M.\",\"Künzel, S.\",\"Bonthond, G.\"],\"key\":\"mudlaff_seasonal_2025\",\"id\":\"mudlaff_seasonal_2025\",\"bibbaseid\":\"mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2025\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://sfamjournals.onlinelibrary.wiley.com/doi/10.1111/1462-2920.70062\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Drone-based monitoring of intertidal blue mussel beds in the Wadden Sea – comparison of a threshold and two machine learning approaches\",\"volume\":\"11\",\"issn\":\"2296-7745\",\"url\":\"https://www.frontiersin.org/articles/10.3389/fmars.2024.1381036/full\",\"doi\":\"10.3389/fmars.2024.1381036\",\"abstract\":\"In the Wadden Sea, intertidal mussel beds of the blue mussel ( Mytilus edulis ) and the Pacific oyster ( Magallana gigas ) form distinct epibenthic communities and local hotspots of high biomass and biodiversity. To detect and evaluate natural and anthropogenic processes, a ground-based monitoring program started over 25 years ago in the German Wadden Sea. In this study, we describe the potential of drones and machine learning approaches for a remote sensing-based integration into an existing monitoring program of intertidal mussel beds. A fixed wing drone was used to cover an area of up to 39ha in a single flight, with an overall time saving potential of 50%. Applying machine learning approaches, a detailed extraction of the intertidal blue mussel bed coverage with an overall accuracy (OA) up to 95.6% was reached, applying a Support Vector Machine (SVM). The application of a multispectral sensor improved the classification performance. Compared to ground-based monitoring, the drone-based method provided significantly more information on the area extension, coverage, and associated algae of the mussel beds. The results show that drones can provide a non-invasive way to survey large and difficult to access areas providing detailed maps of mussel beds and their internal structures.\",\"urldate\":\"2025-03-13\",\"journal\":\"Frontiers in Marine Science\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Schnurawa\"],\"firstnames\":[\"Marc\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Mueller\"],\"firstnames\":[\"Jasmin\",\"S.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schade\"],\"firstnames\":[\"Hanna\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nehls\"],\"firstnames\":[\"Georg\"],\"suffixes\":[]}],\"month\":\"April\",\"year\":\"2024\",\"pages\":\"1381036\",\"bibtex\":\"@article{schnurawa_drone-based_2024,\\n\\ttitle = {Drone-based monitoring of intertidal blue mussel beds in the {Wadden} {Sea} – comparison of a threshold and two machine learning approaches},\\n\\tvolume = {11},\\n\\tissn = {2296-7745},\\n\\turl = {https://www.frontiersin.org/articles/10.3389/fmars.2024.1381036/full},\\n\\tdoi = {10.3389/fmars.2024.1381036},\\n\\tabstract = {In the Wadden Sea, intertidal mussel beds of the blue mussel ( \\n              Mytilus edulis \\n              ) and the Pacific oyster ( \\n              Magallana gigas \\n              ) form distinct epibenthic communities and local hotspots of high biomass and biodiversity. To detect and evaluate natural and anthropogenic processes, a ground-based monitoring program started over 25 years ago in the German Wadden Sea. In this study, we describe the potential of drones and machine learning approaches for a remote sensing-based integration into an existing monitoring program of intertidal mussel beds. A fixed wing drone was used to cover an area of up to 39ha in a single flight, with an overall time saving potential of 50\\\\%. Applying machine learning approaches, a detailed extraction of the intertidal blue mussel bed coverage with an overall accuracy (OA) up to 95.6\\\\% was reached, applying a Support Vector Machine (SVM). The application of a multispectral sensor improved the classification performance. Compared to ground-based monitoring, the drone-based method provided significantly more information on the area extension, coverage, and associated algae of the mussel beds. The results show that drones can provide a non-invasive way to survey large and difficult to access areas providing detailed maps of mussel beds and their internal structures.},\\n\\turldate = {2025-03-13},\\n\\tjournal = {Frontiers in Marine Science},\\n\\tauthor = {Schnurawa, Marc and Mueller, Jasmin S. and Schade, Hanna and Nehls, Georg},\\n\\tmonth = apr,\\n\\tyear = {2024},\\n\\tpages = {1381036},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Schnurawa, M.\",\"Mueller, J. S.\",\"Schade, H.\",\"Nehls, G.\"],\"key\":\"schnurawa_drone-based_2024\",\"id\":\"schnurawa_drone-based_2024\",\"bibbaseid\":\"schnurawa-mueller-schade-nehls-dronebasedmonitoringofintertidalbluemusselbedsinthewaddenseacomparisonofathresholdandtwomachinelearningapproaches-2024\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.frontiersin.org/articles/10.3389/fmars.2024.1381036/full\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"misc\",\"type\":\"misc\",\"title\":\"Dissolved organic matter fluxes and fatty acid composition from shallow-water and deep-water demo- and hexactinellid sponges from New Zealand\",\"url\":\"http://biorxiv.org/lookup/doi/10.1101/2024.06.03.597081\",\"doi\":\"10.1101/2024.06.03.597081\",\"abstract\":\"Abstract Sponges are an important component of shallow- and deep-water ecosystems enhancing eukaryotic biodiversity via diverse endo- and epibiota and by providing three dimensional habitats for benthic invertebrates and fishes. Sponge biodiversity is particularly high in the waters around New Zealand (Southwest Pacific), where we collected two shallow- and two deep-water sponge species ( Tedania sp., Suberea meandrina , Farrea raoulensis , Artemisina sp.) for ex-situ incubation experiments to detect whether these sponges may process dissolved organic matter. We assessed the biochemical and phospholipid-derived fatty acids (PLFAs) and measured dissolved organic carbon (DOC) and total dissolved nitrogen (TDN) fluxes. Changes in fluorescent dissolved organic matter (FDOM) over time were analyzed and the results were linked to the bacterial communities of the sponge holobiont. Dried sponge tissue consisted of 17.5 ± 3.75% organic (org.) C and of 4.34 ± 1.02% total nitrogen (TN) with a natural stable isotope composition of -19.0 ±0.25‰ for δ 13 org. C and of 10.2 ±2.43‰ for δ 15 TN. None of the DOC fluxes was significant and only the release of TDN by Tedania sp. was significantly different from 0 μmol TDN g org. C -1 d -1 . We detected the presence of four fluorophores in the FDOM pool: 2 tryptophan- and protein-like fluorophores (C1, C2), 1 humic-like fluorophore (C3), and 1 tyrosine-like fluorophore (C4). The maximum fluorescence intensity F max of C1 decreased significantly in S. meandrina incubations, whereas F max of C2 grew in the same incubations. F max of C3 increased in Tedania sp. incubations, in which F max of C4 decreased. In comparison, F max of C4 in S. meandrina rose. The PLFA composition of sponge tissue was dominated by long-chain fatty acids, saturated fatty acids, and monosaturated fatty acids and most PLFAs were sponge- and bacteria-specific. The bacterial community of the demosponges Artemisina sp., S. meandrina and Tedania sp. consisted mostly of Proteobacteria and Chloroflexota, whereas the dominating bacteria phylum of the hexactinellid F. raoulensis was Proteobacteria. We proposed that the holobionts of S. meandrina and Tedania sp. contain bacteria that are involved in the transformation and degradation of DOM. In S. meandrina , Chloroflexota and Poribacteria may degrade tryptophan-like fluorophores to a chemically modified tryptophan-like and protein-like fluorophore, while producing a tyrosine-like fluorophore. In Tedania sp., Chloroflexota may contribute to the release of significant amounts of TDN by producing humic-like fluorophores, while degrading tyrosine-like fluorophores. Farrea raoulensis may not take up DOM due to a lack of Poribacteria and Chloroflexota or may use colloidal instead of truly dissolved DOC.\",\"language\":\"en\",\"urldate\":\"2024-12-20\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Stratmann\"],\"firstnames\":[\"Tanja\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Miranda\"],\"firstnames\":[\"Mario\",\"L.\",\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"De\",\"Kluijver\"],\"firstnames\":[\"Anna\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Busch\"],\"firstnames\":[\"Kathrin\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kelly\"],\"firstnames\":[\"Michelle\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Mills\"],\"firstnames\":[\"Sadie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"June\",\"year\":\"2024\",\"bibtex\":\"@misc{stratmann_dissolved_2024,\\n\\ttitle = {Dissolved organic matter fluxes and fatty acid composition from shallow-water and deep-water demo- and hexactinellid sponges from {New} {Zealand}},\\n\\turl = {http://biorxiv.org/lookup/doi/10.1101/2024.06.03.597081},\\n\\tdoi = {10.1101/2024.06.03.597081},\\n\\tabstract = {Abstract \\n           \\n            Sponges are an important component of shallow- and deep-water ecosystems enhancing eukaryotic biodiversity via diverse endo- and epibiota and by providing three dimensional habitats for benthic invertebrates and fishes. Sponge biodiversity is particularly high in the waters around New Zealand (Southwest Pacific), where we collected two shallow- and two deep-water sponge species ( \\n            Tedania \\n            sp., \\n            Suberea meandrina \\n            , \\n            Farrea raoulensis \\n            , \\n            Artemisina \\n            sp.) for \\n            ex-situ \\n            incubation experiments to detect whether these sponges may process dissolved organic matter. \\n           \\n          We assessed the biochemical and phospholipid-derived fatty acids (PLFAs) and measured dissolved organic carbon (DOC) and total dissolved nitrogen (TDN) fluxes. Changes in fluorescent dissolved organic matter (FDOM) over time were analyzed and the results were linked to the bacterial communities of the sponge holobiont. \\n           \\n            Dried sponge tissue consisted of 17.5 ± 3.75\\\\% organic (org.) C and of 4.34 ± 1.02\\\\% total nitrogen (TN) with a natural stable isotope composition of -19.0 ±0.25‰ for δ \\n            13 \\n            org. C and of 10.2 ±2.43‰ for δ \\n            15 \\n            TN. None of the DOC fluxes was significant and only the release of TDN by \\n            Tedania \\n            sp. was significantly different from 0 μmol TDN g org. C \\n            -1 \\n            d \\n            -1 \\n            . We detected the presence of four fluorophores in the FDOM pool: 2 tryptophan- and protein-like fluorophores (C1, C2), 1 humic-like fluorophore (C3), and 1 tyrosine-like fluorophore (C4). The maximum fluorescence intensity F \\n            max \\n            of C1 decreased significantly in \\n            S. meandrina \\n            incubations, whereas F \\n            max \\n            of C2 grew in the same incubations. F \\n            max \\n            of C3 increased in \\n            Tedania \\n            sp. incubations, in which F \\n            max \\n            of C4 decreased. In comparison, F \\n            max \\n            of C4 in \\n            S. meandrina \\n            rose. \\n           \\n           \\n            The PLFA composition of sponge tissue was dominated by long-chain fatty acids, saturated fatty acids, and monosaturated fatty acids and most PLFAs were sponge- and bacteria-specific. The bacterial community of the demosponges \\n            Artemisina \\n            sp., \\n            S. meandrina \\n            and \\n            Tedania \\n            sp. consisted mostly of Proteobacteria and Chloroflexota, whereas the dominating bacteria phylum of the hexactinellid \\n            F. raoulensis \\n            was Proteobacteria. \\n           \\n           \\n            We proposed that the holobionts of \\n            S. meandrina \\n            and \\n            Tedania \\n            sp. contain bacteria that are involved in the transformation and degradation of DOM. In \\n            S. meandrina \\n            , Chloroflexota and Poribacteria may degrade tryptophan-like fluorophores to a chemically modified tryptophan-like and protein-like fluorophore, while producing a tyrosine-like fluorophore. In \\n            Tedania \\n            sp., Chloroflexota may contribute to the release of significant amounts of TDN by producing humic-like fluorophores, while degrading tyrosine-like fluorophores. \\n            Farrea raoulensis \\n            may not take up DOM due to a lack of Poribacteria and Chloroflexota or may use colloidal instead of truly dissolved DOC.},\\n\\tlanguage = {en},\\n\\turldate = {2024-12-20},\\n\\tauthor = {Stratmann, Tanja and Miranda, Mario L. M. and De Kluijver, Anna and Busch, Kathrin and Kelly, Michelle and Mills, Sadie and Schupp, Peter J.},\\n\\tmonth = jun,\\n\\tyear = {2024},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Stratmann, T.\",\"Miranda, M. L. M.\",\"De Kluijver, A.\",\"Busch, K.\",\"Kelly, M.\",\"Mills, S.\",\"Schupp, P. J.\"],\"key\":\"stratmann_dissolved_2024\",\"id\":\"stratmann_dissolved_2024\",\"bibbaseid\":\"stratmann-miranda-dekluijver-busch-kelly-mills-schupp-dissolvedorganicmatterfluxesandfattyacidcompositionfromshallowwateranddeepwaterdemoandhexactinellidspongesfromnewzealand-2024\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://biorxiv.org/lookup/doi/10.1101/2024.06.03.597081\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"misc\",\"type\":\"misc\",\"title\":\"Coral larvae on demand: a novel method for an instant acquisition of healthy brooded larvae\",\"copyright\":\"https://creativecommons.org/licenses/by/4.0/\",\"shorttitle\":\"Coral larvae on demand\",\"url\":\"https://www.researchsquare.com/article/rs-4616138/v1\",\"doi\":\"10.21203/rs.3.rs-4616138/v1\",\"abstract\":\"Abstract Access to coral larvae is crucial for research on early life stages of corals, yet traditional methods for obtaining brooded larvae are labor-intensive and time-consuming. We present a novel method to efficiently collect viable brooded larvae within minutes from colonies of five different scleractinian coral species ( Leptastrea purpurea , Leptastrea transversa , Tubastraea faulkneri , Pocillopora acuta , Favia fragum ). By immersing the colonies in seawater containing 5–10 g/L potassium chloride for 5–7 minutes, we induced instant larval release. This method yielded a similar quantity of larvae compared to traditional methods. The larvae remained viable, surviving storage for several weeks and settling successfully. Our method is both faster and easier than traditional methods, suitable for application with aquarium-cultured corals or in field stations. The potassium chloride technique was effective for all tested coral species that tolerate elevated potassium ion concentrations without harm. However, it should not be applied to potassium-sensitive corals like Euphyllia . Coral reproduction, larval release, planulation, brooder, spawning, settlement cues\",\"urldate\":\"2024-12-20\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Moeller\"],\"firstnames\":[\"Mareen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Fiegel\"],\"firstnames\":[\"Laura\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]}],\"month\":\"August\",\"year\":\"2024\",\"bibtex\":\"@misc{nietzer_coral_2024,\\n\\ttitle = {Coral larvae on demand: a novel method for an instant acquisition of healthy brooded larvae},\\n\\tcopyright = {https://creativecommons.org/licenses/by/4.0/},\\n\\tshorttitle = {Coral larvae on demand},\\n\\turl = {https://www.researchsquare.com/article/rs-4616138/v1},\\n\\tdoi = {10.21203/rs.3.rs-4616138/v1},\\n\\tabstract = {Abstract \\n           \\n            Access to coral larvae is crucial for research on early life stages of corals, yet traditional methods for obtaining brooded larvae are labor-intensive and time-consuming. We present a novel method to efficiently collect viable brooded larvae within minutes from colonies of five different scleractinian coral species ( \\n            Leptastrea purpurea \\n            , \\n            Leptastrea transversa \\n            , \\n            Tubastraea faulkneri \\n            , \\n            Pocillopora acuta \\n            , \\n            Favia fragum \\n            ). By immersing the colonies in seawater containing 5–10 g/L potassium chloride for 5–7 minutes, we induced instant larval release. This method yielded a similar quantity of larvae compared to traditional methods. The larvae remained viable, surviving storage for several weeks and settling successfully. Our method is both faster and easier than traditional methods, suitable for application with aquarium-cultured corals or in field stations. The potassium chloride technique was effective for all tested coral species that tolerate elevated potassium ion concentrations without harm. However, it should not be applied to potassium-sensitive corals like \\n            Euphyllia \\n            . Coral reproduction, larval release, planulation, brooder, spawning, settlement cues},\\n\\turldate = {2024-12-20},\\n\\tauthor = {Nietzer, Samuel and Moeller, Mareen and Fiegel, Laura and Schupp, Peter},\\n\\tmonth = aug,\\n\\tyear = {2024},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Nietzer, S.\",\"Moeller, M.\",\"Fiegel, L.\",\"Schupp, P.\"],\"key\":\"nietzer_coral_2024\",\"id\":\"nietzer_coral_2024\",\"bibbaseid\":\"nietzer-moeller-fiegel-schupp-corallarvaeondemandanovelmethodforaninstantacquisitionofhealthybroodedlarvae-2024\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.researchsquare.com/article/rs-4616138/v1\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"misc\",\"type\":\"misc\",\"title\":\"Greater host influence and promiscuity: How an invasive seaweed host has advantages over co-occurring natives\",\"copyright\":\"http://creativecommons.org/licenses/by-nd/4.0/\",\"shorttitle\":\"Greater host influence and promiscuity\",\"url\":\"http://biorxiv.org/lookup/doi/10.1101/2024.12.02.626238\",\"doi\":\"10.1101/2024.12.02.626238\",\"abstract\":\"Abstract The surface microbiome of seaweed hosts is a multi-domain biofilm regulated by host-microbe and microbe-microbe interactions. The extent to which hosts influence these interactions, and potentially affect their resilience and invasion success, remains unclear. We experimentally tested whether hosts with invasion history exert more influence over their biofilms than native hosts. Biofilm formation on proxy surfaces adjacent to one invasive ( Gracilaria vermiculophylla ) and two native ( Fucus serratus, Fucus vesiculosus ) co-occurring hosts was monitored and compared to mature epiphytic biofilms of the same hosts. Only Gracilaria’s proxy biofilms were significantly different in community composition compared to control surfaces. Gracilaria ’s proxy biofilms also showed the highest similarity to their adjacent algae sharing certain bacterial taxa that were absent in control treatments, indicating that colonization of the proxy surface was influenced by the host. Gracilaria and its proxy biofilm showed highest similarity in microbial network variables, suggesting a higher ability of the invader to influence connectivity and microbial associations within its biofilm. Meanwhile Gracilaria ’s mature biofilm also showed higher variability in its prokaryotic composition over experiments, which was also reflected in a less robust microbial network in both Gracilaria and its proxy biofilms. This suggests that in addition to stronger influence in the invasive host, it was also more promiscuous towards potential symbionts from the environment. Ultimately, through examining microbial interactions, in line with previous research we found that host influence and promiscuity may play an important role in seaweed hosts to acclimate to different environmental condition and successfully thrive in new ecosystems.\",\"language\":\"en\",\"urldate\":\"2024-12-20\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Ghotbi\"],\"firstnames\":[\"Marjan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bonthond\"],\"firstnames\":[\"Guido\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ghotbi\"],\"firstnames\":[\"Mitra\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Künzel\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Needham\"],\"firstnames\":[\"David\",\"M\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Weinberger\"],\"firstnames\":[\"Florian\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2024\",\"bibtex\":\"@misc{ghotbi_greater_2024,\\n\\ttitle = {Greater host influence and promiscuity: {How} an invasive seaweed host has advantages over co-occurring natives},\\n\\tcopyright = {http://creativecommons.org/licenses/by-nd/4.0/},\\n\\tshorttitle = {Greater host influence and promiscuity},\\n\\turl = {http://biorxiv.org/lookup/doi/10.1101/2024.12.02.626238},\\n\\tdoi = {10.1101/2024.12.02.626238},\\n\\tabstract = {Abstract \\n           \\n            The surface microbiome of seaweed hosts is a multi-domain biofilm regulated by host-microbe and microbe-microbe interactions. The extent to which hosts influence these interactions, and potentially affect their resilience and invasion success, remains unclear. We experimentally tested whether hosts with invasion history exert more influence over their biofilms than native hosts. Biofilm formation on proxy surfaces adjacent to one invasive ( \\n            Gracilaria vermiculophylla \\n            ) and two native ( \\n            Fucus serratus, Fucus vesiculosus \\n            ) co-occurring hosts was monitored and compared to mature epiphytic biofilms of the same hosts. Only \\n            Gracilaria’s \\n            proxy biofilms were significantly different in community composition compared to control surfaces. \\n            Gracilaria \\n            ’s proxy biofilms also showed the highest similarity to their adjacent algae sharing certain bacterial taxa that were absent in control treatments, indicating that colonization of the proxy surface was influenced by the host. \\n            Gracilaria \\n            and its proxy biofilm showed highest similarity in microbial network variables, suggesting a higher ability of the invader to influence connectivity and microbial associations within its biofilm. Meanwhile \\n            Gracilaria \\n            ’s mature biofilm also showed higher variability in its prokaryotic composition over experiments, which was also reflected in a less robust microbial network in both \\n            Gracilaria \\n            and its proxy biofilms. This suggests that in addition to stronger influence in the invasive host, it was also more promiscuous towards potential symbionts from the environment. Ultimately, through examining microbial interactions, in line with previous research we found that host influence and promiscuity may play an important role in seaweed hosts to acclimate to different environmental condition and successfully thrive in new ecosystems.},\\n\\tlanguage = {en},\\n\\turldate = {2024-12-20},\\n\\tauthor = {Ghotbi, Marjan and Bonthond, Guido and Ghotbi, Mitra and Künzel, Sven and Needham, David M and Weinberger, Florian},\\n\\tmonth = dec,\\n\\tyear = {2024},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Ghotbi, M.\",\"Bonthond, G.\",\"Ghotbi, M.\",\"Künzel, S.\",\"Needham, D. M\",\"Weinberger, F.\"],\"key\":\"ghotbi_greater_2024\",\"id\":\"ghotbi_greater_2024\",\"bibbaseid\":\"ghotbi-bonthond-ghotbi-knzel-needham-weinberger-greaterhostinfluenceandpromiscuityhowaninvasiveseaweedhosthasadvantagesovercooccurringnatives-2024\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://biorxiv.org/lookup/doi/10.1101/2024.12.02.626238\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"incollection\",\"type\":\"incollection\",\"address\":\"Boca Raton\",\"edition\":\"1\",\"title\":\"Drivers of Coral Reef Benthic Changes and Implications on Ecosystem Functioning and Services\",\"isbn\":\"9781003477518\",\"url\":\"https://www.taylorfrancis.com/books/9781003477518/chapters/10.1201/9781003477518-5\",\"language\":\"en\",\"urldate\":\"2024-12-20\",\"booktitle\":\"Oceanography and Marine Biology\",\"publisher\":\"CRC Press\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Reverter\"],\"firstnames\":[\"Miriam\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Helber\"],\"firstnames\":[\"Stephanie\",\"B.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Goeij\"],\"firstnames\":[\"Jasper\",\"M.\",\"De\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"collaborator\":\"Todd, P. A. and Russell, B.D.\",\"month\":\"September\",\"year\":\"2024\",\"doi\":\"10.1201/9781003477518-5\",\"pages\":\"215–247\",\"bibtex\":\"@incollection{todd_drivers_2024,\\n\\taddress = {Boca Raton},\\n\\tedition = {1},\\n\\ttitle = {Drivers of {Coral} {Reef} {Benthic} {Changes} and {Implications} on {Ecosystem} {Functioning} and {Services}},\\n\\tisbn = {9781003477518},\\n\\turl = {https://www.taylorfrancis.com/books/9781003477518/chapters/10.1201/9781003477518-5},\\n\\tlanguage = {en},\\n\\turldate = {2024-12-20},\\n\\tbooktitle = {Oceanography and {Marine} {Biology}},\\n\\tpublisher = {CRC Press},\\n\\tauthor = {Reverter, Miriam and Helber, Stephanie B. and Rohde, Sven and Goeij, Jasper M. De and Schupp, Peter J.},\\n\\tcollaborator = {Todd, P. A. and Russell, B.D.},\\n\\tmonth = sep,\\n\\tyear = {2024},\\n\\tdoi = {10.1201/9781003477518-5},\\n\\tpages = {215--247},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Reverter, M.\",\"Helber, S. B.\",\"Rohde, S.\",\"Goeij, J. M. D.\",\"Schupp, P. J.\"],\"key\":\"todd_drivers_2024\",\"id\":\"todd_drivers_2024\",\"bibbaseid\":\"reverter-helber-rohde-goeij-schupp-driversofcoralreefbenthicchangesandimplicationsonecosystemfunctioningandservices-2024\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.taylorfrancis.com/books/9781003477518/chapters/10.1201/9781003477518-5\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Mercury concentrations in blood and back feathers are repeatable, heritable and correlated in a long-lived seabird\",\"volume\":\"955\",\"issn\":\"00489697\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0048969724070967\",\"doi\":\"10.1016/j.scitotenv.2024.176939\",\"language\":\"en\",\"urldate\":\"2024-12-20\",\"journal\":\"Science of The Total Environment\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Bertram\"],\"firstnames\":[\"Justine\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Moiron\"],\"firstnames\":[\"Maria\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bichet\"],\"firstnames\":[\"Coraline\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kürten\"],\"firstnames\":[\"Nathalie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bouwhuis\"],\"firstnames\":[\"Sandra\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2024\",\"pages\":\"176939\",\"bibtex\":\"@article{bertram_mercury_2024,\\n\\ttitle = {Mercury concentrations in blood and back feathers are repeatable, heritable and correlated in a long-lived seabird},\\n\\tvolume = {955},\\n\\tissn = {00489697},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0048969724070967},\\n\\tdoi = {10.1016/j.scitotenv.2024.176939},\\n\\tlanguage = {en},\\n\\turldate = {2024-12-20},\\n\\tjournal = {Science of The Total Environment},\\n\\tauthor = {Bertram, Justine and Moiron, Maria and Bichet, Coraline and Kürten, Nathalie and Schupp, Peter J. and Bouwhuis, Sandra},\\n\\tmonth = dec,\\n\\tyear = {2024},\\n\\tpages = {176939},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Bertram, J.\",\"Moiron, M.\",\"Bichet, C.\",\"Kürten, N.\",\"Schupp, P. J.\",\"Bouwhuis, S.\"],\"key\":\"bertram_mercury_2024\",\"id\":\"bertram_mercury_2024\",\"bibbaseid\":\"bertram-moiron-bichet-krten-schupp-bouwhuis-mercuryconcentrationsinbloodandbackfeathersarerepeatableheritableandcorrelatedinalonglivedseabird-2024\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0048969724070967\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Nutrient fluxes, oxygen consumption and fatty acid composition from deep-water demo- and hexactinellid sponges from New Zealand\",\"volume\":\"214\",\"issn\":\"09670637\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0967063724001869\",\"doi\":\"10.1016/j.dsr.2024.104416\",\"language\":\"en\",\"urldate\":\"2024-12-20\",\"journal\":\"Deep Sea Research Part I: Oceanographic Research Papers\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Stratmann\"],\"firstnames\":[\"Tanja\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Busch\"],\"firstnames\":[\"Kathrin\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"De\",\"Kluijver\"],\"firstnames\":[\"Anna\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kelly\"],\"firstnames\":[\"Michelle\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Mills\"],\"firstnames\":[\"Sadie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rossel\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2024\",\"pages\":\"104416\",\"bibtex\":\"@article{stratmann_nutrient_2024,\\n\\ttitle = {Nutrient fluxes, oxygen consumption and fatty acid composition from deep-water demo- and hexactinellid sponges from {New} {Zealand}},\\n\\tvolume = {214},\\n\\tissn = {09670637},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0967063724001869},\\n\\tdoi = {10.1016/j.dsr.2024.104416},\\n\\tlanguage = {en},\\n\\turldate = {2024-12-20},\\n\\tjournal = {Deep Sea Research Part I: Oceanographic Research Papers},\\n\\tauthor = {Stratmann, Tanja and Busch, Kathrin and De Kluijver, Anna and Kelly, Michelle and Mills, Sadie and Rossel, Sven and Schupp, Peter J.},\\n\\tmonth = dec,\\n\\tyear = {2024},\\n\\tpages = {104416},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Stratmann, T.\",\"Busch, K.\",\"De Kluijver, A.\",\"Kelly, M.\",\"Mills, S.\",\"Rossel, S.\",\"Schupp, P. J.\"],\"key\":\"stratmann_nutrient_2024\",\"id\":\"stratmann_nutrient_2024\",\"bibbaseid\":\"stratmann-busch-dekluijver-kelly-mills-rossel-schupp-nutrientfluxesoxygenconsumptionandfattyacidcompositionfromdeepwaterdemoandhexactinellidspongesfromnewzealand-2024\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0967063724001869\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"The Rhodoexplorer Platform for Red Algal Genomics and Whole-Genome Assemblies for Several <i>Gracilaria</i> Species\",\"volume\":\"15\",\"copyright\":\"https://creativecommons.org/licenses/by/4.0/\",\"issn\":\"1759-6653\",\"url\":\"https://academic.oup.com/gbe/article/doi/10.1093/gbe/evad124/7229277\",\"doi\":\"10.1093/gbe/evad124\",\"abstract\":\"Abstract Macroalgal (seaweed) genomic resources are generally lacking as compared with other eukaryotic taxa, and this is particularly true in the red algae (Rhodophyta). Understanding red algal genomes is critical to understanding eukaryotic evolution given that red algal genes are spread across eukaryotic lineages from secondary endosymbiosis and red algae diverged early in the Archaeplastids. The Gracilariales is a highly diverse and widely distributed order including species that can serve as ecosystem engineers in intertidal habitats and several notorious introduced species. The genus Gracilaria is cultivated worldwide, in part for its production of agar and other bioactive compounds with downstream pharmaceutical and industrial applications. This genus is also emerging as a model for algal evolutionary ecology. Here, we report new whole-genome assemblies for two species (Gracilaria chilensis and Gracilaria gracilis), a draft genome assembly of Gracilaria caudata, and genome annotation of the previously published Gracilaria vermiculophylla genome. To facilitate accessibility and comparative analysis, we integrated these data in a newly created web-based portal dedicated to red algal genomics (https://rhodoexplorer.sb-roscoff.fr). These genomes will provide a resource for understanding algal biology and, more broadly, eukaryotic evolution.\",\"language\":\"en\",\"number\":\"7\",\"urldate\":\"2024-11-07\",\"journal\":\"Genome Biology and Evolution\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Lipinska\"],\"firstnames\":[\"Agnieszka\",\"P\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Krueger-Hadfield\"],\"firstnames\":[\"Stacy\",\"A\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Godfroy\"],\"firstnames\":[\"Olivier\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Dittami\"],\"firstnames\":[\"Simon\",\"M\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ayres-Ostrock\"],\"firstnames\":[\"Lígia\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bonthond\"],\"firstnames\":[\"Guido\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Brillet-Guéguen\"],\"firstnames\":[\"Loraine\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Coelho\"],\"firstnames\":[\"Susana\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Corre\"],\"firstnames\":[\"Erwan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Cossard\"],\"firstnames\":[\"Guillaume\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Destombe\"],\"firstnames\":[\"Christophe\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Epperlein\"],\"firstnames\":[\"Paul\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Faugeron\"],\"firstnames\":[\"Sylvain\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ficko-Blean\"],\"firstnames\":[\"Elizabeth\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Beltrán\"],\"firstnames\":[\"Jessica\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Lavaut\"],\"firstnames\":[\"Emma\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Le\",\"Bars\"],\"firstnames\":[\"Arthur\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Marchi\"],\"firstnames\":[\"Fabiana\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Mauger\"],\"firstnames\":[\"Stéphane\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Michel\"],\"firstnames\":[\"Gurvan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Potin\"],\"firstnames\":[\"Philippe\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Scornet\"],\"firstnames\":[\"Delphine\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Sotka\"],\"firstnames\":[\"Erik\",\"E\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Weinberger\"],\"firstnames\":[\"Florian\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Cabral\",\"De\",\"Oliveira\"],\"firstnames\":[\"Mariana\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Guillemin\"],\"firstnames\":[\"Marie-Laure\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Plastino\"],\"firstnames\":[\"Estela\",\"M\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Valero\"],\"firstnames\":[\"Myriam\"],\"suffixes\":[]}],\"editor\":[{\"propositions\":[],\"lastnames\":[\"Castric\"],\"firstnames\":[\"Vincent\"],\"suffixes\":[]}],\"month\":\"July\",\"year\":\"2023\",\"pages\":\"evad124\",\"bibtex\":\"@article{lipinska_rhodoexplorer_2023,\\n\\ttitle = {The {Rhodoexplorer} {Platform} for {Red} {Algal} {Genomics} and {Whole}-{Genome} {Assemblies} for {Several} \\\\textit{{Gracilaria}} {Species}},\\n\\tvolume = {15},\\n\\tcopyright = {https://creativecommons.org/licenses/by/4.0/},\\n\\tissn = {1759-6653},\\n\\turl = {https://academic.oup.com/gbe/article/doi/10.1093/gbe/evad124/7229277},\\n\\tdoi = {10.1093/gbe/evad124},\\n\\tabstract = {Abstract \\n            Macroalgal (seaweed) genomic resources are generally lacking as compared with other eukaryotic taxa, and this is particularly true in the red algae (Rhodophyta). Understanding red algal genomes is critical to understanding eukaryotic evolution given that red algal genes are spread across eukaryotic lineages from secondary endosymbiosis and red algae diverged early in the Archaeplastids. The Gracilariales is a highly diverse and widely distributed order including species that can serve as ecosystem engineers in intertidal habitats and several notorious introduced species. The genus Gracilaria is cultivated worldwide, in part for its production of agar and other bioactive compounds with downstream pharmaceutical and industrial applications. This genus is also emerging as a model for algal evolutionary ecology. Here, we report new whole-genome assemblies for two species (Gracilaria chilensis and Gracilaria gracilis), a draft genome assembly of Gracilaria caudata, and genome annotation of the previously published Gracilaria vermiculophylla genome. To facilitate accessibility and comparative analysis, we integrated these data in a newly created web-based portal dedicated to red algal genomics (https://rhodoexplorer.sb-roscoff.fr). These genomes will provide a resource for understanding algal biology and, more broadly, eukaryotic evolution.},\\n\\tlanguage = {en},\\n\\tnumber = {7},\\n\\turldate = {2024-11-07},\\n\\tjournal = {Genome Biology and Evolution},\\n\\tauthor = {Lipinska, Agnieszka P and Krueger-Hadfield, Stacy A and Godfroy, Olivier and Dittami, Simon M and Ayres-Ostrock, Lígia and Bonthond, Guido and Brillet-Guéguen, Loraine and Coelho, Susana and Corre, Erwan and Cossard, Guillaume and Destombe, Christophe and Epperlein, Paul and Faugeron, Sylvain and Ficko-Blean, Elizabeth and Beltrán, Jessica and Lavaut, Emma and Le Bars, Arthur and Marchi, Fabiana and Mauger, Stéphane and Michel, Gurvan and Potin, Philippe and Scornet, Delphine and Sotka, Erik E and Weinberger, Florian and Cabral De Oliveira, Mariana and Guillemin, Marie-Laure and Plastino, Estela M and Valero, Myriam},\\n\\teditor = {Castric, Vincent},\\n\\tmonth = jul,\\n\\tyear = {2023},\\n\\tpages = {evad124},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Lipinska, A. P\",\"Krueger-Hadfield, S. A\",\"Godfroy, O.\",\"Dittami, S. M\",\"Ayres-Ostrock, L.\",\"Bonthond, G.\",\"Brillet-Guéguen, L.\",\"Coelho, S.\",\"Corre, E.\",\"Cossard, G.\",\"Destombe, C.\",\"Epperlein, P.\",\"Faugeron, S.\",\"Ficko-Blean, E.\",\"Beltrán, J.\",\"Lavaut, E.\",\"Le Bars, A.\",\"Marchi, F.\",\"Mauger, S.\",\"Michel, G.\",\"Potin, P.\",\"Scornet, D.\",\"Sotka, E. E\",\"Weinberger, F.\",\"Cabral De Oliveira, M.\",\"Guillemin, M.\",\"Plastino, E. M\",\"Valero, M.\"],\"editor_short\":[\"Castric, V.\"],\"key\":\"lipinska_rhodoexplorer_2023\",\"id\":\"lipinska_rhodoexplorer_2023\",\"bibbaseid\":\"lipinska-kruegerhadfield-godfroy-dittami-ayresostrock-bonthond-brilletguguen-coelho-etal-therhodoexplorerplatformforredalgalgenomicsandwholegenomeassembliesforseveraligracilariaispecies-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://academic.oup.com/gbe/article/doi/10.1093/gbe/evad124/7229277\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Bio-optical properties of the cyanobacterium <i>Nodularia spumigena</i>\",\"volume\":\"15\",\"copyright\":\"https://creativecommons.org/licenses/by/4.0/\",\"issn\":\"1866-3516\",\"url\":\"https://essd.copernicus.org/articles/15/4163/2023/\",\"doi\":\"10.5194/essd-15-4163-2023\",\"abstract\":\"Abstract. In the last century, an increasing number of extreme weather events have been experienced across the globe. These events have also been linked to changes in water quality, especially due to heavy rains, flooding, or droughts. In terms of blue economic activities, harmful algal bloom events can pose a major threat, especially when they become widespread and last for several days. We present and discuss advanced measurements of a bloom dominated by the cyanobacterium Nodularia spumigena conducted by hyperspectral optical technologies via experiments of opportunity. Absorption coefficients, absorbance and fluorescence were measured in the laboratory, and these data are available at https://doi.org/10.4121/21610995.v1 (Wollschläger et al., 2022), https://doi.org/10.4121/21822051.v1 (Miranda et al., 2023) and https://doi.org/10.4121/21904632.v1 (Miranda and Garaba, 2023). Data used to derive the above-water reflectance are available from https://doi.org/10.4121/21814977.v1 (Garaba, 2023) and https://doi.org/10.4121/21814773.v1 (Garaba and Albinus, 2023). Additionally, hyperspectral fluorescence measurements of the dissolved compounds in the water were carried out. These hyperspectral measurements were conducted over a wide spectrum (200–2500 nm). Diagnostic optical features were determined using robust statistical techniques. Water clarity was inferred from Secchi disc measurements (https://doi.org/10.1594/PANGAEA.951239, Garaba and Albinus, 2022). Identification of the cyanobacterium was completed via visual analysis under a microscope. Full sequences of the 16S rRNA and rbcL genes were obtained, revealing a very strong match to N. spumigena; these data are available via GenBank: https://www.ncbi.nlm.nih.gov/nuccore/OP918142/ (Garaba and Bonthond, 2022b) and https://www.ncbi.nlm.nih.gov/nuccore/OP925098 (Garaba and Bonthond, 2022a). The chlorophyll-a and phycocyanin levels determined are available from https://doi.org/10.4121/21792665.v1 (Rohde et al., 2023). Our experiments of opportunity echo the importance of sustainable, simplified, coordinated and continuous water quality monitoring as a way to thrive with respect to the targets set in the United Nations Sustainable Development Goals (e.g. 6, 11, 12 and 14) or the European Union Framework Directives (e.g. the Water Framework Directive and Marine Strategy Framework Directive).\",\"language\":\"en\",\"number\":\"9\",\"urldate\":\"2024-11-07\",\"journal\":\"Earth System Science Data\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Garaba\"],\"firstnames\":[\"Shungudzemwoyo\",\"P.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Albinus\"],\"firstnames\":[\"Michelle\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bonthond\"],\"firstnames\":[\"Guido\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Flöder\"],\"firstnames\":[\"Sabine\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Miranda\"],\"firstnames\":[\"Mario\",\"L.\",\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Yong\"],\"firstnames\":[\"Joanne\",\"Y.\",\"L.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wollschläger\"],\"firstnames\":[\"Jochen\"],\"suffixes\":[]}],\"month\":\"September\",\"year\":\"2023\",\"pages\":\"4163–4179\",\"bibtex\":\"@article{garaba_bio-optical_2023,\\n\\ttitle = {Bio-optical properties of the cyanobacterium \\\\textit{{Nodularia} spumigena}},\\n\\tvolume = {15},\\n\\tcopyright = {https://creativecommons.org/licenses/by/4.0/},\\n\\tissn = {1866-3516},\\n\\turl = {https://essd.copernicus.org/articles/15/4163/2023/},\\n\\tdoi = {10.5194/essd-15-4163-2023},\\n\\tabstract = {Abstract. In the last century, an increasing number of extreme weather events have been\\nexperienced across the globe. These events have also been linked to changes\\nin water quality, especially due to heavy rains, flooding, or droughts. In\\nterms of blue economic activities, harmful algal bloom events can pose a major\\nthreat, especially when they become widespread and last for several days. We\\npresent and discuss advanced measurements of a bloom dominated by the\\ncyanobacterium Nodularia spumigena conducted by hyperspectral optical technologies via\\nexperiments of opportunity. Absorption coefficients, absorbance and\\nfluorescence were measured in the laboratory, and these data are available at\\nhttps://doi.org/10.4121/21610995.v1\\n(Wollschläger et al., 2022), https://doi.org/10.4121/21822051.v1 (Miranda et al., 2023)\\nand https://doi.org/10.4121/21904632.v1 (Miranda and\\nGaraba, 2023). Data used to derive the above-water reflectance are available\\nfrom https://doi.org/10.4121/21814977.v1 (Garaba,\\n2023) and https://doi.org/10.4121/21814773.v1\\n(Garaba and Albinus, 2023). Additionally, hyperspectral\\nfluorescence measurements of the dissolved compounds in the water were carried out.\\nThese hyperspectral measurements were conducted over a wide spectrum (200–2500 nm). Diagnostic optical features were determined using robust\\nstatistical techniques. Water clarity was inferred from Secchi disc\\nmeasurements (https://doi.org/10.1594/PANGAEA.951239,\\nGaraba and Albinus, 2022). Identification of the cyanobacterium\\nwas completed via visual analysis under a microscope. Full sequences of the 16S rRNA and rbcL genes were\\nobtained, revealing a very strong match to\\nN. spumigena; these data are available via GenBank: https://www.ncbi.nlm.nih.gov/nuccore/OP918142/\\n(Garaba and Bonthond, 2022b) and https://www.ncbi.nlm.nih.gov/nuccore/OP925098\\n(Garaba and Bonthond, 2022a). The chlorophyll-a\\nand phycocyanin levels determined are available from https://doi.org/10.4121/21792665.v1 (Rohde et al., 2023).\\nOur experiments of opportunity echo the importance of sustainable,\\nsimplified, coordinated and continuous water quality monitoring as a way to\\nthrive with respect to the targets set in the United Nations Sustainable Development Goals (e.g. 6, 11, 12 and 14) or the European Union Framework Directives (e.g. the Water Framework Directive and\\nMarine Strategy Framework Directive).},\\n\\tlanguage = {en},\\n\\tnumber = {9},\\n\\turldate = {2024-11-07},\\n\\tjournal = {Earth System Science Data},\\n\\tauthor = {Garaba, Shungudzemwoyo P. and Albinus, Michelle and Bonthond, Guido and Flöder, Sabine and Miranda, Mario L. M. and Rohde, Sven and Yong, Joanne Y. L. and Wollschläger, Jochen},\\n\\tmonth = sep,\\n\\tyear = {2023},\\n\\tpages = {4163--4179},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Garaba, S. P.\",\"Albinus, M.\",\"Bonthond, G.\",\"Flöder, S.\",\"Miranda, M. L. M.\",\"Rohde, S.\",\"Yong, J. Y. L.\",\"Wollschläger, J.\"],\"key\":\"garaba_bio-optical_2023\",\"id\":\"garaba_bio-optical_2023\",\"bibbaseid\":\"garaba-albinus-bonthond-flder-miranda-rohde-yong-wollschlger-bioopticalpropertiesofthecyanobacteriuminodulariaspumigenai-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://essd.copernicus.org/articles/15/4163/2023/\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"misc\",\"type\":\"misc\",\"title\":\"Seasonal cycles in a seaweed holobiont: A multiyear time series reveals repetitive microbial shifts and core taxa\",\"copyright\":\"http://creativecommons.org/licenses/by/4.0/\",\"shorttitle\":\"Seasonal cycles in a seaweed holobiont\",\"url\":\"http://biorxiv.org/lookup/doi/10.1101/2024.10.23.619769\",\"doi\":\"10.1101/2024.10.23.619769\",\"abstract\":\"ABSTRACT Seasonality is an important natural feature that drives cyclic environmental changes. Seaweed holobionts, inhabiting shallow waters such as rocky shores and mud flats, are subject to seasonal changes in particular, but little is known on the influence of seasonality on their microbial communities. In this study, we conducted a bi-monthly, three-year time series to assess the seasonality of microbial epibiota in the seaweed holobiont Gracilaria vermiculophylla . Our results reveal pronounced seasonal shifts that are both taxonomic and functional, oscillating between late winter and early summer across consecutive years. While epibiota varied taxonomically between populations, they were functionally similar, indicating that seasonal variability drives functional changes, while spatial variability is more redundant. We also identified seasonal core microbiota that consistently (re)associated with the host at specific times, alongside a permanent core that is present year-round, independent of season or geography. These findings highlight the dynamic yet resilient nature of seaweed holobionts and demonstrate that their epibiota undergo predictable changes. Therewith, the research offers important insights into the temporal dynamics of seaweed-associated microbiota, and demonstrates that the relationship between seaweed host and its epibiota is not static, but naturally subject to an ongoing seasonal succession process.\",\"language\":\"en\",\"urldate\":\"2024-11-07\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Mudlaff\"],\"firstnames\":[\"Chantal\",\"Marie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Weinberger\"],\"firstnames\":[\"Florian\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Düsedau\"],\"firstnames\":[\"Luisa\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ghotbi\"],\"firstnames\":[\"Marjan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Künzel\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bonthond\"],\"firstnames\":[\"Guido\"],\"suffixes\":[]}],\"month\":\"October\",\"year\":\"2024\",\"bibtex\":\"@misc{mudlaff_seasonal_2024,\\n\\ttitle = {Seasonal cycles in a seaweed holobiont: {A} multiyear time series reveals repetitive microbial shifts and core taxa},\\n\\tcopyright = {http://creativecommons.org/licenses/by/4.0/},\\n\\tshorttitle = {Seasonal cycles in a seaweed holobiont},\\n\\turl = {http://biorxiv.org/lookup/doi/10.1101/2024.10.23.619769},\\n\\tdoi = {10.1101/2024.10.23.619769},\\n\\tabstract = {ABSTRACT \\n          Seasonality is an important natural feature that drives cyclic environmental changes. Seaweed holobionts, inhabiting shallow waters such as rocky shores and mud flats, are subject to seasonal changes in particular, but little is known on the influence of seasonality on their microbial communities. \\n           \\n            In this study, we conducted a bi-monthly, three-year time series to assess the seasonality of microbial epibiota in the seaweed holobiont \\n            Gracilaria vermiculophylla \\n            . Our results reveal pronounced seasonal shifts that are both taxonomic and functional, oscillating between late winter and early summer across consecutive years. While epibiota varied taxonomically between populations, they were functionally similar, indicating that seasonal variability drives functional changes, while spatial variability is more redundant. \\n           \\n          We also identified seasonal core microbiota that consistently (re)associated with the host at specific times, alongside a permanent core that is present year-round, independent of season or geography. These findings highlight the dynamic yet resilient nature of seaweed holobionts and demonstrate that their epibiota undergo predictable changes. Therewith, the research offers important insights into the temporal dynamics of seaweed-associated microbiota, and demonstrates that the relationship between seaweed host and its epibiota is not static, but naturally subject to an ongoing seasonal succession process.},\\n\\tlanguage = {en},\\n\\turldate = {2024-11-07},\\n\\tauthor = {Mudlaff, Chantal Marie and Weinberger, Florian and Düsedau, Luisa and Ghotbi, Marjan and Künzel, Sven and Bonthond, Guido},\\n\\tmonth = oct,\\n\\tyear = {2024},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Mudlaff, C. M.\",\"Weinberger, F.\",\"Düsedau, L.\",\"Ghotbi, M.\",\"Künzel, S.\",\"Bonthond, G.\"],\"key\":\"mudlaff_seasonal_2024\",\"id\":\"mudlaff_seasonal_2024\",\"bibbaseid\":\"mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2024\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://biorxiv.org/lookup/doi/10.1101/2024.10.23.619769\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Acute Toxicity Assays with Adult Coral Fragments: A Method for Standardization\",\"volume\":\"12\",\"copyright\":\"https://creativecommons.org/licenses/by/4.0/\",\"issn\":\"2305-6304\",\"shorttitle\":\"Acute Toxicity Assays with Adult Coral Fragments\",\"url\":\"https://www.mdpi.com/2305-6304/12/1/1\",\"doi\":\"10.3390/toxics12010001\",\"abstract\":\"Coral reefs are globally declining due to various anthropogenic stressors. Amongst those, chemical pollutants, such as pesticides from agricultural runoff, sewage or an overabundance of personal care products in coastal waters due to intense tourism, may be considered as a local stressor for reef-building corals. The extent to which such chemicals exhibit toxic effects towards corals at environmentally relevant concentrations is currently controversially discussed and existing studies are often based on varying and sometimes deficient test methods. To address this uncertainty, we adapted available methods into a reliable and comprehensive acute coral toxicity test method for the reef-building coral Montipora digitata. The toxicities of the four substances benzophenone-3 (BP-3), Diuron (DCMU), copper (Cu2+ as CuCl2, positive control) and dimethylformamide (DMF, solvent) were assessed in a 96 h semi-static test design. Endpoints such as maximum quantum yield, bleaching, tissue loss and mortality were evaluated with respect to their suitability for regulatory purposes. Overall, the endpoints bleaching and mortality yielded sensitive and robust results for the four tested substances. As the test method follows the principles of internationally standardized testing methods (ISO, OECD), it can be considered suitable for further validation and standardization. Once validated, a standardized test method will help to obtain reproducible toxicity results useful for marine hazard and risk assessment and regulatory decision making.\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2024-08-27\",\"journal\":\"Toxics\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Brefeld\"],\"firstnames\":[\"David\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Di\",\"Mauro\"],\"firstnames\":[\"Valentina\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Moeller\"],\"firstnames\":[\"Mareen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Lütjens\"],\"firstnames\":[\"Laura\",\"H.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Pawlowski\"],\"firstnames\":[\"Sascha\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Petersen-Thiery\"],\"firstnames\":[\"Mechtild\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2023\",\"pages\":\"1\",\"bibtex\":\"@article{brefeld_acute_2023,\\n\\ttitle = {Acute {Toxicity} {Assays} with {Adult} {Coral} {Fragments}: {A} {Method} for {Standardization}},\\n\\tvolume = {12},\\n\\tcopyright = {https://creativecommons.org/licenses/by/4.0/},\\n\\tissn = {2305-6304},\\n\\tshorttitle = {Acute {Toxicity} {Assays} with {Adult} {Coral} {Fragments}},\\n\\turl = {https://www.mdpi.com/2305-6304/12/1/1},\\n\\tdoi = {10.3390/toxics12010001},\\n\\tabstract = {Coral reefs are globally declining due to various anthropogenic stressors. Amongst those, chemical pollutants, such as pesticides from agricultural runoff, sewage or an overabundance of personal care products in coastal waters due to intense tourism, may be considered as a local stressor for reef-building corals. The extent to which such chemicals exhibit toxic effects towards corals at environmentally relevant concentrations is currently controversially discussed and existing studies are often based on varying and sometimes deficient test methods. To address this uncertainty, we adapted available methods into a reliable and comprehensive acute coral toxicity test method for the reef-building coral Montipora digitata. The toxicities of the four substances benzophenone-3 (BP-3), Diuron (DCMU), copper (Cu2+ as CuCl2, positive control) and dimethylformamide (DMF, solvent) were assessed in a 96 h semi-static test design. Endpoints such as maximum quantum yield, bleaching, tissue loss and mortality were evaluated with respect to their suitability for regulatory purposes. Overall, the endpoints bleaching and mortality yielded sensitive and robust results for the four tested substances. As the test method follows the principles of internationally standardized testing methods (ISO, OECD), it can be considered suitable for further validation and standardization. Once validated, a standardized test method will help to obtain reproducible toxicity results useful for marine hazard and risk assessment and regulatory decision making.},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2024-08-27},\\n\\tjournal = {Toxics},\\n\\tauthor = {Brefeld, David and Di Mauro, Valentina and Kellermann, Matthias Y. and Nietzer, Samuel and Moeller, Mareen and Lütjens, Laura H. and Pawlowski, Sascha and Petersen-Thiery, Mechtild and Schupp, Peter J.},\\n\\tmonth = dec,\\n\\tyear = {2023},\\n\\tpages = {1},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Brefeld, D.\",\"Di Mauro, V.\",\"Kellermann, M. Y.\",\"Nietzer, S.\",\"Moeller, M.\",\"Lütjens, L. H.\",\"Pawlowski, S.\",\"Petersen-Thiery, M.\",\"Schupp, P. J.\"],\"key\":\"brefeld_acute_2023\",\"id\":\"brefeld_acute_2023\",\"bibbaseid\":\"brefeld-dimauro-kellermann-nietzer-moeller-ltjens-pawlowski-petersenthiery-etal-acutetoxicityassayswithadultcoralfragmentsamethodforstandardization-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/2305-6304/12/1/1\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Sex- and age-specific mercury accumulation in a long-lived seabird\",\"volume\":\"927\",\"issn\":\"00489697\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0048969724024732\",\"doi\":\"10.1016/j.scitotenv.2024.172330\",\"language\":\"en\",\"urldate\":\"2024-08-27\",\"journal\":\"Science of The Total Environment\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Bertram\"],\"firstnames\":[\"Justine\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bichet\"],\"firstnames\":[\"Coraline\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Moiron\"],\"firstnames\":[\"Maria\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bouwhuis\"],\"firstnames\":[\"Sandra\"],\"suffixes\":[]}],\"month\":\"June\",\"year\":\"2024\",\"pages\":\"172330\",\"bibtex\":\"@article{bertram_sex-_2024,\\n\\ttitle = {Sex- and age-specific mercury accumulation in a long-lived seabird},\\n\\tvolume = {927},\\n\\tissn = {00489697},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0048969724024732},\\n\\tdoi = {10.1016/j.scitotenv.2024.172330},\\n\\tlanguage = {en},\\n\\turldate = {2024-08-27},\\n\\tjournal = {Science of The Total Environment},\\n\\tauthor = {Bertram, Justine and Bichet, Coraline and Moiron, Maria and Schupp, Peter J. and Bouwhuis, Sandra},\\n\\tmonth = jun,\\n\\tyear = {2024},\\n\\tpages = {172330},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Bertram, J.\",\"Bichet, C.\",\"Moiron, M.\",\"Schupp, P. J.\",\"Bouwhuis, S.\"],\"key\":\"bertram_sex-_2024\",\"id\":\"bertram_sex-_2024\",\"bibbaseid\":\"bertram-bichet-moiron-schupp-bouwhuis-sexandagespecificmercuryaccumulationinalonglivedseabird-2024\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0048969724024732\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Trade-offs in a reef-building coral after six years of thermal acclimation\",\"volume\":\"949\",\"issn\":\"00489697\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0048969724047387\",\"doi\":\"10.1016/j.scitotenv.2024.174589\",\"language\":\"en\",\"urldate\":\"2024-08-27\",\"journal\":\"Science of The Total Environment\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Roik\"],\"firstnames\":[\"Anna\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wall\"],\"firstnames\":[\"Marlene\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Dobelmann\"],\"firstnames\":[\"Melina\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Brefeld\"],\"firstnames\":[\"David\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Fiesinger\"],\"firstnames\":[\"Anna\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Reverter\"],\"firstnames\":[\"Miriam\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Jackson\"],\"firstnames\":[\"Matthew\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rutsch\"],\"firstnames\":[\"Marie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Strahl\"],\"firstnames\":[\"Julia\"],\"suffixes\":[]}],\"month\":\"November\",\"year\":\"2024\",\"pages\":\"174589\",\"bibtex\":\"@article{roik_trade-offs_2024,\\n\\ttitle = {Trade-offs in a reef-building coral after six years of thermal acclimation},\\n\\tvolume = {949},\\n\\tissn = {00489697},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0048969724047387},\\n\\tdoi = {10.1016/j.scitotenv.2024.174589},\\n\\tlanguage = {en},\\n\\turldate = {2024-08-27},\\n\\tjournal = {Science of The Total Environment},\\n\\tauthor = {Roik, Anna and Wall, Marlene and Dobelmann, Melina and Nietzer, Samuel and Brefeld, David and Fiesinger, Anna and Reverter, Miriam and Schupp, Peter J. and Jackson, Matthew and Rutsch, Marie and Strahl, Julia},\\n\\tmonth = nov,\\n\\tyear = {2024},\\n\\tpages = {174589},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Roik, A.\",\"Wall, M.\",\"Dobelmann, M.\",\"Nietzer, S.\",\"Brefeld, D.\",\"Fiesinger, A.\",\"Reverter, M.\",\"Schupp, P. J.\",\"Jackson, M.\",\"Rutsch, M.\",\"Strahl, J.\"],\"key\":\"roik_trade-offs_2024\",\"id\":\"roik_trade-offs_2024\",\"bibbaseid\":\"roik-wall-dobelmann-nietzer-brefeld-fiesinger-reverter-schupp-etal-tradeoffsinareefbuildingcoralaftersixyearsofthermalacclimation-2024\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0048969724047387\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Abundance, biomass and species richness of macrozoobenthos along an intertidal elevation gradient\",\"volume\":\"13\",\"issn\":\"2045-7758, 2045-7758\",\"url\":\"https://onlinelibrary.wiley.com/doi/10.1002/ece3.10815\",\"doi\":\"10.1002/ece3.10815\",\"abstract\":\"Abstract Ecology aims to comprehend species distribution and its interaction with environmental factors, from global to local scales. While global environmental changes affect marine biodiversity, understanding the drivers at smaller scales remains crucial. Tidal flats can be found on most of the world's coastlines and are particularly vulnerable to anthropogenic disturbances. They are important transient ecosystems between terrestrial and marine ecosystems, and their biodiversity provides important ecosystem services. Owing to this unique, terrestrial–marine transition, strong environmental gradients of elevation, sediment composition and food availability prevail. Here, we investigated which regional and local environmental factors drive the spatio‐temporal dynamics of macrozoobenthos communities on back‐barrier tidal flats in the East Frisian Wadden Sea. On the regional level, we found that species composition changed significantly from west to east on the East Frisian islands and that total abundance and species richness decreased from west to east. On the local abiotic level, we found that macrozoobenthos biomass decreased with higher elevation towards the salt marsh and that the total abundance of organisms in the sediment significantly increased with increasing mud content, while biodiversity and biomass were not changing significantly. In contrast to expectations, increasing Chl a availability as a measure of primary productivity did not result in changes in abundance, biomass or biodiversity, but extremely high total organic carbon (TOC) content was associated with a decrease in biomass and biodiversity. In conclusion, we found regional and local relationships that are similar to those observed in previous studies on macrozoobenthos in the Wadden Sea. Macrozoobenthos biomass, abundance and biodiversity are interrelated in a complex way with the physical, abiotic and biotic processes in and above the sediment.\",\"language\":\"en\",\"number\":\"12\",\"urldate\":\"2024-01-12\",\"journal\":\"Ecology and Evolution\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Dewenter\"],\"firstnames\":[\"Jana\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Yong\"],\"firstnames\":[\"Joanne\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Lõhmus\"],\"firstnames\":[\"Kertu\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kröncke\"],\"firstnames\":[\"Ingrid\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Moorthi\"],\"firstnames\":[\"Stefanie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Pieck\"],\"firstnames\":[\"Daniela\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kuczynski\"],\"firstnames\":[\"Lucie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2023\",\"pages\":\"e10815\",\"bibtex\":\"@article{dewenter_abundance_2023,\\n\\ttitle = {Abundance, biomass and species richness of macrozoobenthos along an intertidal elevation gradient},\\n\\tvolume = {13},\\n\\tissn = {2045-7758, 2045-7758},\\n\\turl = {https://onlinelibrary.wiley.com/doi/10.1002/ece3.10815},\\n\\tdoi = {10.1002/ece3.10815},\\n\\tabstract = {Abstract \\n             \\n              Ecology aims to comprehend species distribution and its interaction with environmental factors, from global to local scales. While global environmental changes affect marine biodiversity, understanding the drivers at smaller scales remains crucial. Tidal flats can be found on most of the world's coastlines and are particularly vulnerable to anthropogenic disturbances. They are important transient ecosystems between terrestrial and marine ecosystems, and their biodiversity provides important ecosystem services. Owing to this unique, terrestrial–marine transition, strong environmental gradients of elevation, sediment composition and food availability prevail. Here, we investigated which regional and local environmental factors drive the spatio‐temporal dynamics of macrozoobenthos communities on back‐barrier tidal flats in the East Frisian Wadden Sea. On the regional level, we found that species composition changed significantly from west to east on the East Frisian islands and that total abundance and species richness decreased from west to east. On the local abiotic level, we found that macrozoobenthos biomass decreased with higher elevation towards the salt marsh and that the total abundance of organisms in the sediment significantly increased with increasing mud content, while biodiversity and biomass were not changing significantly. In contrast to expectations, increasing Chl \\n              a \\n              availability as a measure of primary productivity did not result in changes in abundance, biomass or biodiversity, but extremely high total organic carbon (TOC) content was associated with a decrease in biomass and biodiversity. In conclusion, we found regional and local relationships that are similar to those observed in previous studies on macrozoobenthos in the Wadden Sea. Macrozoobenthos biomass, abundance and biodiversity are interrelated in a complex way with the physical, abiotic and biotic processes in and above the sediment.},\\n\\tlanguage = {en},\\n\\tnumber = {12},\\n\\turldate = {2024-01-12},\\n\\tjournal = {Ecology and Evolution},\\n\\tauthor = {Dewenter, Jana and Yong, Joanne and Schupp, Peter J. and Lõhmus, Kertu and Kröncke, Ingrid and Moorthi, Stefanie and Pieck, Daniela and Kuczynski, Lucie and Rohde, Sven},\\n\\tmonth = dec,\\n\\tyear = {2023},\\n\\tpages = {e10815},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Dewenter, J.\",\"Yong, J.\",\"Schupp, P. J.\",\"Lõhmus, K.\",\"Kröncke, I.\",\"Moorthi, S.\",\"Pieck, D.\",\"Kuczynski, L.\",\"Rohde, S.\"],\"key\":\"dewenter_abundance_2023\",\"id\":\"dewenter_abundance_2023\",\"bibbaseid\":\"dewenter-yong-schupp-lhmus-krncke-moorthi-pieck-kuczynski-etal-abundancebiomassandspeciesrichnessofmacrozoobenthosalonganintertidalelevationgradient-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://onlinelibrary.wiley.com/doi/10.1002/ece3.10815\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Benthic microbial biogeographic trends in the North Sea are shaped by an interplay of environmental drivers and bottom trawling effort\",\"volume\":\"3\",\"issn\":\"2730-6151\",\"url\":\"https://www.nature.com/articles/s43705-023-00336-3\",\"doi\":\"10.1038/s43705-023-00336-3\",\"abstract\":\"Abstract Microbial composition and diversity in marine sediments are shaped by environmental, biological, and anthropogenic processes operating at different scales. However, our understanding of benthic microbial biogeography remains limited. Here, we used 16S rDNA amplicon sequencing to characterize benthic microbiota in the North Sea from the top centimeter of 339 sediment samples. We utilized spatially explicit statistical models, to disentangle the effects of the different predictors, including bottom trawling intensity, a prevalent industrial fishing practice which heavily impacts benthic ecosystems. Fitted models demonstrate how the geographic interplay of different environmental and anthropogenic drivers shapes the diversity, structure and potential metabolism of benthic microbial communities. Sediment properties were the primary determinants, with diversity increasing with sediment permeability but also with mud content, highlighting different underlying processes. Additionally, diversity and structure varied with total organic matter content, temperature, bottom shear stress and bottom trawling. Changes in diversity associated with bottom trawling intensity were accompanied by shifts in predicted energy metabolism. Specifically, with increasing trawling intensity, we observed a transition toward more aerobic heterotrophic and less denitrifying predicted metabolism. Our findings provide first insights into benthic microbial biogeographic patterns on a large spatial scale and illustrate how anthropogenic activity such as bottom trawling may influence the distribution and abundances of microbes and potential metabolism at macroecological scales.\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2024-01-11\",\"journal\":\"ISME Communications\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Bonthond\"],\"firstnames\":[\"Guido\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Beermann\"],\"firstnames\":[\"Jan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Gutow\"],\"firstnames\":[\"Lars\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Neumann\"],\"firstnames\":[\"Andreas\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Barboza\"],\"firstnames\":[\"Francisco\",\"Rafael\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Desiderato\"],\"firstnames\":[\"Andrea\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Fofonova\"],\"firstnames\":[\"Vera\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Helber\"],\"firstnames\":[\"Stephanie\",\"B.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Khodami\"],\"firstnames\":[\"Sahar\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kraan\"],\"firstnames\":[\"Casper\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Neumann\"],\"firstnames\":[\"Hermann\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2023\",\"pages\":\"132\",\"bibtex\":\"@article{bonthond_benthic_2023,\\n\\ttitle = {Benthic microbial biogeographic trends in the {North} {Sea} are shaped by an interplay of environmental drivers and bottom trawling effort},\\n\\tvolume = {3},\\n\\tissn = {2730-6151},\\n\\turl = {https://www.nature.com/articles/s43705-023-00336-3},\\n\\tdoi = {10.1038/s43705-023-00336-3},\\n\\tabstract = {Abstract \\n            Microbial composition and diversity in marine sediments are shaped by environmental, biological, and anthropogenic processes operating at different scales. However, our understanding of benthic microbial biogeography remains limited. Here, we used 16S rDNA amplicon sequencing to characterize benthic microbiota in the North Sea from the top centimeter of 339 sediment samples. We utilized spatially explicit statistical models, to disentangle the effects of the different predictors, including bottom trawling intensity, a prevalent industrial fishing practice which heavily impacts benthic ecosystems. Fitted models demonstrate how the geographic interplay of different environmental and anthropogenic drivers shapes the diversity, structure and potential metabolism of benthic microbial communities. Sediment properties were the primary determinants, with diversity increasing with sediment permeability but also with mud content, highlighting different underlying processes. Additionally, diversity and structure varied with total organic matter content, temperature, bottom shear stress and bottom trawling. Changes in diversity associated with bottom trawling intensity were accompanied by shifts in predicted energy metabolism. Specifically, with increasing trawling intensity, we observed a transition toward more aerobic heterotrophic and less denitrifying predicted metabolism. Our findings provide first insights into benthic microbial biogeographic patterns on a large spatial scale and illustrate how anthropogenic activity such as bottom trawling may influence the distribution and abundances of microbes and potential metabolism at macroecological scales.},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2024-01-11},\\n\\tjournal = {ISME Communications},\\n\\tauthor = {Bonthond, Guido and Beermann, Jan and Gutow, Lars and Neumann, Andreas and Barboza, Francisco Rafael and Desiderato, Andrea and Fofonova, Vera and Helber, Stephanie B. and Khodami, Sahar and Kraan, Casper and Neumann, Hermann and Rohde, Sven and Schupp, Peter J.},\\n\\tmonth = dec,\\n\\tyear = {2023},\\n\\tpages = {132},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Bonthond, G.\",\"Beermann, J.\",\"Gutow, L.\",\"Neumann, A.\",\"Barboza, F. R.\",\"Desiderato, A.\",\"Fofonova, V.\",\"Helber, S. B.\",\"Khodami, S.\",\"Kraan, C.\",\"Neumann, H.\",\"Rohde, S.\",\"Schupp, P. J.\"],\"key\":\"bonthond_benthic_2023\",\"id\":\"bonthond_benthic_2023\",\"bibbaseid\":\"bonthond-beermann-gutow-neumann-barboza-desiderato-fofonova-helber-etal-benthicmicrobialbiogeographictrendsinthenorthseaareshapedbyaninterplayofenvironmentaldriversandbottomtrawlingeffort-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.nature.com/articles/s43705-023-00336-3\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Expanded sampling of New Zealand glass sponges (Porifera: Hexactinellida) provides new insights into biodiversity, chemodiversity, and phylogeny of the class\",\"volume\":\"11\",\"issn\":\"2167-8359\",\"shorttitle\":\"Expanded sampling of New Zealand glass sponges (Porifera\",\"url\":\"https://peerj.com/articles/15017\",\"doi\":\"10.7717/peerj.15017\",\"abstract\":\"Glass sponges (Hexactinellida) constitute important parts of ecosystems on the deep-sea floor worldwide. However, they are still an understudied group in terms of their diversity and systematics. Here, we report on new specimens collected during RV Sonne expedition SO254 to the New Zealand region, which has recently emerged as a biodiversity hotspot for hexactinellids. Examination of the material revealed several species new to science or so far unknown from this area. While formal taxonomic descriptions of a fraction of these were published earlier, we here briefly report on the morphology of the remaining new species and use the collection to greatly expand the molecular phylogeny of the group as established with ribosomal DNA and cytochrome oxidase subunit I markers. In addition, we provide a chemical fingerprinting analysis on a subset of the specimens to investigate if the metabolome of glass sponges contains phylogenetic signal that could be used to supplement morphological and DNA-based approaches.\",\"language\":\"en\",\"urldate\":\"2024-01-11\",\"journal\":\"PeerJ\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Dohrmann\"],\"firstnames\":[\"Martin\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Reiswig\"],\"firstnames\":[\"Henry\",\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kelly\"],\"firstnames\":[\"Michelle\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Mills\"],\"firstnames\":[\"Sadie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schätzle\"],\"firstnames\":[\"Simone\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Reverter\"],\"firstnames\":[\"Miriam\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Niesse\"],\"firstnames\":[\"Natascha\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wörheide\"],\"firstnames\":[\"Gert\"],\"suffixes\":[]}],\"month\":\"April\",\"year\":\"2023\",\"pages\":\"e15017\",\"bibtex\":\"@article{dohrmann_expanded_2023,\\n\\ttitle = {Expanded sampling of {New} {Zealand} glass sponges ({Porifera}: {Hexactinellida}) provides new insights into biodiversity, chemodiversity, and phylogeny of the class},\\n\\tvolume = {11},\\n\\tissn = {2167-8359},\\n\\tshorttitle = {Expanded sampling of {New} {Zealand} glass sponges ({Porifera}},\\n\\turl = {https://peerj.com/articles/15017},\\n\\tdoi = {10.7717/peerj.15017},\\n\\tabstract = {Glass sponges (Hexactinellida) constitute important parts of ecosystems on the deep-sea floor worldwide. However, they are still an understudied group in terms of their diversity and systematics. Here, we report on new specimens collected during RV \\n              Sonne \\n              expedition SO254 to the New Zealand region, which has recently emerged as a biodiversity hotspot for hexactinellids. Examination of the material revealed several species new to science or so far unknown from this area. While formal taxonomic descriptions of a fraction of these were published earlier, we here briefly report on the morphology of the remaining new species and use the collection to greatly expand the molecular phylogeny of the group as established with ribosomal DNA and cytochrome oxidase subunit I markers. In addition, we provide a chemical fingerprinting analysis on a subset of the specimens to investigate if the metabolome of glass sponges contains phylogenetic signal that could be used to supplement morphological and DNA-based approaches.},\\n\\tlanguage = {en},\\n\\turldate = {2024-01-11},\\n\\tjournal = {PeerJ},\\n\\tauthor = {Dohrmann, Martin and Reiswig, Henry M. and Kelly, Michelle and Mills, Sadie and Schätzle, Simone and Reverter, Miriam and Niesse, Natascha and Rohde, Sven and Schupp, Peter and Wörheide, Gert},\\n\\tmonth = apr,\\n\\tyear = {2023},\\n\\tpages = {e15017},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Dohrmann, M.\",\"Reiswig, H. M.\",\"Kelly, M.\",\"Mills, S.\",\"Schätzle, S.\",\"Reverter, M.\",\"Niesse, N.\",\"Rohde, S.\",\"Schupp, P.\",\"Wörheide, G.\"],\"key\":\"dohrmann_expanded_2023\",\"id\":\"dohrmann_expanded_2023\",\"bibbaseid\":\"dohrmann-reiswig-kelly-mills-schtzle-reverter-niesse-rohde-etal-expandedsamplingofnewzealandglassspongesporiferahexactinellidaprovidesnewinsightsintobiodiversitychemodiversityandphylogenyoftheclass-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://peerj.com/articles/15017\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Mass mortality event of the giant barrel sponge <i>Xestospongia</i> sp.: population dynamics and size distribution in Koh Phangan, Gulf of Thailand\",\"volume\":\"11\",\"issn\":\"2167-8359\",\"shorttitle\":\"Mass mortality event of the giant barrel sponge <i>Xestospongia</i> sp.\",\"url\":\"https://peerj.com/articles/16561\",\"doi\":\"10.7717/peerj.16561\",\"abstract\":\"Marine sponges are prominent organisms of the benthic coral reef fauna, providing important ecosystem services. While there have been increasing reports that sponges are becoming one of the dominant benthic organisms in some locations and ecoregions ( e.g . Caribbean), they can be impacted by changing environmental conditions. This study presents the first documentation of a mass mortality event of the barrel sponge Xestospongia sp. in the lower Gulf of Thailand and its consequences on population dynamics and size distribution. Two anthropogenic impacted reefs (Haad Khom and Mae Haad) of the island Koh Phangan and two anthropogenic non-impacted reefs of the islands Koh Yippon and Hin Yippon within the Mu Ko Ang Thong Marine National Park were surveyed in the years 2015 and 2016. The results showed a strong shift in population densities at Koh Phangan. Fatal “bleaching” ending up in mass mortality was observed for these reefs in 2015. Xestospongia sp. abundance decreased from 2015 to 2016 by 80.6% at Haad Khom and by 98.4% at Mae Haad. Sponges of all sizes were affected, and mortality occurred regardless of the survey depth (4 and 6 m). However, Xestospongia population densities in the Marine Park were at a constant level during the surveys. The abundances in 2015 were 65% higher at the Marine Park than at Koh Phangan and 92% higher in 2016. The most likely causes of the mass mortality event was a local harmful algal bloom event, pathogens, undetected local higher water temperatures, or a combination of these factors, whereas sea surface temperature analyses showed no marine heatwave during the observed mass mortality event in 2015. Considering the ecological importance of sponges such as Xestospongia sp., long-term monitoring of reefs and their environmental parameters should be implemented to prevent such mass die-offs.\",\"language\":\"en\",\"urldate\":\"2024-01-11\",\"journal\":\"PeerJ\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Mueller\"],\"firstnames\":[\"Jasmin\",\"S.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Grammel\"],\"firstnames\":[\"Paul-Jannis\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bill\"],\"firstnames\":[\"Nicolas\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2023\",\"pages\":\"e16561\",\"bibtex\":\"@article{mueller_mass_2023,\\n\\ttitle = {Mass mortality event of the giant barrel sponge \\\\textit{{Xestospongia}} sp.: population dynamics and size distribution in {Koh} {Phangan}, {Gulf} of {Thailand}},\\n\\tvolume = {11},\\n\\tissn = {2167-8359},\\n\\tshorttitle = {Mass mortality event of the giant barrel sponge \\\\textit{{Xestospongia}} sp.},\\n\\turl = {https://peerj.com/articles/16561},\\n\\tdoi = {10.7717/peerj.16561},\\n\\tabstract = {Marine sponges are prominent organisms of the benthic coral reef fauna, providing important ecosystem services. While there have been increasing reports that sponges are becoming one of the dominant benthic organisms in some locations and ecoregions ( \\n              e.g \\n              . Caribbean), they can be impacted by changing environmental conditions. This study presents the first documentation of a mass mortality event of the barrel sponge \\n              Xestospongia \\n              sp. in the lower Gulf of Thailand and its consequences on population dynamics and size distribution. Two anthropogenic impacted reefs (Haad Khom and Mae Haad) of the island Koh Phangan and two anthropogenic non-impacted reefs of the islands Koh Yippon and Hin Yippon within the Mu Ko Ang Thong Marine National Park were surveyed in the years 2015 and 2016. The results showed a strong shift in population densities at Koh Phangan. Fatal “bleaching” ending up in mass mortality was observed for these reefs in 2015. \\n              Xestospongia \\n              sp. abundance decreased from 2015 to 2016 by 80.6\\\\% at Haad Khom and by 98.4\\\\% at Mae Haad. Sponges of all sizes were affected, and mortality occurred regardless of the survey depth (4 and 6 m). However, \\n              Xestospongia \\n              population densities in the Marine Park were at a constant level during the surveys. The abundances in 2015 were 65\\\\% higher at the Marine Park than at Koh Phangan and 92\\\\% higher in 2016. The most likely causes of the mass mortality event was a local harmful algal bloom event, pathogens, undetected local higher water temperatures, or a combination of these factors, whereas sea surface temperature analyses showed no marine heatwave during the observed mass mortality event in 2015. Considering the ecological importance of sponges such as \\n              Xestospongia \\n              sp., long-term monitoring of reefs and their environmental parameters should be implemented to prevent such mass die-offs.},\\n\\tlanguage = {en},\\n\\turldate = {2024-01-11},\\n\\tjournal = {PeerJ},\\n\\tauthor = {Mueller, Jasmin S. and Grammel, Paul-Jannis and Bill, Nicolas and Rohde, Sven and Schupp, Peter J.},\\n\\tmonth = dec,\\n\\tyear = {2023},\\n\\tpages = {e16561},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Mueller, J. S.\",\"Grammel, P.\",\"Bill, N.\",\"Rohde, S.\",\"Schupp, P. J.\"],\"key\":\"mueller_mass_2023\",\"id\":\"mueller_mass_2023\",\"bibbaseid\":\"mueller-grammel-bill-rohde-schupp-massmortalityeventofthegiantbarrelspongeixestospongiaisppopulationdynamicsandsizedistributioninkohphangangulfofthailand-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://peerj.com/articles/16561\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Body-Plan Reorganization in a Sponge Correlates with Microbiome Change\",\"volume\":\"40\",\"issn\":\"0737-4038, 1537-1719\",\"url\":\"https://academic.oup.com/mbe/article/doi/10.1093/molbev/msad138/7191912\",\"doi\":\"10.1093/molbev/msad138\",\"abstract\":\"Abstract Mounting evidence suggests that animals and their associated bacteria interact via intricate molecular mechanisms, and it is hypothesized that disturbances to the microbiome influence animal development. Here, we show that the loss of a key photosymbiont (i.e., bleaching) upon shading correlates with a stark body-plan reorganization in the common aquarium cyanosponge Lendenfeldia chondrodes. The morphological changes observed in shaded sponges include the development of a thread-like morphology that contrasts with the flattened, foliose morphology of control specimens. The microanatomy of shaded sponges markedly differed from that of control sponges, with shaded specimens lacking a well-developed cortex and choanosome. Also, the palisade of polyvacuolar gland-like cells typical in control specimens was absent in shaded sponges. The morphological changes observed in shaded specimens are coupled with broad transcriptomic changes and include the modulation of signaling pathways involved in animal morphogenesis and immune response, such as the Wnt, transforming growth factor β (TGF-β), and TLR–ILR pathways. This study provides a genetic, physiological, and morphological assessment of the effect of microbiome changes on sponge postembryonic development and homeostasis. The correlated response of the sponge host to the collapse of the population of symbiotic cyanobacteria provides evidence for a coupling between the sponge transcriptomic state and the state of its microbiome. This coupling suggests that the ability of animals to interact with their microbiomes and respond to microbiome perturbations has deep evolutionary origins in this group.\",\"language\":\"en\",\"number\":\"6\",\"urldate\":\"2024-01-11\",\"journal\":\"Molecular Biology and Evolution\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Vargas\"],\"firstnames\":[\"Sergio\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Leiva\"],\"firstnames\":[\"Laura\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Eitel\"],\"firstnames\":[\"Michael\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Curdt\"],\"firstnames\":[\"Franziska\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Arnold\"],\"firstnames\":[\"Christopher\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nickel\"],\"firstnames\":[\"Michael\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Orsi\"],\"firstnames\":[\"William\",\"D\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Adamska\"],\"firstnames\":[\"Maja\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wörheide\"],\"firstnames\":[\"Gert\"],\"suffixes\":[]}],\"editor\":[{\"propositions\":[],\"lastnames\":[\"Crandall\"],\"firstnames\":[\"Keith\"],\"suffixes\":[]}],\"month\":\"June\",\"year\":\"2023\",\"pages\":\"msad138\",\"bibtex\":\"@article{vargas_body-plan_2023,\\n\\ttitle = {Body-{Plan} {Reorganization} in a {Sponge} {Correlates} with {Microbiome} {Change}},\\n\\tvolume = {40},\\n\\tissn = {0737-4038, 1537-1719},\\n\\turl = {https://academic.oup.com/mbe/article/doi/10.1093/molbev/msad138/7191912},\\n\\tdoi = {10.1093/molbev/msad138},\\n\\tabstract = {Abstract \\n            Mounting evidence suggests that animals and their associated bacteria interact via intricate molecular mechanisms, and it is hypothesized that disturbances to the microbiome influence animal development. Here, we show that the loss of a key photosymbiont (i.e., bleaching) upon shading correlates with a stark body-plan reorganization in the common aquarium cyanosponge Lendenfeldia chondrodes. The morphological changes observed in shaded sponges include the development of a thread-like morphology that contrasts with the flattened, foliose morphology of control specimens. The microanatomy of shaded sponges markedly differed from that of control sponges, with shaded specimens lacking a well-developed cortex and choanosome. Also, the palisade of polyvacuolar gland-like cells typical in control specimens was absent in shaded sponges. The morphological changes observed in shaded specimens are coupled with broad transcriptomic changes and include the modulation of signaling pathways involved in animal morphogenesis and immune response, such as the Wnt, transforming growth factor β (TGF-β), and TLR–ILR pathways. This study provides a genetic, physiological, and morphological assessment of the effect of microbiome changes on sponge postembryonic development and homeostasis. The correlated response of the sponge host to the collapse of the population of symbiotic cyanobacteria provides evidence for a coupling between the sponge transcriptomic state and the state of its microbiome. This coupling suggests that the ability of animals to interact with their microbiomes and respond to microbiome perturbations has deep evolutionary origins in this group.},\\n\\tlanguage = {en},\\n\\tnumber = {6},\\n\\turldate = {2024-01-11},\\n\\tjournal = {Molecular Biology and Evolution},\\n\\tauthor = {Vargas, Sergio and Leiva, Laura and Eitel, Michael and Curdt, Franziska and Rohde, Sven and Arnold, Christopher and Nickel, Michael and Schupp, Peter and Orsi, William D and Adamska, Maja and Wörheide, Gert},\\n\\teditor = {Crandall, Keith},\\n\\tmonth = jun,\\n\\tyear = {2023},\\n\\tpages = {msad138},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Vargas, S.\",\"Leiva, L.\",\"Eitel, M.\",\"Curdt, F.\",\"Rohde, S.\",\"Arnold, C.\",\"Nickel, M.\",\"Schupp, P.\",\"Orsi, W. D\",\"Adamska, M.\",\"Wörheide, G.\"],\"editor_short\":[\"Crandall, K.\"],\"key\":\"vargas_body-plan_2023\",\"id\":\"vargas_body-plan_2023\",\"bibbaseid\":\"vargas-leiva-eitel-curdt-rohde-arnold-nickel-schupp-etal-bodyplanreorganizationinaspongecorrelateswithmicrobiomechange-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://academic.oup.com/mbe/article/doi/10.1093/molbev/msad138/7191912\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Ecotoxicological Effects of Four Commonly Used Organic Solvents on the Scleractinian Coral Montipora digitata\",\"volume\":\"11\",\"copyright\":\"http://creativecommons.org/licenses/by/3.0/\",\"issn\":\"2305-6304\",\"url\":\"https://www.mdpi.com/2305-6304/11/4/367\",\"doi\":\"10.3390/toxics11040367\",\"abstract\":\"Organic solvents are often used in aquatic toxicity tests to facilitate the testing of hydrophobic or poorly water-soluble substances such as ultraviolet (UV) filters, pesticides, or polycyclic aromatic hydrocarbons (PAHs). Knowledge of intrinsic effects (i.e., measured as standardized and non-standardized endpoints) of such carrier solvents in non-standardized organisms (i.e., corals), is critical to regulatory processes. Therefore, we exposed the reef-building coral Montipora digitata to the most commonly used carrier solvents ethanol, methanol, dimethyl sulfoxide, and dimethylformamide in the range of 10–100 µL L−1 for 16 days. The effects on mortality, photobiological, morphological, and oxidative stress markers were evaluated. In our study, all solvents resulted in significant morphological and/or oxidative stress responses, but not in mortality. Moreover, ethanol led to a rapid increase in turbidity, thus questioning its suitability as a carrier solvent in aquatic studies in general. Based on our observations, we could rank the solvent effects as follows: dimethylformamide \\\\textless dimethyl sulfoxide ≈ methanol ≤ ethanol, with dimethylformamide showing the least and ethanol the most pronounced effects. We conclude that the use of solvents in toxicity studies with corals, particularly by examining non-standardized (e.g., morphological, physiological) endpoints, should be taken with caution and requires further elaboration.\",\"language\":\"en\",\"number\":\"4\",\"urldate\":\"2023-04-13\",\"journal\":\"Toxics\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Di\",\"Mauro\"],\"firstnames\":[\"Valentina\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kamyab\"],\"firstnames\":[\"Elham\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Moeller\"],\"firstnames\":[\"Mareen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Luetjens\"],\"firstnames\":[\"Laura\",\"H.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Pawlowski\"],\"firstnames\":[\"Sascha\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Petersen-Thiery\"],\"firstnames\":[\"Mechtild\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"April\",\"year\":\"2023\",\"keywords\":\"<i>Montipora digitata</i>, UV-filter, biomarker, dimethyl sulfoxide, dimethylformamide, ecotoxicology, ethanol, methanol, sunscreen, toxicity\",\"pages\":\"367\",\"bibtex\":\"@article{di_mauro_ecotoxicological_2023,\\n\\ttitle = {Ecotoxicological {Effects} of {Four} {Commonly} {Used} {Organic} {Solvents} on the {Scleractinian} {Coral} {Montipora} digitata},\\n\\tvolume = {11},\\n\\tcopyright = {http://creativecommons.org/licenses/by/3.0/},\\n\\tissn = {2305-6304},\\n\\turl = {https://www.mdpi.com/2305-6304/11/4/367},\\n\\tdoi = {10.3390/toxics11040367},\\n\\tabstract = {Organic solvents are often used in aquatic toxicity tests to facilitate the testing of hydrophobic or poorly water-soluble substances such as ultraviolet (UV) filters, pesticides, or polycyclic aromatic hydrocarbons (PAHs). Knowledge of intrinsic effects (i.e., measured as standardized and non-standardized endpoints) of such carrier solvents in non-standardized organisms (i.e., corals), is critical to regulatory processes. Therefore, we exposed the reef-building coral Montipora digitata to the most commonly used carrier solvents ethanol, methanol, dimethyl sulfoxide, and dimethylformamide in the range of 10–100 µL L−1 for 16 days. The effects on mortality, photobiological, morphological, and oxidative stress markers were evaluated. In our study, all solvents resulted in significant morphological and/or oxidative stress responses, but not in mortality. Moreover, ethanol led to a rapid increase in turbidity, thus questioning its suitability as a carrier solvent in aquatic studies in general. Based on our observations, we could rank the solvent effects as follows: dimethylformamide {\\\\textless} dimethyl sulfoxide ≈ methanol ≤ ethanol, with dimethylformamide showing the least and ethanol the most pronounced effects. We conclude that the use of solvents in toxicity studies with corals, particularly by examining non-standardized (e.g., morphological, physiological) endpoints, should be taken with caution and requires further elaboration.},\\n\\tlanguage = {en},\\n\\tnumber = {4},\\n\\turldate = {2023-04-13},\\n\\tjournal = {Toxics},\\n\\tauthor = {Di Mauro, Valentina and Kamyab, Elham and Kellermann, Matthias Y. and Moeller, Mareen and Nietzer, Samuel and Luetjens, Laura H. and Pawlowski, Sascha and Petersen-Thiery, Mechtild and Schupp, Peter J.},\\n\\tmonth = apr,\\n\\tyear = {2023},\\n\\tkeywords = {\\\\textit{Montipora digitata}, UV-filter, biomarker, dimethyl sulfoxide, dimethylformamide, ecotoxicology, ethanol, methanol, sunscreen, toxicity},\\n\\tpages = {367},\\n}\\n\\n\\n\\n\\n\\n\\n\\n\",\"author_short\":[\"Di Mauro, V.\",\"Kamyab, E.\",\"Kellermann, M. Y.\",\"Moeller, M.\",\"Nietzer, S.\",\"Luetjens, L. H.\",\"Pawlowski, S.\",\"Petersen-Thiery, M.\",\"Schupp, P. J.\"],\"key\":\"di_mauro_ecotoxicological_2023\",\"id\":\"di_mauro_ecotoxicological_2023\",\"bibbaseid\":\"dimauro-kamyab-kellermann-moeller-nietzer-luetjens-pawlowski-petersenthiery-etal-ecotoxicologicaleffectsoffourcommonlyusedorganicsolventsonthescleractiniancoralmontiporadigitata-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/2305-6304/11/4/367\"},\"keyword\":[\"<i>Montipora digitata</i>\",\"UV-filter\",\"biomarker\",\"dimethyl sulfoxide\",\"dimethylformamide\",\"ecotoxicology\",\"ethanol\",\"methanol\",\"sunscreen\",\"toxicity\"],\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Detailed visualization of settlement and early development in Leptastrea purpurea reveals distinct bio-optical features\",\"volume\":\"10\",\"issn\":\"2296-7745\",\"url\":\"https://www.frontiersin.org/articles/10.3389/fmars.2023.984656/full\",\"doi\":\"10.3389/fmars.2023.984656\",\"abstract\":\"Sexually produced juvenile scleractinian corals play a key role in the adaptation process of coral reefs, as they are considered to possess an innate plasticity and thus can adjust to changing environmental parameters within a certain range. In this study we investigated in detail the early life stages of the brooding species Leptastrea purpurea to identify, categorize and visualize the critical steps of the complex transformation process from a swimming coral larva to a sessile coral recruit and later to a coral colony. For that, we performed settlement experiments using previously known cues: cycloprodigiosin (CYPRO) and crustose coralline algae (CCA) as well as novel cues: crude extracts of Pseudoalteromonas espejiana and P. piscicida to identify a general, cue-independent settlement pathway. We monitored the development of L. purpurea over 12 months using bright field and fluorescence microscopy. Also we identified the fluorescence signals of L. purpurea with confocal microscopy at four crucial development steps: (A) swimming larva, (B) metamorphosing larva, (C) coral recruit and (D) adult coral. Our methodological approach allowed us to observe an ontogenetic shift of fluorescence signals which provokes the hypothesis that certain fluorescence patterns might be connected to distinct sequential functions in the early life cycle of scleractinian corals. Our observations showed great similarities to the early development of other brooding and spawning corals, making L. purpurea a prospective candidate to be used as a model organism for coral research. Furthermore, our in-depth picture series provides a robust monitoring reference for coral nurseries or field applications and demonstrates the potential of fluorescence as an indicator to instantly determine the growth stage of a developing coral recruit.\",\"urldate\":\"2023-03-28\",\"journal\":\"Frontiers in Marine Science\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Fiegel\"],\"firstnames\":[\"Laura\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Petersen\"],\"firstnames\":[\"Lars-Erik\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Smykala\"],\"firstnames\":[\"Mike\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bickmeyer\"],\"firstnames\":[\"Ulf\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"March\",\"year\":\"2023\",\"pages\":\"984656\",\"bibtex\":\"@article{fiegel_detailed_2023,\\n\\ttitle = {Detailed visualization of settlement and early development in {Leptastrea} purpurea reveals distinct bio-optical features},\\n\\tvolume = {10},\\n\\tissn = {2296-7745},\\n\\turl = {https://www.frontiersin.org/articles/10.3389/fmars.2023.984656/full},\\n\\tdoi = {10.3389/fmars.2023.984656},\\n\\tabstract = {Sexually produced juvenile scleractinian corals play a key role in the adaptation process of coral reefs, as they are considered to possess an innate plasticity and thus can adjust to changing environmental parameters within a certain range. In this study we investigated in detail the early life stages of the brooding species \\n              Leptastrea purpurea \\n              to identify, categorize and visualize the critical steps of the complex transformation process from a swimming coral larva to a sessile coral recruit and later to a coral colony. For that, we performed settlement experiments using previously known cues: cycloprodigiosin (CYPRO) and crustose coralline algae (CCA) as well as novel cues: crude extracts of \\n              Pseudoalteromonas espejiana \\n              and \\n              P. piscicida \\n              to identify a general, cue-independent settlement pathway. We monitored the development of \\n              L. purpurea \\n              over 12 months using bright field and fluorescence microscopy. Also we identified the fluorescence signals of \\n              L. purpurea \\n              with confocal microscopy at four crucial development steps: (A) swimming larva, (B) metamorphosing larva, (C) coral recruit and (D) adult coral. Our methodological approach allowed us to observe an ontogenetic shift of fluorescence signals which provokes the hypothesis that certain fluorescence patterns might be connected to distinct sequential functions in the early life cycle of scleractinian corals. Our observations showed great similarities to the early development of other brooding and spawning corals, making \\n              L. purpurea \\n              a prospective candidate to be used as a model organism for coral research. Furthermore, our in-depth picture series provides a robust monitoring reference for coral nurseries or field applications and demonstrates the potential of fluorescence as an indicator to instantly determine the growth stage of a developing coral recruit.},\\n\\turldate = {2023-03-28},\\n\\tjournal = {Frontiers in Marine Science},\\n\\tauthor = {Fiegel, Laura J. and Kellermann, Matthias Y. and Nietzer, Samuel and Petersen, Lars-Erik and Smykala, Mike and Bickmeyer, Ulf and Schupp, Peter J.},\\n\\tmonth = mar,\\n\\tyear = {2023},\\n\\tpages = {984656},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Fiegel, L. J.\",\"Kellermann, M. Y.\",\"Nietzer, S.\",\"Petersen, L.\",\"Smykala, M.\",\"Bickmeyer, U.\",\"Schupp, P. J.\"],\"key\":\"fiegel_detailed_2023\",\"id\":\"fiegel_detailed_2023\",\"bibbaseid\":\"fiegel-kellermann-nietzer-petersen-smykala-bickmeyer-schupp-detailedvisualizationofsettlementandearlydevelopmentinleptastreapurpurearevealsdistinctbioopticalfeatures-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.frontiersin.org/articles/10.3389/fmars.2023.984656/full\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Photodegradation of a bacterial pigment and resulting hydrogen peroxide release enable coral settlement\",\"volume\":\"13\",\"issn\":\"2045-2322\",\"url\":\"https://www.nature.com/articles/s41598-023-30470-w\",\"doi\":\"10.1038/s41598-023-30470-w\",\"abstract\":\"Abstract The global degradation of coral reefs is steadily increasing with ongoing climate change. Yet coral larvae settlement, a key mechanism of coral population rejuvenation and recovery, is largely understudied. Here, we show how the lipophilic, settlement-inducing bacterial pigment cycloprodigiosin (CYPRO) is actively harvested and subsequently enriched along the ectoderm of larvae of the scleractinian coral Leptastrea purpura . A light-dependent reaction transforms the CYPRO molecules through photolytic decomposition and provides a constant supply of hydrogen peroxide (H 2 O 2 ), leading to attachment on the substrate and metamorphosis into a coral recruit. Micromolar concentrations of H 2 O 2 in seawater also resulted in rapid metamorphosis, but without prior larval attachment. We propose that the morphogen CYPRO is responsible for initiating attachment while simultaneously acting as a molecular generator for the comprehensive metamorphosis of pelagic larvae. Ultimately, our approach opens a novel mechanistic dimension to the study of chemical signaling in coral settlement and provides unprecedented insights into the role of infochemicals in cross-kingdom interactions.\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2023-03-28\",\"journal\":\"Scientific Reports\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Petersen\"],\"firstnames\":[\"Lars-Erik\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Fiegel\"],\"firstnames\":[\"Laura\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bickmeyer\"],\"firstnames\":[\"Ulf\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Abele\"],\"firstnames\":[\"Doris\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"March\",\"year\":\"2023\",\"pages\":\"3562\",\"bibtex\":\"@article{petersen_photodegradation_2023,\\n\\ttitle = {Photodegradation of a bacterial pigment and resulting hydrogen peroxide release enable coral settlement},\\n\\tvolume = {13},\\n\\tissn = {2045-2322},\\n\\turl = {https://www.nature.com/articles/s41598-023-30470-w},\\n\\tdoi = {10.1038/s41598-023-30470-w},\\n\\tabstract = {Abstract \\n             \\n              The global degradation of coral reefs is steadily increasing with ongoing climate change. Yet coral larvae settlement, a key mechanism of coral population rejuvenation and recovery, is largely understudied. Here, we show how the lipophilic, settlement-inducing bacterial pigment cycloprodigiosin (CYPRO) is actively harvested and subsequently enriched along the ectoderm of larvae of the scleractinian coral \\n              Leptastrea purpura \\n              . A light-dependent reaction transforms the CYPRO molecules through photolytic decomposition and provides a constant supply of hydrogen peroxide (H \\n              2 \\n              O \\n              2 \\n              ), leading to attachment on the substrate and metamorphosis into a coral recruit. Micromolar concentrations of H \\n              2 \\n              O \\n              2 \\n              in seawater also resulted in rapid metamorphosis, but without prior larval attachment. We propose that the morphogen CYPRO is responsible for initiating attachment while simultaneously acting as a molecular generator for the comprehensive metamorphosis of pelagic larvae. Ultimately, our approach opens a novel mechanistic dimension to the study of chemical signaling in coral settlement and provides unprecedented insights into the role of infochemicals in cross-kingdom interactions.},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2023-03-28},\\n\\tjournal = {Scientific Reports},\\n\\tauthor = {Petersen, Lars-Erik and Kellermann, Matthias Y. and Fiegel, Laura J. and Nietzer, Samuel and Bickmeyer, Ulf and Abele, Doris and Schupp, Peter J.},\\n\\tmonth = mar,\\n\\tyear = {2023},\\n\\tpages = {3562},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Petersen, L.\",\"Kellermann, M. Y.\",\"Fiegel, L. J.\",\"Nietzer, S.\",\"Bickmeyer, U.\",\"Abele, D.\",\"Schupp, P. J.\"],\"key\":\"petersen_photodegradation_2023\",\"id\":\"petersen_photodegradation_2023\",\"bibbaseid\":\"petersen-kellermann-fiegel-nietzer-bickmeyer-abele-schupp-photodegradationofabacterialpigmentandresultinghydrogenperoxidereleaseenablecoralsettlement-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.nature.com/articles/s41598-023-30470-w\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Non‐native hosts of an invasive seaweed holobiont have more stable microbial communities compared to native hosts in response to thermal stress\",\"volume\":\"13\",\"issn\":\"2045-7758, 2045-7758\",\"url\":\"https://onlinelibrary.wiley.com/doi/10.1002/ece3.9753\",\"doi\":\"10.1002/ece3.9753\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2023-01-27\",\"journal\":\"Ecology and Evolution\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Bonthond\"],\"firstnames\":[\"Guido\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Neu\"],\"firstnames\":[\"Anna‐Katrin\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bayer\"],\"firstnames\":[\"Till\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Krueger‐Hadfield\"],\"firstnames\":[\"Stacy\",\"A.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Künzel\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Weinberger\"],\"firstnames\":[\"Florian\"],\"suffixes\":[]}],\"month\":\"January\",\"year\":\"2023\",\"bibtex\":\"@article{bonthond_nonnative_2023,\\n\\ttitle = {Non‐native hosts of an invasive seaweed holobiont have more stable microbial communities compared to native hosts in response to thermal stress},\\n\\tvolume = {13},\\n\\tissn = {2045-7758, 2045-7758},\\n\\turl = {https://onlinelibrary.wiley.com/doi/10.1002/ece3.9753},\\n\\tdoi = {10.1002/ece3.9753},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2023-01-27},\\n\\tjournal = {Ecology and Evolution},\\n\\tauthor = {Bonthond, Guido and Neu, Anna‐Katrin and Bayer, Till and Krueger‐Hadfield, Stacy A. and Künzel, Sven and Weinberger, Florian},\\n\\tmonth = jan,\\n\\tyear = {2023},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Bonthond, G.\",\"Neu, A.\",\"Bayer, T.\",\"Krueger‐Hadfield, S. A.\",\"Künzel, S.\",\"Weinberger, F.\"],\"key\":\"bonthond_nonnative_2023\",\"id\":\"bonthond_nonnative_2023\",\"bibbaseid\":\"bonthond-neu-bayer-kruegerhadfield-knzel-weinberger-nonnativehostsofaninvasiveseaweedholobionthavemorestablemicrobialcommunitiescomparedtonativehostsinresponsetothermalstress-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://onlinelibrary.wiley.com/doi/10.1002/ece3.9753\"},\"metadata\":{\"authorlinks\":{}},\"downloads\":2,\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Diet and growth of juvenile queen conch Lobatus gigas (Gastropoda: Strombidae) in native, mixed and invasive seagrass habitats\",\"volume\":\"621\",\"issn\":\"0171-8630, 1616-1599\",\"shorttitle\":\"Diet and growth of juvenile queen conch Lobatus gigas (Gastropoda\",\"url\":\"https://www.int-res.com/abstracts/meps/v621/p143-154/\",\"doi\":\"10.3354/meps12990\",\"language\":\"en\",\"urldate\":\"2022-11-10\",\"journal\":\"Marine Ecology Progress Series\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Boman\"],\"firstnames\":[\"Em\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bervoets\"],\"firstnames\":[\"T\"],\"suffixes\":[]},{\"propositions\":[\"de\"],\"lastnames\":[\"Graaf\"],\"firstnames\":[\"M\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Dewenter\"],\"firstnames\":[\"J\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Maitz\"],\"firstnames\":[\"A\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Meijer\",\"Zu\",\"Schlochtern\"],\"firstnames\":[\"Mp\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Stapel\"],\"firstnames\":[\"J\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Smaal\"],\"firstnames\":[\"Ac\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nagelkerke\"],\"firstnames\":[\"Laj\"],\"suffixes\":[]}],\"month\":\"July\",\"year\":\"2019\",\"pages\":\"143–154\",\"bibtex\":\"@article{boman_diet_2019,\\n\\ttitle = {Diet and growth of juvenile queen conch {Lobatus} gigas ({Gastropoda}: {Strombidae}) in native, mixed and invasive seagrass habitats},\\n\\tvolume = {621},\\n\\tissn = {0171-8630, 1616-1599},\\n\\tshorttitle = {Diet and growth of juvenile queen conch {Lobatus} gigas ({Gastropoda}},\\n\\turl = {https://www.int-res.com/abstracts/meps/v621/p143-154/},\\n\\tdoi = {10.3354/meps12990},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-10},\\n\\tjournal = {Marine Ecology Progress Series},\\n\\tauthor = {Boman, Em and Bervoets, T and de Graaf, M and Dewenter, J and Maitz, A and Meijer Zu Schlochtern, Mp and Stapel, J and Smaal, Ac and Nagelkerke, Laj},\\n\\tmonth = jul,\\n\\tyear = {2019},\\n\\tpages = {143--154},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Boman, E.\",\"Bervoets, T\",\"de Graaf, M\",\"Dewenter, J\",\"Maitz, A\",\"Meijer Zu Schlochtern, M.\",\"Stapel, J\",\"Smaal, A.\",\"Nagelkerke, L.\"],\"key\":\"boman_diet_2019\",\"id\":\"boman_diet_2019\",\"bibbaseid\":\"boman-bervoets-degraaf-dewenter-maitz-meijerzuschlochtern-stapel-smaal-etal-dietandgrowthofjuvenilequeenconchlobatusgigasgastropodastrombidaeinnativemixedandinvasiveseagrasshabitats-2019\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.int-res.com/abstracts/meps/v621/p143-154/\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Spatial and temporal patterns of microphytobenthos communities along the marine-terrestrial boundary in the German Wadden Sea\",\"volume\":\"10\",\"issn\":\"2296-701X\",\"url\":\"https://www.frontiersin.org/articles/10.3389/fevo.2022.956092/full\",\"doi\":\"10.3389/fevo.2022.956092\",\"abstract\":\"Microphytobenthos (MPBs) are the main primary producers in shallow marine ecosystems, such as the Wadden Sea. We investigated the spatial and temporal dynamics of MPB communities across the marine-terrestrial boundary over three seasons (spring, summer, and fall) on three East Frisian Islands (Norderney, Spiekeroog, and Wangerooge) in the German Wadden Sea. Natural transects were compared with 12 experimental islands (salt marsh vegetated vs. initially bare islands) established on the tidal flats of Spiekeroog for studying dispersal-mediated community assembly. Sediment cores were taken along triplicate transects and on three elevation levels of the experimental islands, corresponding to the pioneer (pio) zone, the lower salt (LS) marsh, and the upper salt (US) marsh. On both the natural transects and the experimental islands, the highest MPB biomass was observed in the pio zone, where vegetation-driven sediment stabilization and high-mud content could have promoted MPB biomass in this marine-terrestrial transition zone. On the experimental islands, MPB biomass and diversity significantly decreased with elevation regardless of the season, indicating that the rarely submerged upper salt marsh level supported minimal MPB growth. The MPB biomass was also higher on initially vegetated than on bare islands, which was the most pronounced on the US level. On the tidal flat transects, the MPB biomass significantly increased with elevation up to the pio zone before decreasing again in the LS marsh. Temperature, sediment water content, and grain size significantly affected transect MPB biomass. MPB diversity, on the other hand, was not related to elevation but was rather determined by temperature, mean grain size, and mud content. Our study suggests that extending MPB studies into the “terrestrial” domain of salt marshes enhances our understanding of the microalgae–plant interaction in this important boundary zone.\",\"urldate\":\"2022-11-10\",\"journal\":\"Frontiers in Ecology and Evolution\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Yong\"],\"firstnames\":[\"Joanne\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Moick\"],\"firstnames\":[\"Melissa\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Dewenter\"],\"firstnames\":[\"Jana\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hillebrand\"],\"firstnames\":[\"Helmut\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kröncke\"],\"firstnames\":[\"Ingrid\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Lõhmus\"],\"firstnames\":[\"Kertu\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Pieck\"],\"firstnames\":[\"Daniela\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Moorthi\"],\"firstnames\":[\"Stefanie\"],\"suffixes\":[]}],\"month\":\"September\",\"year\":\"2022\",\"pages\":\"956092\",\"bibtex\":\"@article{yong_spatial_2022,\\n\\ttitle = {Spatial and temporal patterns of microphytobenthos communities along the marine-terrestrial boundary in the {German} {Wadden} {Sea}},\\n\\tvolume = {10},\\n\\tissn = {2296-701X},\\n\\turl = {https://www.frontiersin.org/articles/10.3389/fevo.2022.956092/full},\\n\\tdoi = {10.3389/fevo.2022.956092},\\n\\tabstract = {Microphytobenthos (MPBs) are the main primary producers in shallow marine ecosystems, such as the Wadden Sea. We investigated the spatial and temporal dynamics of MPB communities across the marine-terrestrial boundary over three seasons (spring, summer, and fall) on three East Frisian Islands (Norderney, Spiekeroog, and Wangerooge) in the German Wadden Sea. Natural transects were compared with 12 experimental islands (salt marsh vegetated vs. initially bare islands) established on the tidal flats of Spiekeroog for studying dispersal-mediated community assembly. Sediment cores were taken along triplicate transects and on three elevation levels of the experimental islands, corresponding to the pioneer (pio) zone, the lower salt (LS) marsh, and the upper salt (US) marsh. On both the natural transects and the experimental islands, the highest MPB biomass was observed in the pio zone, where vegetation-driven sediment stabilization and high-mud content could have promoted MPB biomass in this marine-terrestrial transition zone. On the experimental islands, MPB biomass and diversity significantly decreased with elevation regardless of the season, indicating that the rarely submerged upper salt marsh level supported minimal MPB growth. The MPB biomass was also higher on initially vegetated than on bare islands, which was the most pronounced on the US level. On the tidal flat transects, the MPB biomass significantly increased with elevation up to the pio zone before decreasing again in the LS marsh. Temperature, sediment water content, and grain size significantly affected transect MPB biomass. MPB diversity, on the other hand, was not related to elevation but was rather determined by temperature, mean grain size, and mud content. Our study suggests that extending MPB studies into the “terrestrial” domain of salt marshes enhances our understanding of the microalgae–plant interaction in this important boundary zone.},\\n\\turldate = {2022-11-10},\\n\\tjournal = {Frontiers in Ecology and Evolution},\\n\\tauthor = {Yong, Joanne and Moick, Melissa and Dewenter, Jana and Hillebrand, Helmut and Kröncke, Ingrid and Lõhmus, Kertu and Pieck, Daniela and Rohde, Sven and Moorthi, Stefanie},\\n\\tmonth = sep,\\n\\tyear = {2022},\\n\\tpages = {956092},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Yong, J.\",\"Moick, M.\",\"Dewenter, J.\",\"Hillebrand, H.\",\"Kröncke, I.\",\"Lõhmus, K.\",\"Pieck, D.\",\"Rohde, S.\",\"Moorthi, S.\"],\"key\":\"yong_spatial_2022\",\"id\":\"yong_spatial_2022\",\"bibbaseid\":\"yong-moick-dewenter-hillebrand-krncke-lhmus-pieck-rohde-etal-spatialandtemporalpatternsofmicrophytobenthoscommunitiesalongthemarineterrestrialboundaryinthegermanwaddensea-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.frontiersin.org/articles/10.3389/fevo.2022.956092/full\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Differential effects of staurosporine and its analogues on chemokine release by promyelocytic leukemia cell line NB-4\",\"volume\":\"27\",\"issn\":\"01452126\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S014521260300047X\",\"doi\":\"10.1016/S0145-2126(03)00047-X\",\"language\":\"en\",\"number\":\"10\",\"urldate\":\"2022-11-09\",\"journal\":\"Leukemia Research\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Steube\"],\"firstnames\":[\"Klaus\",\"G.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Meyer\"],\"firstnames\":[\"Corinna\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Proksch\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Drexler\"],\"firstnames\":[\"Hans\",\"G.\"],\"suffixes\":[]}],\"month\":\"October\",\"year\":\"2003\",\"pages\":\"957–963\",\"bibtex\":\"@article{steube_differential_2003,\\n\\ttitle = {Differential effects of staurosporine and its analogues on chemokine release by promyelocytic leukemia cell line {NB}-4},\\n\\tvolume = {27},\\n\\tissn = {01452126},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S014521260300047X},\\n\\tdoi = {10.1016/S0145-2126(03)00047-X},\\n\\tlanguage = {en},\\n\\tnumber = {10},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Leukemia Research},\\n\\tauthor = {Steube, Klaus G. and Meyer, Corinna and Schupp, Peter and Proksch, Peter and Drexler, Hans G.},\\n\\tmonth = oct,\\n\\tyear = {2003},\\n\\tpages = {957--963},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Steube, K. G.\",\"Meyer, C.\",\"Schupp, P.\",\"Proksch, P.\",\"Drexler, H. G.\"],\"key\":\"steube_differential_2003\",\"id\":\"steube_differential_2003\",\"bibbaseid\":\"steube-meyer-schupp-proksch-drexler-differentialeffectsofstaurosporineanditsanaloguesonchemokinereleasebypromyelocyticleukemiacelllinenb4-2003\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S014521260300047X\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"A new species of pseudocerotid flatworm (Platyhelminthes, Polycladida) from the Indo-Pacific\",\"volume\":\"34\",\"issn\":\"0026-279X\",\"number\":\"2\",\"journal\":\"Micronesica\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Newman\"],\"firstnames\":[\"LESLIE\",\"J\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]}],\"year\":\"2002\",\"pages\":\"177–184\",\"bibtex\":\"@article{newman_new_2002,\\n\\ttitle = {A new species of pseudocerotid flatworm ({Platyhelminthes}, {Polycladida}) from the {Indo}-{Pacific}},\\n\\tvolume = {34},\\n\\tissn = {0026-279X},\\n\\tnumber = {2},\\n\\tjournal = {Micronesica},\\n\\tauthor = {Newman, LESLIE J and Schupp, Peter},\\n\\tyear = {2002},\\n\\tpages = {177--184},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Newman, L. J\",\"Schupp, P.\"],\"key\":\"newman_new_2002\",\"id\":\"newman_new_2002\",\"bibbaseid\":\"newman-schupp-anewspeciesofpseudocerotidflatwormplatyhelminthespolycladidafromtheindopacific-2002\",\"role\":\"author\",\"urls\":{},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Detection of pharmacologically active natural products using ecology. Selected examples from Indopacific marine invertebrates and sponge-derived fungi\",\"volume\":\"75\",\"issn\":\"1365-3075, 0033-4545\",\"url\":\"https://www.degruyter.com/document/doi/10.1351/pac200375020343/html\",\"doi\":\"10.1351/pac200375020343\",\"abstract\":\"Abstract This review article presents our group's recent research findings with regard to bioactive natural products from marine sponges and tunicates, as well as from sponge derived fungi. The organisms discussed originate in the Indopacific region, which has an exceptionally rich marine biodiversity. Major topics that are covered in our review include the chemical ecology of sponges, focusing on defense against fishes, as well as the isolation and identification of new bioactive constituents from sponges and tunicates. Sponge derived fungi are introduced as an emerging source for new bioactive metabolites, reflecting the currently growing interest in natural products from marine microorganisms.\",\"language\":\"en\",\"number\":\"2-3\",\"urldate\":\"2022-11-09\",\"journal\":\"Pure and Applied Chemistry\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Proksch\"],\"firstnames\":[\"P.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ebel\"],\"firstnames\":[\"R.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Edrada\"],\"firstnames\":[\"R.\",\"A.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"P.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Lin\"],\"firstnames\":[\"W.\",\"H.\"],\"suffixes\":[]},{\"firstnames\":[],\"propositions\":[],\"lastnames\":[\"Sudarsono\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wray\"],\"firstnames\":[\"V.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Steube\"],\"firstnames\":[\"K.\"],\"suffixes\":[]}],\"month\":\"January\",\"year\":\"2003\",\"pages\":\"343–352\",\"bibtex\":\"@article{proksch_detection_2003,\\n\\ttitle = {Detection of pharmacologically active natural products using ecology. {Selected} examples from {Indopacific} marine invertebrates and sponge-derived fungi},\\n\\tvolume = {75},\\n\\tissn = {1365-3075, 0033-4545},\\n\\turl = {https://www.degruyter.com/document/doi/10.1351/pac200375020343/html},\\n\\tdoi = {10.1351/pac200375020343},\\n\\tabstract = {Abstract\\n            This review article presents our group's recent research findings with regard to bioactive natural products from marine sponges and tunicates, as well as from sponge derived fungi. The organisms discussed originate in the Indopacific region, which has an exceptionally rich marine biodiversity. Major topics that are covered in our review include the chemical ecology of sponges, focusing on defense against fishes, as well as the isolation and identification of new bioactive constituents from sponges and tunicates. Sponge derived fungi are introduced as an emerging source for new bioactive metabolites, reflecting the currently growing interest in natural products from marine microorganisms.},\\n\\tlanguage = {en},\\n\\tnumber = {2-3},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Pure and Applied Chemistry},\\n\\tauthor = {Proksch, P. and Ebel, R. and Edrada, R. A. and Schupp, P. and Lin, W. H. and {Sudarsono} and Wray, V. and Steube, K.},\\n\\tmonth = jan,\\n\\tyear = {2003},\\n\\tpages = {343--352},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Proksch, P.\",\"Ebel, R.\",\"Edrada, R. A.\",\"Schupp, P.\",\"Lin, W. H.\",\"Sudarsono\",\"Wray, V.\",\"Steube, K.\"],\"key\":\"proksch_detection_2003\",\"id\":\"proksch_detection_2003\",\"bibbaseid\":\"proksch-ebel-edrada-schupp-lin-sudarsono-wray-steube-detectionofpharmacologicallyactivenaturalproductsusingecologyselectedexamplesfromindopacificmarineinvertebratesandspongederivedfungi-2003\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.degruyter.com/document/doi/10.1351/pac200375020343/html\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Eudistomins W and X, Two New β-Carbolines from the Micronesian Tunicate <i>Eudistoma</i> sp.\",\"volume\":\"66\",\"issn\":\"0163-3864, 1520-6025\",\"url\":\"https://pubs.acs.org/doi/10.1021/np020315n\",\"doi\":\"10.1021/np020315n\",\"language\":\"en\",\"number\":\"2\",\"urldate\":\"2022-11-09\",\"journal\":\"Journal of Natural Products\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Poehner\"],\"firstnames\":[\"Timo\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Edrada\"],\"firstnames\":[\"RuAngelie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ebel\"],\"firstnames\":[\"Rainer\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Berg\"],\"firstnames\":[\"Albrecht\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wray\"],\"firstnames\":[\"Victor\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Proksch\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]}],\"month\":\"February\",\"year\":\"2003\",\"pages\":\"272–275\",\"bibtex\":\"@article{schupp_eudistomins_2003,\\n\\ttitle = {Eudistomins {W} and {X}, {Two} {New} β-{Carbolines} from the {Micronesian} {Tunicate} \\\\textit{{Eudistoma}} sp.},\\n\\tvolume = {66},\\n\\tissn = {0163-3864, 1520-6025},\\n\\turl = {https://pubs.acs.org/doi/10.1021/np020315n},\\n\\tdoi = {10.1021/np020315n},\\n\\tlanguage = {en},\\n\\tnumber = {2},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Journal of Natural Products},\\n\\tauthor = {Schupp, Peter and Poehner, Timo and Edrada, RuAngelie and Ebel, Rainer and Berg, Albrecht and Wray, Victor and Proksch, Peter},\\n\\tmonth = feb,\\n\\tyear = {2003},\\n\\tpages = {272--275},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Schupp, P.\",\"Poehner, T.\",\"Edrada, R.\",\"Ebel, R.\",\"Berg, A.\",\"Wray, V.\",\"Proksch, P.\"],\"key\":\"schupp_eudistomins_2003\",\"id\":\"schupp_eudistomins_2003\",\"bibbaseid\":\"schupp-poehner-edrada-ebel-berg-wray-proksch-eudistominswandxtwonewcarbolinesfromthemicronesiantunicateieudistomaisp-2003\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://pubs.acs.org/doi/10.1021/np020315n\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Host specificity in marine sponge-associated bacteria, and potential implications for marine microbial diversity: Host specificity and diversity in marine bacteria\",\"volume\":\"6\",\"issn\":\"14622912\",\"shorttitle\":\"Host specificity in marine sponge-associated bacteria, and potential implications for marine microbial diversity\",\"url\":\"http://doi.wiley.com/10.1046/j.1462-2920.2003.00545.x\",\"doi\":\"10.1046/j.1462-2920.2003.00545.x\",\"language\":\"en\",\"number\":\"2\",\"urldate\":\"2022-11-09\",\"journal\":\"Environmental Microbiology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Taylor\"],\"firstnames\":[\"Michael\",\"W.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Dahllöf\"],\"firstnames\":[\"Ingela\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kjelleberg\"],\"firstnames\":[\"Staffan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Steinberg\"],\"firstnames\":[\"Peter\",\"D.\"],\"suffixes\":[]}],\"month\":\"February\",\"year\":\"2004\",\"pages\":\"121–130\",\"bibtex\":\"@article{taylor_host_2004,\\n\\ttitle = {Host specificity in marine sponge-associated bacteria, and potential implications for marine microbial diversity: {Host} specificity and diversity in marine bacteria},\\n\\tvolume = {6},\\n\\tissn = {14622912},\\n\\tshorttitle = {Host specificity in marine sponge-associated bacteria, and potential implications for marine microbial diversity},\\n\\turl = {http://doi.wiley.com/10.1046/j.1462-2920.2003.00545.x},\\n\\tdoi = {10.1046/j.1462-2920.2003.00545.x},\\n\\tlanguage = {en},\\n\\tnumber = {2},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Environmental Microbiology},\\n\\tauthor = {Taylor, Michael W. and Schupp, Peter J. and Dahllöf, Ingela and Kjelleberg, Staffan and Steinberg, Peter D.},\\n\\tmonth = feb,\\n\\tyear = {2004},\\n\\tpages = {121--130},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Taylor, M. W.\",\"Schupp, P. J.\",\"Dahllöf, I.\",\"Kjelleberg, S.\",\"Steinberg, P. D.\"],\"key\":\"taylor_host_2004\",\"id\":\"taylor_host_2004\",\"bibbaseid\":\"taylor-schupp-dahllf-kjelleberg-steinberg-hostspecificityinmarinespongeassociatedbacteriaandpotentialimplicationsformarinemicrobialdiversityhostspecificityanddiversityinmarinebacteria-2004\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://doi.wiley.com/10.1046/j.1462-2920.2003.00545.x\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Evidence for Acyl Homoserine Lactone Signal Production in Bacteria Associated with Marine Sponges\",\"volume\":\"70\",\"issn\":\"0099-2240, 1098-5336\",\"url\":\"https://journals.asm.org/doi/10.1128/AEM.70.7.4387-4389.2004\",\"doi\":\"10.1128/AEM.70.7.4387-4389.2004\",\"abstract\":\"ABSTRACT We report for the first time the production of acyl homoserine lactones (AHLs) by bacteria associated with marine sponges. Given the involvement of AHLs in bacterial colonization of many higher organisms, we speculate that such quorum sensing signals could play a part in interactions between sponges and the dense bacterial communities living within them.\",\"language\":\"en\",\"number\":\"7\",\"urldate\":\"2022-11-09\",\"journal\":\"Applied and Environmental Microbiology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Taylor\"],\"firstnames\":[\"Michael\",\"W.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Baillie\"],\"firstnames\":[\"Harriet\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Charlton\"],\"firstnames\":[\"Timothy\",\"S.\"],\"suffixes\":[]},{\"propositions\":[\"de\"],\"lastnames\":[\"Nys\"],\"firstnames\":[\"Rocky\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kjelleberg\"],\"firstnames\":[\"Staffan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Steinberg\"],\"firstnames\":[\"Peter\",\"D.\"],\"suffixes\":[]}],\"month\":\"July\",\"year\":\"2004\",\"pages\":\"4387–4389\",\"bibtex\":\"@article{taylor_evidence_2004,\\n\\ttitle = {Evidence for {Acyl} {Homoserine} {Lactone} {Signal} {Production} in {Bacteria} {Associated} with {Marine} {Sponges}},\\n\\tvolume = {70},\\n\\tissn = {0099-2240, 1098-5336},\\n\\turl = {https://journals.asm.org/doi/10.1128/AEM.70.7.4387-4389.2004},\\n\\tdoi = {10.1128/AEM.70.7.4387-4389.2004},\\n\\tabstract = {ABSTRACT\\n            We report for the first time the production of acyl homoserine lactones (AHLs) by bacteria associated with marine sponges. Given the involvement of AHLs in bacterial colonization of many higher organisms, we speculate that such quorum sensing signals could play a part in interactions between sponges and the dense bacterial communities living within them.},\\n\\tlanguage = {en},\\n\\tnumber = {7},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Applied and Environmental Microbiology},\\n\\tauthor = {Taylor, Michael W. and Schupp, Peter J. and Baillie, Harriet J. and Charlton, Timothy S. and de Nys, Rocky and Kjelleberg, Staffan and Steinberg, Peter D.},\\n\\tmonth = jul,\\n\\tyear = {2004},\\n\\tpages = {4387--4389},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Taylor, M. W.\",\"Schupp, P. J.\",\"Baillie, H. J.\",\"Charlton, T. S.\",\"de Nys, R.\",\"Kjelleberg, S.\",\"Steinberg, P. D.\"],\"key\":\"taylor_evidence_2004\",\"id\":\"taylor_evidence_2004\",\"bibbaseid\":\"taylor-schupp-baillie-charlton-denys-kjelleberg-steinberg-evidenceforacylhomoserinelactonesignalproductioninbacteriaassociatedwithmarinesponges-2004\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://journals.asm.org/doi/10.1128/AEM.70.7.4387-4389.2004\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Chemical and physical defenses against predators in Cystodytes (Ascidiacea)\",\"volume\":\"332\",\"issn\":\"00220981\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0022098105004971\",\"doi\":\"10.1016/j.jembe.2005.11.002\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2022-11-09\",\"journal\":\"Journal of Experimental Marine Biology and Ecology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"López-Legentil\"],\"firstnames\":[\"Susanna\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Turon\"],\"firstnames\":[\"Xavier\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]}],\"month\":\"May\",\"year\":\"2006\",\"pages\":\"27–36\",\"bibtex\":\"@article{lopez-legentil_chemical_2006,\\n\\ttitle = {Chemical and physical defenses against predators in {Cystodytes} ({Ascidiacea})},\\n\\tvolume = {332},\\n\\tissn = {00220981},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0022098105004971},\\n\\tdoi = {10.1016/j.jembe.2005.11.002},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Journal of Experimental Marine Biology and Ecology},\\n\\tauthor = {López-Legentil, Susanna and Turon, Xavier and Schupp, Peter},\\n\\tmonth = may,\\n\\tyear = {2006},\\n\\tpages = {27--36},\\n}\\n\\n\\n\\n\",\"author_short\":[\"López-Legentil, S.\",\"Turon, X.\",\"Schupp, P.\"],\"key\":\"lopez-legentil_chemical_2006\",\"id\":\"lopez-legentil_chemical_2006\",\"bibbaseid\":\"lpezlegentil-turon-schupp-chemicalandphysicaldefensesagainstpredatorsincystodytesascidiacea-2006\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0022098105004971\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Biogeography of bacteria associated with the marine sponge Cymbastela concentrica\",\"volume\":\"7\",\"issn\":\"1462-2912, 1462-2920\",\"url\":\"https://onlinelibrary.wiley.com/doi/10.1111/j.1462-2920.2004.00711.x\",\"doi\":\"10.1111/j.1462-2920.2004.00711.x\",\"language\":\"en\",\"number\":\"3\",\"urldate\":\"2022-11-09\",\"journal\":\"Environmental Microbiology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Taylor\"],\"firstnames\":[\"Michael\",\"W.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[\"de\"],\"lastnames\":[\"Nys\"],\"firstnames\":[\"Rocky\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kjelleberg\"],\"firstnames\":[\"Staffan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Steinberg\"],\"firstnames\":[\"Peter\",\"D.\"],\"suffixes\":[]}],\"month\":\"March\",\"year\":\"2005\",\"pages\":\"419–433\",\"bibtex\":\"@article{taylor_biogeography_2005,\\n\\ttitle = {Biogeography of bacteria associated with the marine sponge {Cymbastela} concentrica},\\n\\tvolume = {7},\\n\\tissn = {1462-2912, 1462-2920},\\n\\turl = {https://onlinelibrary.wiley.com/doi/10.1111/j.1462-2920.2004.00711.x},\\n\\tdoi = {10.1111/j.1462-2920.2004.00711.x},\\n\\tlanguage = {en},\\n\\tnumber = {3},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Environmental Microbiology},\\n\\tauthor = {Taylor, Michael W. and Schupp, Peter J. and de Nys, Rocky and Kjelleberg, Staffan and Steinberg, Peter D.},\\n\\tmonth = mar,\\n\\tyear = {2005},\\n\\tpages = {419--433},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Taylor, M. W.\",\"Schupp, P. J.\",\"de Nys, R.\",\"Kjelleberg, S.\",\"Steinberg, P. 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J.\",\"Guo, Y.\",\"Cimino, G.\"],\"key\":\"manzo_chemistry_2007\",\"id\":\"manzo_chemistry_2007\",\"bibbaseid\":\"manzo-gavagnin-somerville-mao-ciavatta-mollo-schupp-garson-etal-chemistryofglossodorisnudibranchsspecificoccurrenceof12ketoscalaranes-2007\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://link.springer.com/10.1007/s10886-007-9387-x\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Apratoxin E, a Cytotoxic Peptolide from a Guamanian Collection of the Marine Cyanobacterium <i>Lyngbya bouillonii</i>\",\"volume\":\"71\",\"issn\":\"0163-3864, 1520-6025\",\"url\":\"https://pubs.acs.org/doi/10.1021/np700717s\",\"doi\":\"10.1021/np700717s\",\"language\":\"en\",\"number\":\"6\",\"urldate\":\"2022-11-09\",\"journal\":\"Journal of Natural Products\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Matthew\"],\"firstnames\":[\"Susan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Luesch\"],\"firstnames\":[\"Hendrik\"],\"suffixes\":[]}],\"month\":\"June\",\"year\":\"2008\",\"pages\":\"1113–1116\",\"bibtex\":\"@article{matthew_apratoxin_2008,\\n\\ttitle = {Apratoxin {E}, a {Cytotoxic} {Peptolide} from a {Guamanian} {Collection} of the {Marine} {Cyanobacterium} \\\\textit{{Lyngbya} bouillonii}},\\n\\tvolume = {71},\\n\\tissn = {0163-3864, 1520-6025},\\n\\turl = {https://pubs.acs.org/doi/10.1021/np700717s},\\n\\tdoi = {10.1021/np700717s},\\n\\tlanguage = {en},\\n\\tnumber = {6},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Journal of Natural Products},\\n\\tauthor = {Matthew, Susan and Schupp, Peter J. and Luesch, Hendrik},\\n\\tmonth = jun,\\n\\tyear = {2008},\\n\\tpages = {1113--1116},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Matthew, S.\",\"Schupp, P. J.\",\"Luesch, H.\"],\"key\":\"matthew_apratoxin_2008\",\"id\":\"matthew_apratoxin_2008\",\"bibbaseid\":\"matthew-schupp-luesch-apratoxineacytotoxicpeptolidefromaguamaniancollectionofthemarinecyanobacteriumilyngbyabouilloniii-2008\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://pubs.acs.org/doi/10.1021/np700717s\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Luminaolide, a novel metamorphosis-enhancing macrodiolide for scleractinian coral larvae from crustose coralline algae\",\"volume\":\"50\",\"issn\":\"00404039\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0040403909017870\",\"doi\":\"10.1016/j.tetlet.2009.09.065\",\"language\":\"en\",\"number\":\"47\",\"urldate\":\"2022-11-09\",\"journal\":\"Tetrahedron Letters\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Kitamura\"],\"firstnames\":[\"Makoto\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nakano\"],\"firstnames\":[\"Yoshikatsu\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Uemura\"],\"firstnames\":[\"Daisuke\"],\"suffixes\":[]}],\"month\":\"November\",\"year\":\"2009\",\"pages\":\"6606–6609\",\"bibtex\":\"@article{kitamura_luminaolide_2009,\\n\\ttitle = {Luminaolide, a novel metamorphosis-enhancing macrodiolide for scleractinian coral larvae from crustose coralline algae},\\n\\tvolume = {50},\\n\\tissn = {00404039},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0040403909017870},\\n\\tdoi = {10.1016/j.tetlet.2009.09.065},\\n\\tlanguage = {en},\\n\\tnumber = {47},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Tetrahedron Letters},\\n\\tauthor = {Kitamura, Makoto and Schupp, Peter J. and Nakano, Yoshikatsu and Uemura, Daisuke},\\n\\tmonth = nov,\\n\\tyear = {2009},\\n\\tpages = {6606--6609},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Kitamura, M.\",\"Schupp, P. 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R.\"],\"key\":\"matz_marine_2008\",\"id\":\"matz_marine_2008\",\"bibbaseid\":\"matz-webb-schupp-phang-penesyan-egan-steinberg-kjelleberg-marinebiofilmbacteriaevadeeukaryoticpredationbytargetedchemicaldefense-2008\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://dx.plos.org/10.1371/journal.pone.0002744\"},\"metadata\":{\"authorlinks\":{}},\"downloads\":0,\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Ten-Membered Lactones from the Marine-Derived Fungus <i>Curvularia</i> sp.\",\"volume\":\"71\",\"issn\":\"0163-3864, 1520-6025\",\"url\":\"https://pubs.acs.org/doi/10.1021/np8003326\",\"doi\":\"10.1021/np8003326\",\"language\":\"en\",\"number\":\"9\",\"urldate\":\"2022-11-09\",\"journal\":\"Journal of Natural Products\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Greve\"],\"firstnames\":[\"Hendrik\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Eguereva\"],\"firstnames\":[\"Ekaterina\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kehraus\"],\"firstnames\":[\"Stefan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"König\"],\"firstnames\":[\"Gabriele\",\"M.\"],\"suffixes\":[]}],\"month\":\"September\",\"year\":\"2008\",\"pages\":\"1651–1653\",\"bibtex\":\"@article{greve_ten-membered_2008,\\n\\ttitle = {Ten-{Membered} {Lactones} from the {Marine}-{Derived} {Fungus} \\\\textit{{Curvularia}} sp.},\\n\\tvolume = {71},\\n\\tissn = {0163-3864, 1520-6025},\\n\\turl = {https://pubs.acs.org/doi/10.1021/np8003326},\\n\\tdoi = {10.1021/np8003326},\\n\\tlanguage = {en},\\n\\tnumber = {9},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Journal of Natural Products},\\n\\tauthor = {Greve, Hendrik and Schupp, Peter J. and Eguereva, Ekaterina and Kehraus, Stefan and König, Gabriele M.},\\n\\tmonth = sep,\\n\\tyear = {2008},\\n\\tpages = {1651--1653},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Greve, H.\",\"Schupp, P. J.\",\"Eguereva, E.\",\"Kehraus, S.\",\"König, G. M.\"],\"key\":\"greve_ten-membered_2008\",\"id\":\"greve_ten-membered_2008\",\"bibbaseid\":\"greve-schupp-eguereva-kehraus-knig-tenmemberedlactonesfromthemarinederivedfungusicurvulariaisp-2008\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://pubs.acs.org/doi/10.1021/np8003326\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Chitin-based scaffolds are an integral part of the skeleton of the marine demosponge Ianthella basta\",\"volume\":\"168\",\"issn\":\"10478477\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S1047847709001695\",\"doi\":\"10.1016/j.jsb.2009.06.018\",\"language\":\"en\",\"number\":\"3\",\"urldate\":\"2022-11-09\",\"journal\":\"Journal of Structural Biology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Brunner\"],\"firstnames\":[\"E.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ehrlich\"],\"firstnames\":[\"H.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"P.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hedrich\"],\"firstnames\":[\"R.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hunoldt\"],\"firstnames\":[\"S.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kammer\"],\"firstnames\":[\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Machill\"],\"firstnames\":[\"S.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Paasch\"],\"firstnames\":[\"S.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bazhenov\"],\"firstnames\":[\"V.V.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kurek\"],\"firstnames\":[\"D.V.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Arnold\"],\"firstnames\":[\"T.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Brockmann\"],\"firstnames\":[\"S.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ruhnow\"],\"firstnames\":[\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Born\"],\"firstnames\":[\"R.\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2009\",\"pages\":\"539–547\",\"bibtex\":\"@article{brunner_chitin-based_2009,\\n\\ttitle = {Chitin-based scaffolds are an integral part of the skeleton of the marine demosponge {Ianthella} basta},\\n\\tvolume = {168},\\n\\tissn = {10478477},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S1047847709001695},\\n\\tdoi = {10.1016/j.jsb.2009.06.018},\\n\\tlanguage = {en},\\n\\tnumber = {3},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Journal of Structural Biology},\\n\\tauthor = {Brunner, E. and Ehrlich, H. and Schupp, P. and Hedrich, R. and Hunoldt, S. and Kammer, M. and Machill, S. and Paasch, S. and Bazhenov, V.V. and Kurek, D.V. and Arnold, T. and Brockmann, S. and Ruhnow, M. and Born, R.},\\n\\tmonth = dec,\\n\\tyear = {2009},\\n\\tpages = {539--547},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Brunner, E.\",\"Ehrlich, H.\",\"Schupp, P.\",\"Hedrich, R.\",\"Hunoldt, S.\",\"Kammer, M.\",\"Machill, S.\",\"Paasch, S.\",\"Bazhenov, V.\",\"Kurek, D.\",\"Arnold, T.\",\"Brockmann, S.\",\"Ruhnow, M.\",\"Born, R.\"],\"key\":\"brunner_chitin-based_2009\",\"id\":\"brunner_chitin-based_2009\",\"bibbaseid\":\"brunner-ehrlich-schupp-hedrich-hunoldt-kammer-machill-paasch-etal-chitinbasedscaffoldsareanintegralpartoftheskeletonofthemarinedemospongeianthellabasta-2009\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S1047847709001695\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Cancer Chemopreventive and Anticancer Evaluation of Extracts and Fractions from Marine Macro- and Microorganisms Collected from Twilight Zone Waters around Guam $^{\\\\textrm{[1]}}$\",\"volume\":\"4\",\"issn\":\"1934-578X, 1555-9475\",\"url\":\"http://journals.sagepub.com/doi/10.1177/1934578X0900401222\",\"doi\":\"10.1177/1934578X0900401222\",\"abstract\":\"The cancer chemopreventive and cytotoxic properties of 50 extracts derived from Twilight Zone (50–150 m) sponges, gorgonians and associated bacteria, together with 15 extracts from shallow water hard corals, as well as 16 fractions derived from the methanol solubles of the Twilight Zone sponge Suberea sp, were assessed in a series of bioassays. These assays included: Induction of quinone reductase (QR), inhibition of TNF-α activated nuclear factor kappa B (NFκB), inhibition of aromatase, interaction with retinoid X receptor (RXR), inhibition of nitric oxide (NO) synthase, inhibition 2,2-diphenyl-1-picrylhydrazyl radical scavenging (DPPH), and inhibition of HL-60 and MCF-7 cell proliferation. The results of these assays showed that at least 10 extracts and five fractions inhibited NFκB by greater than 60%, two extracts and two fractions inhibited DPPH by more than 50%, nine extracts and two fractions affected the survival of HL-60 cells, no extracts or fractions affected RXR, three extracts and six fractions affected quinone reductase (QR), three extracts and 12 fractions significantly inhibited aromatase, four extracts and five fractions inhibited nitric oxide synthase, and one extract and no fractions inhibited the growth of MCF-7 cells by more than 95%. These data revealed the tested samples to have many and varied activities, making them, as shown with the extract of the Suberea species, useful starting points for further fractionation and purification. Moreover, the large number of samples demonstrating activity in only one or sometimes two assays accentuates the potential of the Twilight Zone, as a largely unexplored habitat, for the discovery of selectively bioactive compounds. The overall high hit rate in many of the employed assays is considered to be a significant finding in terms of “normal” hit rates associated with similar samples from shallower depths.\",\"language\":\"en\",\"number\":\"12\",\"urldate\":\"2022-11-09\",\"journal\":\"Natural Product Communications\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kohlert-Schupp\"],\"firstnames\":[\"Claudia\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Whitefield\"],\"firstnames\":[\"Susanna\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Engemann\"],\"firstnames\":[\"Anna\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hemscheidt\"],\"firstnames\":[\"Thomas\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Pezzuto\"],\"firstnames\":[\"John\",\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kondratyuk\"],\"firstnames\":[\"Tamara\",\"P.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Park\"],\"firstnames\":[\"Eun-Jung\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Marler\"],\"firstnames\":[\"Laura\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rostama\"],\"firstnames\":[\"Bahman\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wright\"],\"firstnames\":[\"Anthony\",\"D.\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2009\",\"pages\":\"1934578X0900401\",\"bibtex\":\"@article{schupp_cancer_2009,\\n\\ttitle = {Cancer {Chemopreventive} and {Anticancer} {Evaluation} of {Extracts} and {Fractions} from {Marine} {Macro}- and {Microorganisms} {Collected} from {Twilight} {Zone} {Waters} around {Guam} $^{\\\\textrm{[1]}}$},\\n\\tvolume = {4},\\n\\tissn = {1934-578X, 1555-9475},\\n\\turl = {http://journals.sagepub.com/doi/10.1177/1934578X0900401222},\\n\\tdoi = {10.1177/1934578X0900401222},\\n\\tabstract = {The cancer chemopreventive and cytotoxic properties of 50 extracts derived from Twilight Zone (50–150 m) sponges, gorgonians and associated bacteria, together with 15 extracts from shallow water hard corals, as well as 16 fractions derived from the methanol solubles of the Twilight Zone sponge Suberea sp, were assessed in a series of bioassays. These assays included: Induction of quinone reductase (QR), inhibition of TNF-α activated nuclear factor kappa B (NFκB), inhibition of aromatase, interaction with retinoid X receptor (RXR), inhibition of nitric oxide (NO) synthase, inhibition 2,2-diphenyl-1-picrylhydrazyl radical scavenging (DPPH), and inhibition of HL-60 and MCF-7 cell proliferation. The results of these assays showed that at least 10 extracts and five fractions inhibited NFκB by greater than 60\\\\%, two extracts and two fractions inhibited DPPH by more than 50\\\\%, nine extracts and two fractions affected the survival of HL-60 cells, no extracts or fractions affected RXR, three extracts and six fractions affected quinone reductase (QR), three extracts and 12 fractions significantly inhibited aromatase, four extracts and five fractions inhibited nitric oxide synthase, and one extract and no fractions inhibited the growth of MCF-7 cells by more than 95\\\\%. These data revealed the tested samples to have many and varied activities, making them, as shown with the extract of the Suberea species, useful starting points for further fractionation and purification. Moreover, the large number of samples demonstrating activity in only one or sometimes two assays accentuates the potential of the Twilight Zone, as a largely unexplored habitat, for the discovery of selectively bioactive compounds. The overall high hit rate in many of the employed assays is considered to be a significant finding in terms of “normal” hit rates associated with similar samples from shallower depths.},\\n\\tlanguage = {en},\\n\\tnumber = {12},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Natural Product Communications},\\n\\tauthor = {Schupp, Peter J. and Kohlert-Schupp, Claudia and Whitefield, Susanna and Engemann, Anna and Rohde, Sven and Hemscheidt, Thomas and Pezzuto, John M. and Kondratyuk, Tamara P. and Park, Eun-Jung and Marler, Laura and Rostama, Bahman and Wright, Anthony D.},\\n\\tmonth = dec,\\n\\tyear = {2009},\\n\\tpages = {1934578X0900401},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Schupp, P. J.\",\"Kohlert-Schupp, C.\",\"Whitefield, S.\",\"Engemann, A.\",\"Rohde, S.\",\"Hemscheidt, T.\",\"Pezzuto, J. M.\",\"Kondratyuk, T. P.\",\"Park, E.\",\"Marler, L.\",\"Rostama, B.\",\"Wright, A. 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A and Siboni, Nahshon and Tapiolas, D. M. and Negri, A. P. and Schupp, P. J. and Kitamura, Makoto and Hatta, Masayuki and Steinberg, P. D. and Harder, T.},\\n\\tmonth = sep,\\n\\tyear = {2015},\\n\\tpages = {10803},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Tebben, J.\",\"Motti, C. A\",\"Siboni, N.\",\"Tapiolas, D. M.\",\"Negri, A. P.\",\"Schupp, P. J.\",\"Kitamura, M.\",\"Hatta, M.\",\"Steinberg, P. D.\",\"Harder, T.\"],\"key\":\"tebben_chemical_2015\",\"id\":\"tebben_chemical_2015\",\"bibbaseid\":\"tebben-motti-siboni-tapiolas-negri-schupp-kitamura-hatta-etal-chemicalmediationofcorallarvalsettlementbycrustosecorallinealgae-2015\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://www.nature.com/articles/srep10803\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Prevalence and Mechanisms of Dynamic Chemical Defenses in Tropical Sponges\",\"volume\":\"10\",\"issn\":\"1932-6203\",\"url\":\"https://dx.plos.org/10.1371/journal.pone.0132236\",\"doi\":\"10.1371/journal.pone.0132236\",\"language\":\"en\",\"number\":\"7\",\"urldate\":\"2022-11-09\",\"journal\":\"PLOS ONE\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"editor\":[{\"propositions\":[],\"lastnames\":[\"Bell\"],\"firstnames\":[\"James\"],\"suffixes\":[]}],\"month\":\"July\",\"year\":\"2015\",\"pages\":\"e0132236\",\"bibtex\":\"@article{rohde_prevalence_2015,\\n\\ttitle = {Prevalence and {Mechanisms} of {Dynamic} {Chemical} {Defenses} in {Tropical} {Sponges}},\\n\\tvolume = {10},\\n\\tissn = {1932-6203},\\n\\turl = {https://dx.plos.org/10.1371/journal.pone.0132236},\\n\\tdoi = {10.1371/journal.pone.0132236},\\n\\tlanguage = {en},\\n\\tnumber = {7},\\n\\turldate = {2022-11-09},\\n\\tjournal = {PLOS ONE},\\n\\tauthor = {Rohde, Sven and Nietzer, Samuel and Schupp, Peter J.},\\n\\teditor = {Bell, James},\\n\\tmonth = jul,\\n\\tyear = {2015},\\n\\tpages = {e0132236},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Rohde, S.\",\"Nietzer, S.\",\"Schupp, P. J.\"],\"editor_short\":[\"Bell, J.\"],\"key\":\"rohde_prevalence_2015\",\"id\":\"rohde_prevalence_2015\",\"bibbaseid\":\"rohde-nietzer-schupp-prevalenceandmechanismsofdynamicchemicaldefensesintropicalsponges-2015\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://dx.plos.org/10.1371/journal.pone.0132236\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Diversity, structure and convergent evolution of the global sponge microbiome\",\"volume\":\"7\",\"issn\":\"2041-1723\",\"url\":\"http://www.nature.com/articles/ncomms11870\",\"doi\":\"10.1038/ncomms11870\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2022-11-09\",\"journal\":\"Nature Communications\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Thomas\"],\"firstnames\":[\"Torsten\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Moitinho-Silva\"],\"firstnames\":[\"Lucas\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Lurgi\"],\"firstnames\":[\"Miguel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Björk\"],\"firstnames\":[\"Johannes\",\"R.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Easson\"],\"firstnames\":[\"Cole\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Astudillo-García\"],\"firstnames\":[\"Carmen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Olson\"],\"firstnames\":[\"Julie\",\"B.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Erwin\"],\"firstnames\":[\"Patrick\",\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"López-Legentil\"],\"firstnames\":[\"Susanna\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Luter\"],\"firstnames\":[\"Heidi\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Chaves-Fonnegra\"],\"firstnames\":[\"Andia\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Costa\"],\"firstnames\":[\"Rodrigo\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Steindler\"],\"firstnames\":[\"Laura\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Erpenbeck\"],\"firstnames\":[\"Dirk\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Gilbert\"],\"firstnames\":[\"Jack\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Knight\"],\"firstnames\":[\"Rob\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ackermann\"],\"firstnames\":[\"Gail\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Victor\",\"Lopez\"],\"firstnames\":[\"Jose\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Taylor\"],\"firstnames\":[\"Michael\",\"W.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Thacker\"],\"firstnames\":[\"Robert\",\"W.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Montoya\"],\"firstnames\":[\"Jose\",\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hentschel\"],\"firstnames\":[\"Ute\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Webster\"],\"firstnames\":[\"Nicole\",\"S.\"],\"suffixes\":[]}],\"month\":\"September\",\"year\":\"2016\",\"pages\":\"11870\",\"bibtex\":\"@article{thomas_diversity_2016,\\n\\ttitle = {Diversity, structure and convergent evolution of the global sponge microbiome},\\n\\tvolume = {7},\\n\\tissn = {2041-1723},\\n\\turl = {http://www.nature.com/articles/ncomms11870},\\n\\tdoi = {10.1038/ncomms11870},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Nature Communications},\\n\\tauthor = {Thomas, Torsten and Moitinho-Silva, Lucas and Lurgi, Miguel and Björk, Johannes R. and Easson, Cole and Astudillo-García, Carmen and Olson, Julie B. and Erwin, Patrick M. and López-Legentil, Susanna and Luter, Heidi and Chaves-Fonnegra, Andia and Costa, Rodrigo and Schupp, Peter J. and Steindler, Laura and Erpenbeck, Dirk and Gilbert, Jack and Knight, Rob and Ackermann, Gail and Victor Lopez, Jose and Taylor, Michael W. and Thacker, Robert W. and Montoya, Jose M. and Hentschel, Ute and Webster, Nicole S.},\\n\\tmonth = sep,\\n\\tyear = {2016},\\n\\tpages = {11870},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Thomas, T.\",\"Moitinho-Silva, L.\",\"Lurgi, M.\",\"Björk, J. R.\",\"Easson, C.\",\"Astudillo-García, C.\",\"Olson, J. B.\",\"Erwin, P. M.\",\"López-Legentil, S.\",\"Luter, H.\",\"Chaves-Fonnegra, A.\",\"Costa, R.\",\"Schupp, P. J.\",\"Steindler, L.\",\"Erpenbeck, D.\",\"Gilbert, J.\",\"Knight, R.\",\"Ackermann, G.\",\"Victor Lopez, J.\",\"Taylor, M. W.\",\"Thacker, R. W.\",\"Montoya, J. M.\",\"Hentschel, U.\",\"Webster, N. S.\"],\"key\":\"thomas_diversity_2016\",\"id\":\"thomas_diversity_2016\",\"bibbaseid\":\"thomas-moitinhosilva-lurgi-bjrk-easson-astudillogarca-olson-erwin-etal-diversitystructureandconvergentevolutionoftheglobalspongemicrobiome-2016\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://www.nature.com/articles/ncomms11870\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Understanding the invasion success of Sargassum muticum: herbivore preferences for native and invasive Sargassum spp\",\"volume\":\"163\",\"issn\":\"0025-3162, 1432-1793\",\"shorttitle\":\"Understanding the invasion success of Sargassum muticum\",\"url\":\"http://link.springer.com/10.1007/s00227-016-2953-4\",\"doi\":\"10.1007/s00227-016-2953-4\",\"language\":\"en\",\"number\":\"9\",\"urldate\":\"2022-11-09\",\"journal\":\"Marine Biology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Schwartz\"],\"firstnames\":[\"Nicole\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hiromori\"],\"firstnames\":[\"Shimabukuro\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"September\",\"year\":\"2016\",\"pages\":\"181\",\"bibtex\":\"@article{schwartz_understanding_2016,\\n\\ttitle = {Understanding the invasion success of {Sargassum} muticum: herbivore preferences for native and invasive {Sargassum} spp},\\n\\tvolume = {163},\\n\\tissn = {0025-3162, 1432-1793},\\n\\tshorttitle = {Understanding the invasion success of {Sargassum} muticum},\\n\\turl = {http://link.springer.com/10.1007/s00227-016-2953-4},\\n\\tdoi = {10.1007/s00227-016-2953-4},\\n\\tlanguage = {en},\\n\\tnumber = {9},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Marine Biology},\\n\\tauthor = {Schwartz, Nicole and Rohde, Sven and Hiromori, Shimabukuro and Schupp, Peter J.},\\n\\tmonth = sep,\\n\\tyear = {2016},\\n\\tpages = {181},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Schwartz, N.\",\"Rohde, S.\",\"Hiromori, S.\",\"Schupp, P. J.\"],\"key\":\"schwartz_understanding_2016\",\"id\":\"schwartz_understanding_2016\",\"bibbaseid\":\"schwartz-rohde-hiromori-schupp-understandingtheinvasionsuccessofsargassummuticumherbivorepreferencesfornativeandinvasivesargassumspp-2016\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://link.springer.com/10.1007/s00227-016-2953-4\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"First record of the non-native Pacific bryozoan Smittoidea prolifica Osburn, 1952 at the German North Sea coast\",\"volume\":\"46\",\"issn\":\"1867-1616, 1867-1624\",\"url\":\"http://link.springer.com/10.1007/s12526-015-0415-8\",\"doi\":\"10.1007/s12526-015-0415-8\",\"language\":\"en\",\"number\":\"3\",\"urldate\":\"2022-11-09\",\"journal\":\"Marine Biodiversity\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Markert\"],\"firstnames\":[\"Alexandra\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Matsuyama\"],\"firstnames\":[\"Kei\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wehrmann\"],\"firstnames\":[\"Achim\"],\"suffixes\":[]}],\"month\":\"September\",\"year\":\"2016\",\"pages\":\"717–723\",\"bibtex\":\"@article{markert_first_2016,\\n\\ttitle = {First record of the non-native {Pacific} bryozoan {Smittoidea} prolifica {Osburn}, 1952 at the {German} {North} {Sea} coast},\\n\\tvolume = {46},\\n\\tissn = {1867-1616, 1867-1624},\\n\\turl = {http://link.springer.com/10.1007/s12526-015-0415-8},\\n\\tdoi = {10.1007/s12526-015-0415-8},\\n\\tlanguage = {en},\\n\\tnumber = {3},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Marine Biodiversity},\\n\\tauthor = {Markert, Alexandra and Matsuyama, Kei and Rohde, Sven and Schupp, Peter and Wehrmann, Achim},\\n\\tmonth = sep,\\n\\tyear = {2016},\\n\\tpages = {717--723},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Markert, A.\",\"Matsuyama, K.\",\"Rohde, S.\",\"Schupp, P.\",\"Wehrmann, A.\"],\"key\":\"markert_first_2016\",\"id\":\"markert_first_2016\",\"bibbaseid\":\"markert-matsuyama-rohde-schupp-wehrmann-firstrecordofthenonnativepacificbryozoansmittoideaprolificaosburn1952atthegermannorthseacoast-2016\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://link.springer.com/10.1007/s12526-015-0415-8\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Impact of explantation techniques on the microbiota of the marine sponge Ecionemia alata\",\"volume\":\"484\",\"issn\":\"00220981\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0022098116301241\",\"doi\":\"10.1016/j.jembe.2016.08.003\",\"language\":\"en\",\"urldate\":\"2022-11-09\",\"journal\":\"Journal of Experimental Marine Biology and Ecology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Meyer\"],\"firstnames\":[\"Kyle\",\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Deines\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Taylor\"],\"firstnames\":[\"Michael\",\"W.\"],\"suffixes\":[]}],\"month\":\"November\",\"year\":\"2016\",\"pages\":\"11–15\",\"bibtex\":\"@article{meyer_impact_2016,\\n\\ttitle = {Impact of explantation techniques on the microbiota of the marine sponge {Ecionemia} alata},\\n\\tvolume = {484},\\n\\tissn = {00220981},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0022098116301241},\\n\\tdoi = {10.1016/j.jembe.2016.08.003},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Journal of Experimental Marine Biology and Ecology},\\n\\tauthor = {Meyer, Kyle M. and Deines, Peter and Schupp, Peter J. and Taylor, Michael W.},\\n\\tmonth = nov,\\n\\tyear = {2016},\\n\\tpages = {11--15},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Meyer, K. M.\",\"Deines, P.\",\"Schupp, P. J.\",\"Taylor, M. W.\"],\"key\":\"meyer_impact_2016\",\"id\":\"meyer_impact_2016\",\"bibbaseid\":\"meyer-deines-schupp-taylor-impactofexplantationtechniquesonthemicrobiotaofthemarinespongeecionemiaalata-2016\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0022098116301241\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Defensive Diterpene from the Aeolidoidean <i>Phyllodesmium longicirrum</i>\",\"volume\":\"79\",\"issn\":\"0163-3864, 1520-6025\",\"url\":\"https://pubs.acs.org/doi/10.1021/acs.jnatprod.5b00860\",\"doi\":\"10.1021/acs.jnatprod.5b00860\",\"language\":\"en\",\"number\":\"3\",\"urldate\":\"2022-11-09\",\"journal\":\"Journal of Natural Products\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Bogdanov\"],\"firstnames\":[\"Alexander\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hertzer\"],\"firstnames\":[\"Cora\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kehraus\"],\"firstnames\":[\"Stefan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wägele\"],\"firstnames\":[\"Heike\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"König\"],\"firstnames\":[\"Gabriele\",\"M.\"],\"suffixes\":[]}],\"month\":\"March\",\"year\":\"2016\",\"pages\":\"611–615\",\"bibtex\":\"@article{bogdanov_defensive_2016,\\n\\ttitle = {Defensive {Diterpene} from the {Aeolidoidean} \\\\textit{{Phyllodesmium} longicirrum}},\\n\\tvolume = {79},\\n\\tissn = {0163-3864, 1520-6025},\\n\\turl = {https://pubs.acs.org/doi/10.1021/acs.jnatprod.5b00860},\\n\\tdoi = {10.1021/acs.jnatprod.5b00860},\\n\\tlanguage = {en},\\n\\tnumber = {3},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Journal of Natural Products},\\n\\tauthor = {Bogdanov, Alexander and Hertzer, Cora and Kehraus, Stefan and Nietzer, Samuel and Rohde, Sven and Schupp, Peter J. and Wägele, Heike and König, Gabriele M.},\\n\\tmonth = mar,\\n\\tyear = {2016},\\n\\tpages = {611--615},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Bogdanov, A.\",\"Hertzer, C.\",\"Kehraus, S.\",\"Nietzer, S.\",\"Rohde, S.\",\"Schupp, P. J.\",\"Wägele, H.\",\"König, G. M.\"],\"key\":\"bogdanov_defensive_2016\",\"id\":\"bogdanov_defensive_2016\",\"bibbaseid\":\"bogdanov-hertzer-kehraus-nietzer-rohde-schupp-wgele-knig-defensivediterpenefromtheaeolidoideaniphyllodesmiumlongicirrumi-2016\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://pubs.acs.org/doi/10.1021/acs.jnatprod.5b00860\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"In four shallow and mesophotic tropical reef sponges from Guam the microbial community largely depends on host identity\",\"volume\":\"4\",\"issn\":\"2167-8359\",\"url\":\"https://peerj.com/articles/1936\",\"doi\":\"10.7717/peerj.1936\",\"abstract\":\"Sponges (phylum Porifera) are important members of almost all aquatic ecosystems, and are renowned for hosting often dense and diverse microbial communities. While the specificity of the sponge microbiota seems to be closely related to host phylogeny, the environmental factors that could shape differences within local sponge-specific communities remain less understood. On tropical coral reefs, sponge habitats can span from shallow areas to deeper, mesophotic sites. These habitats differ in terms of environmental factors such as light, temperature, and food availability, as well as anthropogenic impact. In order to study the host specificity and potential influence of varying habitats on the sponge microbiota within a local area, four tropical reef sponges, Rhabdastrella globostellata , Callyspongia sp., Rhaphoxya sp., and Acanthella cavernosa , were collected from exposed shallow reef slopes and a deep reef drop-off. Based on 16S rRNA gene pyrosequencing profiles, beta diversity analyses revealed that each sponge species possessed a specific microbiota that was significantly different to those of the other species and exhibited attributes that are characteristic of high- and/or low-microbial-abundance sponges. These findings emphasize the influence of host identity on the associated microbiota. Dominant sponge- and seawater-associated bacterial phyla were Chloroflexi, Cyanobacteria, and Proteobacteria. Comparison of individual sponge taxa and seawater samples between shallow and deep reef sites revealed no significant variation in alpha diversity estimates, while differences in microbial beta diversity (variation in community composition) were significant for Callyspongia sp. sponges and seawater samples. Overall, the sponge-associated microbiota is significantly shaped by host identity across all samples, while the effect of habitat differentiation seems to be less predominant in tropical reef sponges.\",\"language\":\"en\",\"urldate\":\"2022-11-09\",\"journal\":\"PeerJ\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Steinert\"],\"firstnames\":[\"Georg\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Taylor\"],\"firstnames\":[\"Michael\",\"W.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Deines\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Simister\"],\"firstnames\":[\"Rachel\",\"L.\"],\"suffixes\":[]},{\"propositions\":[\"de\"],\"lastnames\":[\"Voogd\"],\"firstnames\":[\"Nicole\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hoggard\"],\"firstnames\":[\"Michael\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"April\",\"year\":\"2016\",\"pages\":\"e1936\",\"bibtex\":\"@article{steinert_four_2016,\\n\\ttitle = {In four shallow and mesophotic tropical reef sponges from {Guam} the microbial community largely depends on host identity},\\n\\tvolume = {4},\\n\\tissn = {2167-8359},\\n\\turl = {https://peerj.com/articles/1936},\\n\\tdoi = {10.7717/peerj.1936},\\n\\tabstract = {Sponges (phylum Porifera) are important members of almost all aquatic ecosystems, and are renowned for hosting often dense and diverse microbial communities. While the specificity of the sponge microbiota seems to be closely related to host phylogeny, the environmental factors that could shape differences within local sponge-specific communities remain less understood. On tropical coral reefs, sponge habitats can span from shallow areas to deeper, mesophotic sites. These habitats differ in terms of environmental factors such as light, temperature, and food availability, as well as anthropogenic impact. In order to study the host specificity and potential influence of varying habitats on the sponge microbiota within a local area, four tropical reef sponges,\\n              Rhabdastrella globostellata\\n              ,\\n              Callyspongia\\n              sp.,\\n              Rhaphoxya\\n              sp., and\\n              Acanthella cavernosa\\n              , were collected from exposed shallow reef slopes and a deep reef drop-off. Based on 16S rRNA gene pyrosequencing profiles, beta diversity analyses revealed that each sponge species possessed a specific microbiota that was significantly different to those of the other species and exhibited attributes that are characteristic of high- and/or low-microbial-abundance sponges. These findings emphasize the influence of host identity on the associated microbiota. Dominant sponge- and seawater-associated bacterial phyla were Chloroflexi, Cyanobacteria, and Proteobacteria. Comparison of individual sponge taxa and seawater samples between shallow and deep reef sites revealed no significant variation in alpha diversity estimates, while differences in microbial beta diversity (variation in community composition) were significant for\\n              Callyspongia\\n              sp. sponges and seawater samples. Overall, the sponge-associated microbiota is significantly shaped by host identity across all samples, while the effect of habitat differentiation seems to be less predominant in tropical reef sponges.},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-09},\\n\\tjournal = {PeerJ},\\n\\tauthor = {Steinert, Georg and Taylor, Michael W. and Deines, Peter and Simister, Rachel L. and de Voogd, Nicole J. and Hoggard, Michael and Schupp, Peter J.},\\n\\tmonth = apr,\\n\\tyear = {2016},\\n\\tpages = {e1936},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Steinert, G.\",\"Taylor, M. W.\",\"Deines, P.\",\"Simister, R. L.\",\"de Voogd, N. J.\",\"Hoggard, M.\",\"Schupp, P. J.\"],\"key\":\"steinert_four_2016\",\"id\":\"steinert_four_2016\",\"bibbaseid\":\"steinert-taylor-deines-simister-devoogd-hoggard-schupp-infourshallowandmesophotictropicalreefspongesfromguamthemicrobialcommunitylargelydependsonhostidentity-2016\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://peerj.com/articles/1936\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Genetic structure of the crown-of-thorns seastar in the Pacific Ocean, with focus on Guam\",\"volume\":\"4\",\"issn\":\"2167-8359\",\"url\":\"https://peerj.com/articles/1970\",\"doi\":\"10.7717/peerj.1970\",\"abstract\":\"Population outbreaks of the corallivorous crown-of-thorns seastar (COTS), Acanthaster ‘planci’ L. , are among the most important biological disturbances of tropical coral reefs. Over the past 50 years, several devastating outbreaks have been documented around Guam, an island in the western Pacific Ocean. Previous analyses have shown that in the Pacific Ocean, COTS larval dispersal may be geographically restricted to certain regions. Here, we assess the genetic structure of Pacific COTS populations and compared samples from around Guam with a number of distant localities in the Pacific Ocean, and focused on determining the degree of genetic structure among populations previously considered to be isolated. Using microsatellites, we document substantial genetic structure between 14 localities from different geographical regions in the Pacific Ocean. Populations from the 14 locations sampled were found to be structured in three significantly differentiated groups: (1) all locations immediately around Guam, as well as Kingman Reef and Swains Island; (2) Japan, Philippines, GBR and Vanuatu; and (3) Johnston Atoll, which was significantly different from all other localities. The lack of genetic differentiation between Guam and extremely distant populations from Kingman Reef and Swains Island suggests potential long-distance dispersal of COTS in the Pacific.\",\"language\":\"en\",\"urldate\":\"2022-11-09\",\"journal\":\"PeerJ\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Tusso\"],\"firstnames\":[\"Sergio\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Morcinek\"],\"firstnames\":[\"Kerstin\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Vogler\"],\"firstnames\":[\"Catherine\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Caballes\"],\"firstnames\":[\"Ciemon\",\"F.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Vargas\"],\"firstnames\":[\"Sergio\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wörheide\"],\"firstnames\":[\"Gert\"],\"suffixes\":[]}],\"month\":\"May\",\"year\":\"2016\",\"pages\":\"e1970\",\"bibtex\":\"@article{tusso_genetic_2016,\\n\\ttitle = {Genetic structure of the crown-of-thorns seastar in the {Pacific} {Ocean}, with focus on {Guam}},\\n\\tvolume = {4},\\n\\tissn = {2167-8359},\\n\\turl = {https://peerj.com/articles/1970},\\n\\tdoi = {10.7717/peerj.1970},\\n\\tabstract = {Population outbreaks of the corallivorous crown-of-thorns seastar (COTS),\\n              Acanthaster ‘planci’ L.\\n              , are among the most important biological disturbances of tropical coral reefs. Over the past 50 years, several devastating outbreaks have been documented around Guam, an island in the western Pacific Ocean. Previous analyses have shown that in the Pacific Ocean, COTS larval dispersal may be geographically restricted to certain regions. Here, we assess the genetic structure of Pacific COTS populations and compared samples from around Guam with a number of distant localities in the Pacific Ocean, and focused on determining the degree of genetic structure among populations previously considered to be isolated. Using microsatellites, we document substantial genetic structure between 14 localities from different geographical regions in the Pacific Ocean. Populations from the 14 locations sampled were found to be structured in three significantly differentiated groups: (1) all locations immediately around Guam, as well as Kingman Reef and Swains Island; (2) Japan, Philippines, GBR and Vanuatu; and (3) Johnston Atoll, which was significantly different from all other localities. The lack of genetic differentiation between Guam and extremely distant populations from Kingman Reef and Swains Island suggests potential long-distance dispersal of COTS in the Pacific.},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-09},\\n\\tjournal = {PeerJ},\\n\\tauthor = {Tusso, Sergio and Morcinek, Kerstin and Vogler, Catherine and Schupp, Peter J. and Caballes, Ciemon F. and Vargas, Sergio and Wörheide, Gert},\\n\\tmonth = may,\\n\\tyear = {2016},\\n\\tpages = {e1970},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Tusso, S.\",\"Morcinek, K.\",\"Vogler, C.\",\"Schupp, P. J.\",\"Caballes, C. F.\",\"Vargas, S.\",\"Wörheide, G.\"],\"key\":\"tusso_genetic_2016\",\"id\":\"tusso_genetic_2016\",\"bibbaseid\":\"tusso-morcinek-vogler-schupp-caballes-vargas-wrheide-geneticstructureofthecrownofthornsseastarinthepacificoceanwithfocusonguam-2016\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://peerj.com/articles/1970\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Predicting the spread of marine species introduced by global shipping\",\"volume\":\"113\",\"issn\":\"0027-8424, 1091-6490\",\"url\":\"https://pnas.org/doi/full/10.1073/pnas.1524427113\",\"doi\":\"10.1073/pnas.1524427113\",\"abstract\":\"Significance Predicting the arrival of alien species remains a big challenge, which is assumed to be a consequence of the complexity of the invasion process. Here, we demonstrate that spreading of alien marine species can be predicted by a simple model using only global shipping intensities, environmental variables, and species occurrence data. We provide species lists of the next potentially invading species in a local habitat or species causing harmful algal blooms with their associated probability of invasion. This will help to improve mitigation strategies to reduce the further introduction of alien species. Although this study focuses on marine algae, the model approach can be easily adopted to other taxonomic groups and their respective drivers of invasion. , The human-mediated translocation of species poses a distinct threat to nature, human health, and economy. Although existing models calculate the invasion probability of any species, frameworks for species-specific forecasts are still missing. Here, we developed a model approach using global ship movements and environmental conditions to simulate the successive global spread of marine alien species that allows predicting the identity of those species likely to arrive next in a given habitat. In a first step, we simulated the historical stepping-stone spreading dynamics of 40 marine alien species and compared predicted and observed alien species ranges. With an accuracy of 77%, the model correctly predicted the presence/absence of an alien species in an ecoregion. Spreading dynamics followed a common pattern with an initial invasion of most suitable habitats worldwide and a subsequent spread into neighboring habitats. In a second step, we used the reported distribution of 97 marine algal species with a known invasion history, and six species causing harmful algal blooms, to determine the ecoregions most likely to be invaded next under climate warming. Cluster analysis revealed that species can be classified according to three characteristic spreading profiles: emerging species, high-risk species, and widespread species. For the North Sea, the model predictions could be confirmed because two of the predicted high-risk species have recently invaded the North Sea. This study highlights that even simple models considering only shipping intensities and habitat matches are able to correctly predict the identity of the next invading marine species.\",\"language\":\"en\",\"number\":\"20\",\"urldate\":\"2022-11-09\",\"journal\":\"Proceedings of the National Academy of Sciences\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Seebens\"],\"firstnames\":[\"Hanno\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schwartz\"],\"firstnames\":[\"Nicole\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Blasius\"],\"firstnames\":[\"Bernd\"],\"suffixes\":[]}],\"month\":\"May\",\"year\":\"2016\",\"pages\":\"5646–5651\",\"bibtex\":\"@article{seebens_predicting_2016,\\n\\ttitle = {Predicting the spread of marine species introduced by global shipping},\\n\\tvolume = {113},\\n\\tissn = {0027-8424, 1091-6490},\\n\\turl = {https://pnas.org/doi/full/10.1073/pnas.1524427113},\\n\\tdoi = {10.1073/pnas.1524427113},\\n\\tabstract = {Significance\\n            Predicting the arrival of alien species remains a big challenge, which is assumed to be a consequence of the complexity of the invasion process. Here, we demonstrate that spreading of alien marine species can be predicted by a simple model using only global shipping intensities, environmental variables, and species occurrence data. We provide species lists of the next potentially invading species in a local habitat or species causing harmful algal blooms with their associated probability of invasion. This will help to improve mitigation strategies to reduce the further introduction of alien species. Although this study focuses on marine algae, the model approach can be easily adopted to other taxonomic groups and their respective drivers of invasion.\\n          , \\n            The human-mediated translocation of species poses a distinct threat to nature, human health, and economy. Although existing models calculate the invasion probability of any species, frameworks for species-specific forecasts are still missing. Here, we developed a model approach using global ship movements and environmental conditions to simulate the successive global spread of marine alien species that allows predicting the identity of those species likely to arrive next in a given habitat. In a first step, we simulated the historical stepping-stone spreading dynamics of 40 marine alien species and compared predicted and observed alien species ranges. With an accuracy of 77\\\\%, the model correctly predicted the presence/absence of an alien species in an ecoregion. Spreading dynamics followed a common pattern with an initial invasion of most suitable habitats worldwide and a subsequent spread into neighboring habitats. In a second step, we used the reported distribution of 97 marine algal species with a known invasion history, and six species causing harmful algal blooms, to determine the ecoregions most likely to be invaded next under climate warming. Cluster analysis revealed that species can be classified according to three characteristic spreading profiles: emerging species, high-risk species, and widespread species. For the North Sea, the model predictions could be confirmed because two of the predicted high-risk species have recently invaded the North Sea. This study highlights that even simple models considering only shipping intensities and habitat matches are able to correctly predict the identity of the next invading marine species.},\\n\\tlanguage = {en},\\n\\tnumber = {20},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Proceedings of the National Academy of Sciences},\\n\\tauthor = {Seebens, Hanno and Schwartz, Nicole and Schupp, Peter J. and Blasius, Bernd},\\n\\tmonth = may,\\n\\tyear = {2016},\\n\\tpages = {5646--5651},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Seebens, H.\",\"Schwartz, N.\",\"Schupp, P. J.\",\"Blasius, B.\"],\"key\":\"seebens_predicting_2016\",\"id\":\"seebens_predicting_2016\",\"bibbaseid\":\"seebens-schwartz-schupp-blasius-predictingthespreadofmarinespeciesintroducedbyglobalshipping-2016\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://pnas.org/doi/full/10.1073/pnas.1524427113\"},\"metadata\":{\"authorlinks\":{}},\"downloads\":0,\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Low sediment loads affect survival of coral recruits: the first weeks are crucial\",\"volume\":\"36\",\"issn\":\"0722-4028, 1432-0975\",\"shorttitle\":\"Low sediment loads affect survival of coral recruits\",\"url\":\"http://link.springer.com/10.1007/s00338-016-1513-1\",\"doi\":\"10.1007/s00338-016-1513-1\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2022-11-09\",\"journal\":\"Coral Reefs\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Moeller\"],\"firstnames\":[\"Mareen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schils\"],\"firstnames\":[\"Tom\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"March\",\"year\":\"2017\",\"pages\":\"39–49\",\"bibtex\":\"@article{moeller_low_2017,\\n\\ttitle = {Low sediment loads affect survival of coral recruits: the first weeks are crucial},\\n\\tvolume = {36},\\n\\tissn = {0722-4028, 1432-0975},\\n\\tshorttitle = {Low sediment loads affect survival of coral recruits},\\n\\turl = {http://link.springer.com/10.1007/s00338-016-1513-1},\\n\\tdoi = {10.1007/s00338-016-1513-1},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Coral Reefs},\\n\\tauthor = {Moeller, Mareen and Nietzer, Samuel and Schils, Tom and Schupp, Peter J.},\\n\\tmonth = mar,\\n\\tyear = {2017},\\n\\tpages = {39--49},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Moeller, M.\",\"Nietzer, S.\",\"Schils, T.\",\"Schupp, P. J.\"],\"key\":\"moeller_low_2017\",\"id\":\"moeller_low_2017\",\"bibbaseid\":\"moeller-nietzer-schils-schupp-lowsedimentloadsaffectsurvivalofcoralrecruitsthefirstweeksarecrucial-2017\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://link.springer.com/10.1007/s00338-016-1513-1\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Persistent outbreaks of the “black disease” sponge Terpios hoshinota in Indonesian coral reefs\",\"volume\":\"47\",\"issn\":\"1867-1616, 1867-1624\",\"url\":\"http://link.springer.com/10.1007/s12526-015-0426-5\",\"doi\":\"10.1007/s12526-015-0426-5\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2022-11-09\",\"journal\":\"Marine Biodiversity\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Madduppa\"],\"firstnames\":[\"Hawis\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Faisal\"],\"firstnames\":[\"Muhammad\",\"Reza\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Sastria\"],\"firstnames\":[\"Mustami\",\"Yuda\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Thoms\"],\"firstnames\":[\"Carsten\"],\"suffixes\":[]}],\"month\":\"March\",\"year\":\"2017\",\"pages\":\"149–151\",\"bibtex\":\"@article{madduppa_persistent_2017,\\n\\ttitle = {Persistent outbreaks of the “black disease” sponge {Terpios} hoshinota in {Indonesian} coral reefs},\\n\\tvolume = {47},\\n\\tissn = {1867-1616, 1867-1624},\\n\\turl = {http://link.springer.com/10.1007/s12526-015-0426-5},\\n\\tdoi = {10.1007/s12526-015-0426-5},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Marine Biodiversity},\\n\\tauthor = {Madduppa, Hawis and Schupp, Peter J. and Faisal, Muhammad Reza and Sastria, Mustami Yuda and Thoms, Carsten},\\n\\tmonth = mar,\\n\\tyear = {2017},\\n\\tpages = {149--151},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Madduppa, H.\",\"Schupp, P. J.\",\"Faisal, M. R.\",\"Sastria, M. Y.\",\"Thoms, C.\"],\"key\":\"madduppa_persistent_2017\",\"id\":\"madduppa_persistent_2017\",\"bibbaseid\":\"madduppa-schupp-faisal-sastria-thoms-persistentoutbreaksoftheblackdiseasespongeterpioshoshinotainindonesiancoralreefs-2017\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://link.springer.com/10.1007/s12526-015-0426-5\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Anti-predatory effects of organic extracts of 10 common reef sponges from Zanzibar\",\"volume\":\"790\",\"issn\":\"0018-8158, 1573-5117\",\"url\":\"http://link.springer.com/10.1007/s10750-016-3036-8\",\"doi\":\"10.1007/s10750-016-3036-8\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2022-11-09\",\"journal\":\"Hydrobiologia\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Helber\"],\"firstnames\":[\"S.\",\"B.\"],\"suffixes\":[]},{\"propositions\":[\"de\"],\"lastnames\":[\"Voogd\"],\"firstnames\":[\"N.\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Muhando\"],\"firstnames\":[\"C.\",\"A.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"S.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"P.\",\"J.\"],\"suffixes\":[]}],\"month\":\"April\",\"year\":\"2017\",\"pages\":\"247–258\",\"bibtex\":\"@article{helber_anti-predatory_2017,\\n\\ttitle = {Anti-predatory effects of organic extracts of 10 common reef sponges from {Zanzibar}},\\n\\tvolume = {790},\\n\\tissn = {0018-8158, 1573-5117},\\n\\turl = {http://link.springer.com/10.1007/s10750-016-3036-8},\\n\\tdoi = {10.1007/s10750-016-3036-8},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Hydrobiologia},\\n\\tauthor = {Helber, S. B. and de Voogd, N. J. and Muhando, C. A. and Rohde, S. and Schupp, P. J.},\\n\\tmonth = apr,\\n\\tyear = {2017},\\n\\tpages = {247--258},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Helber, S. B.\",\"de Voogd, N. J.\",\"Muhando, C. A.\",\"Rohde, S.\",\"Schupp, P. J.\"],\"key\":\"helber_anti-predatory_2017\",\"id\":\"helber_anti-predatory_2017\",\"bibbaseid\":\"helber-devoogd-muhando-rohde-schupp-antipredatoryeffectsoforganicextractsof10commonreefspongesfromzanzibar-2017\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://link.springer.com/10.1007/s10750-016-3036-8\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Only half of the truth: Managing invasive alien species by rapid assessment\",\"volume\":\"146\",\"issn\":\"09645691\",\"shorttitle\":\"Only half of the truth\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0964569116303155\",\"doi\":\"10.1016/j.ocecoaman.2017.05.013\",\"language\":\"en\",\"urldate\":\"2022-11-09\",\"journal\":\"Ocean & Coastal Management\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Markert\"],\"firstnames\":[\"Alexandra\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wehrmann\"],\"firstnames\":[\"Achim\"],\"suffixes\":[]}],\"month\":\"September\",\"year\":\"2017\",\"pages\":\"26–35\",\"bibtex\":\"@article{rohde_only_2017,\\n\\ttitle = {Only half of the truth: {Managing} invasive alien species by rapid assessment},\\n\\tvolume = {146},\\n\\tissn = {09645691},\\n\\tshorttitle = {Only half of the truth},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0964569116303155},\\n\\tdoi = {10.1016/j.ocecoaman.2017.05.013},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Ocean \\\\& Coastal Management},\\n\\tauthor = {Rohde, Sven and Schupp, Peter J. and Markert, Alexandra and Wehrmann, Achim},\\n\\tmonth = sep,\\n\\tyear = {2017},\\n\\tpages = {26--35},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Rohde, S.\",\"Schupp, P. J.\",\"Markert, A.\",\"Wehrmann, A.\"],\"key\":\"rohde_only_2017\",\"id\":\"rohde_only_2017\",\"bibbaseid\":\"rohde-schupp-markert-wehrmann-onlyhalfofthetruthmanaginginvasivealienspeciesbyrapidassessment-2017\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0964569116303155\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Chitin of poriferan origin and the bioelectrometallurgy of copper/copper oxide\",\"volume\":\"104\",\"issn\":\"01418130\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0141813016326915\",\"doi\":\"10.1016/j.ijbiomac.2017.01.084\",\"language\":\"en\",\"urldate\":\"2022-11-09\",\"journal\":\"International Journal of Biological Macromolecules\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Petrenko\"],\"firstnames\":[\"Iaroslav\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bazhenov\"],\"firstnames\":[\"Vasilii\",\"V.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Galli\"],\"firstnames\":[\"Roberta\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wysokowski\"],\"firstnames\":[\"Marcin\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Fromont\"],\"firstnames\":[\"Jane\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Stelling\"],\"firstnames\":[\"Allison\",\"L.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Niederschlag\"],\"firstnames\":[\"Elke\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Stöker\"],\"firstnames\":[\"Hartmut\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kutsova\"],\"firstnames\":[\"Valentina\",\"Z.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Jesionowski\"],\"firstnames\":[\"Teofil\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ehrlich\"],\"firstnames\":[\"Hermann\"],\"suffixes\":[]}],\"month\":\"November\",\"year\":\"2017\",\"pages\":\"1626–1632\",\"bibtex\":\"@article{petrenko_chitin_2017,\\n\\ttitle = {Chitin of poriferan origin and the bioelectrometallurgy of copper/copper oxide},\\n\\tvolume = {104},\\n\\tissn = {01418130},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0141813016326915},\\n\\tdoi = {10.1016/j.ijbiomac.2017.01.084},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-09},\\n\\tjournal = {International Journal of Biological Macromolecules},\\n\\tauthor = {Petrenko, Iaroslav and Bazhenov, Vasilii V. and Galli, Roberta and Wysokowski, Marcin and Fromont, Jane and Schupp, Peter J. and Stelling, Allison L. and Niederschlag, Elke and Stöker, Hartmut and Kutsova, Valentina Z. and Jesionowski, Teofil and Ehrlich, Hermann},\\n\\tmonth = nov,\\n\\tyear = {2017},\\n\\tpages = {1626--1632},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Petrenko, I.\",\"Bazhenov, V. V.\",\"Galli, R.\",\"Wysokowski, M.\",\"Fromont, J.\",\"Schupp, P. J.\",\"Stelling, A. L.\",\"Niederschlag, E.\",\"Stöker, H.\",\"Kutsova, V. Z.\",\"Jesionowski, T.\",\"Ehrlich, H.\"],\"key\":\"petrenko_chitin_2017\",\"id\":\"petrenko_chitin_2017\",\"bibbaseid\":\"petrenko-bazhenov-galli-wysokowski-fromont-schupp-stelling-niederschlag-etal-chitinofporiferanoriginandthebioelectrometallurgyofcoppercopperoxide-2017\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0141813016326915\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Diversity of two widespread Indo-Pacific demosponge species revisited\",\"volume\":\"47\",\"issn\":\"1867-1616, 1867-1624\",\"url\":\"http://link.springer.com/10.1007/s12526-017-0783-3\",\"doi\":\"10.1007/s12526-017-0783-3\",\"language\":\"en\",\"number\":\"4\",\"urldate\":\"2022-11-09\",\"journal\":\"Marine Biodiversity\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Erpenbeck\"],\"firstnames\":[\"Dirk\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Aryasari\"],\"firstnames\":[\"Ratih\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Benning\"],\"firstnames\":[\"Sarah\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Debitus\"],\"firstnames\":[\"Cécile\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kaltenbacher\"],\"firstnames\":[\"Emilie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Al-Aidaroos\"],\"firstnames\":[\"Ali\",\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hall\"],\"firstnames\":[\"Kathryn\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hooper\"],\"firstnames\":[\"John\",\"N.\",\"A.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Voigt\"],\"firstnames\":[\"Oliver\"],\"suffixes\":[]},{\"propositions\":[\"de\"],\"lastnames\":[\"Voogd\"],\"firstnames\":[\"Nicole\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wörheide\"],\"firstnames\":[\"Gert\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2017\",\"pages\":\"1035–1043\",\"bibtex\":\"@article{erpenbeck_diversity_2017,\\n\\ttitle = {Diversity of two widespread {Indo}-{Pacific} demosponge species revisited},\\n\\tvolume = {47},\\n\\tissn = {1867-1616, 1867-1624},\\n\\turl = {http://link.springer.com/10.1007/s12526-017-0783-3},\\n\\tdoi = {10.1007/s12526-017-0783-3},\\n\\tlanguage = {en},\\n\\tnumber = {4},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Marine Biodiversity},\\n\\tauthor = {Erpenbeck, Dirk and Aryasari, Ratih and Benning, Sarah and Debitus, Cécile and Kaltenbacher, Emilie and Al-Aidaroos, Ali M. and Schupp, Peter and Hall, Kathryn and Hooper, John N. A. and Voigt, Oliver and de Voogd, Nicole J. and Wörheide, Gert},\\n\\tmonth = dec,\\n\\tyear = {2017},\\n\\tpages = {1035--1043},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Erpenbeck, D.\",\"Aryasari, R.\",\"Benning, S.\",\"Debitus, C.\",\"Kaltenbacher, E.\",\"Al-Aidaroos, A. M.\",\"Schupp, P.\",\"Hall, K.\",\"Hooper, J. N. A.\",\"Voigt, O.\",\"de Voogd, N. J.\",\"Wörheide, G.\"],\"key\":\"erpenbeck_diversity_2017\",\"id\":\"erpenbeck_diversity_2017\",\"bibbaseid\":\"erpenbeck-aryasari-benning-debitus-kaltenbacher-alaidaroos-schupp-hall-etal-diversityoftwowidespreadindopacificdemospongespeciesrevisited-2017\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://link.springer.com/10.1007/s12526-017-0783-3\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Novel chitin scaffolds derived from marine sponge Ianthella basta for tissue engineering approaches based on human mesenchymal stromal cells: Biocompatibility and cryopreservation\",\"volume\":\"104\",\"issn\":\"01418130\",\"shorttitle\":\"Novel chitin scaffolds derived from marine sponge Ianthella basta for tissue engineering approaches based on human mesenchymal stromal cells\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0141813016326605\",\"doi\":\"10.1016/j.ijbiomac.2017.03.161\",\"language\":\"en\",\"urldate\":\"2022-11-09\",\"journal\":\"International Journal of Biological Macromolecules\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Mutsenko\"],\"firstnames\":[\"Vitalii\",\"V.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Gryshkov\"],\"firstnames\":[\"Oleksandr\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Lauterboeck\"],\"firstnames\":[\"Lothar\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rogulska\"],\"firstnames\":[\"Olena\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Tarusin\"],\"firstnames\":[\"Dmitriy\",\"N.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bazhenov\"],\"firstnames\":[\"Vasilii\",\"V.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schütz\"],\"firstnames\":[\"Kathleen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Brüggemeier\"],\"firstnames\":[\"Sophie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Gossla\"],\"firstnames\":[\"Elke\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Akkineni\"],\"firstnames\":[\"Ashwini\",\"R.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Meißner\"],\"firstnames\":[\"Heike\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Lode\"],\"firstnames\":[\"Anja\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Meschke\"],\"firstnames\":[\"Stephan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Fromont\"],\"firstnames\":[\"Jane\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Stelling\"],\"firstnames\":[\"Allison\",\"L.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Tabachnik\"],\"firstnames\":[\"Konstantin\",\"R.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Gelinsky\"],\"firstnames\":[\"Michael\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nikulin\"],\"firstnames\":[\"Sergey\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rodin\"],\"firstnames\":[\"Sergey\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Tonevitsky\"],\"firstnames\":[\"Alexander\",\"G.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Petrenko\"],\"firstnames\":[\"Alexander\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Glasmacher\"],\"firstnames\":[\"Birgit\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ehrlich\"],\"firstnames\":[\"Hermann\"],\"suffixes\":[]}],\"month\":\"November\",\"year\":\"2017\",\"pages\":\"1955–1965\",\"bibtex\":\"@article{mutsenko_novel_2017,\\n\\ttitle = {Novel chitin scaffolds derived from marine sponge {Ianthella} basta for tissue engineering approaches based on human mesenchymal stromal cells: {Biocompatibility} and cryopreservation},\\n\\tvolume = {104},\\n\\tissn = {01418130},\\n\\tshorttitle = {Novel chitin scaffolds derived from marine sponge {Ianthella} basta for tissue engineering approaches based on human mesenchymal stromal cells},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0141813016326605},\\n\\tdoi = {10.1016/j.ijbiomac.2017.03.161},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-09},\\n\\tjournal = {International Journal of Biological Macromolecules},\\n\\tauthor = {Mutsenko, Vitalii V. and Gryshkov, Oleksandr and Lauterboeck, Lothar and Rogulska, Olena and Tarusin, Dmitriy N. and Bazhenov, Vasilii V. and Schütz, Kathleen and Brüggemeier, Sophie and Gossla, Elke and Akkineni, Ashwini R. and Meißner, Heike and Lode, Anja and Meschke, Stephan and Fromont, Jane and Stelling, Allison L. and Tabachnik, Konstantin R. and Gelinsky, Michael and Nikulin, Sergey and Rodin, Sergey and Tonevitsky, Alexander G. and Petrenko, Alexander Y. and Glasmacher, Birgit and Schupp, Peter J. and Ehrlich, Hermann},\\n\\tmonth = nov,\\n\\tyear = {2017},\\n\\tpages = {1955--1965},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Mutsenko, V. V.\",\"Gryshkov, O.\",\"Lauterboeck, L.\",\"Rogulska, O.\",\"Tarusin, D. N.\",\"Bazhenov, V. V.\",\"Schütz, K.\",\"Brüggemeier, S.\",\"Gossla, E.\",\"Akkineni, A. R.\",\"Meißner, H.\",\"Lode, A.\",\"Meschke, S.\",\"Fromont, J.\",\"Stelling, A. L.\",\"Tabachnik, K. R.\",\"Gelinsky, M.\",\"Nikulin, S.\",\"Rodin, S.\",\"Tonevitsky, A. G.\",\"Petrenko, A. Y.\",\"Glasmacher, B.\",\"Schupp, P. J.\",\"Ehrlich, H.\"],\"key\":\"mutsenko_novel_2017\",\"id\":\"mutsenko_novel_2017\",\"bibbaseid\":\"mutsenko-gryshkov-lauterboeck-rogulska-tarusin-bazhenov-schtz-brggemeier-etal-novelchitinscaffoldsderivedfrommarinespongeianthellabastafortissueengineeringapproachesbasedonhumanmesenchymalstromalcellsbiocompatibilityandcryopreservation-2017\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0141813016326605\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Host-specific assembly of sponge-associated prokaryotes at high taxonomic ranks\",\"volume\":\"7\",\"issn\":\"2045-2322\",\"url\":\"http://www.nature.com/articles/s41598-017-02656-6\",\"doi\":\"10.1038/s41598-017-02656-6\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2022-11-09\",\"journal\":\"Scientific Reports\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Steinert\"],\"firstnames\":[\"Georg\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Janussen\"],\"firstnames\":[\"Dorte\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Blaurock\"],\"firstnames\":[\"Claudia\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2017\",\"pages\":\"2542\",\"bibtex\":\"@article{steinert_host-specific_2017,\\n\\ttitle = {Host-specific assembly of sponge-associated prokaryotes at high taxonomic ranks},\\n\\tvolume = {7},\\n\\tissn = {2045-2322},\\n\\turl = {http://www.nature.com/articles/s41598-017-02656-6},\\n\\tdoi = {10.1038/s41598-017-02656-6},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Scientific Reports},\\n\\tauthor = {Steinert, Georg and Rohde, Sven and Janussen, Dorte and Blaurock, Claudia and Schupp, Peter J.},\\n\\tmonth = dec,\\n\\tyear = {2017},\\n\\tpages = {2542},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Steinert, G.\",\"Rohde, S.\",\"Janussen, D.\",\"Blaurock, C.\",\"Schupp, P. J.\"],\"key\":\"steinert_host-specific_2017\",\"id\":\"steinert_host-specific_2017\",\"bibbaseid\":\"steinert-rohde-janussen-blaurock-schupp-hostspecificassemblyofspongeassociatedprokaryotesathightaxonomicranks-2017\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://www.nature.com/articles/s41598-017-02656-6\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Comparison of antifouling properties of native and invasive <i>Sargassum</i> (Fucales, Phaeophyceae) species\",\"volume\":\"52\",\"issn\":\"0967-0262, 1469-4433\",\"url\":\"https://www.tandfonline.com/doi/full/10.1080/09670262.2016.1231345\",\"doi\":\"10.1080/09670262.2016.1231345\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2022-11-09\",\"journal\":\"European Journal of Phycology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Schwartz\"],\"firstnames\":[\"Nicole\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Dobretsov\"],\"firstnames\":[\"Sergey\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"January\",\"year\":\"2017\",\"pages\":\"116–131\",\"bibtex\":\"@article{schwartz_comparison_2017,\\n\\ttitle = {Comparison of antifouling properties of native and invasive \\\\textit{{Sargassum}} ({Fucales}, {Phaeophyceae}) species},\\n\\tvolume = {52},\\n\\tissn = {0967-0262, 1469-4433},\\n\\turl = {https://www.tandfonline.com/doi/full/10.1080/09670262.2016.1231345},\\n\\tdoi = {10.1080/09670262.2016.1231345},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2022-11-09},\\n\\tjournal = {European Journal of Phycology},\\n\\tauthor = {Schwartz, Nicole and Dobretsov, Sergey and Rohde, Sven and Schupp, Peter J.},\\n\\tmonth = jan,\\n\\tyear = {2017},\\n\\tpages = {116--131},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Schwartz, N.\",\"Dobretsov, S.\",\"Rohde, S.\",\"Schupp, P. J.\"],\"key\":\"schwartz_comparison_2017\",\"id\":\"schwartz_comparison_2017\",\"bibbaseid\":\"schwartz-dobretsov-rohde-schupp-comparisonofantifoulingpropertiesofnativeandinvasiveisargassumifucalesphaeophyceaespecies-2017\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.tandfonline.com/doi/full/10.1080/09670262.2016.1231345\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Determination of the Halogenated Skeleton Constituents of the Marine Demosponge Ianthella basta\",\"volume\":\"15\",\"issn\":\"1660-3397\",\"url\":\"http://www.mdpi.com/1660-3397/15/2/34\",\"doi\":\"10.3390/md15020034\",\"language\":\"en\",\"number\":\"2\",\"urldate\":\"2022-11-09\",\"journal\":\"Marine Drugs\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Ueberlein\"],\"firstnames\":[\"Susanne\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Machill\"],\"firstnames\":[\"Susanne\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Brunner\"],\"firstnames\":[\"Eike\"],\"suffixes\":[]}],\"month\":\"February\",\"year\":\"2017\",\"pages\":\"34\",\"bibtex\":\"@article{ueberlein_determination_2017,\\n\\ttitle = {Determination of the {Halogenated} {Skeleton} {Constituents} of the {Marine} {Demosponge} {Ianthella} basta},\\n\\tvolume = {15},\\n\\tissn = {1660-3397},\\n\\turl = {http://www.mdpi.com/1660-3397/15/2/34},\\n\\tdoi = {10.3390/md15020034},\\n\\tlanguage = {en},\\n\\tnumber = {2},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Marine Drugs},\\n\\tauthor = {Ueberlein, Susanne and Machill, Susanne and Schupp, Peter and Brunner, Eike},\\n\\tmonth = feb,\\n\\tyear = {2017},\\n\\tpages = {34},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Ueberlein, S.\",\"Machill, S.\",\"Schupp, P.\",\"Brunner, E.\"],\"key\":\"ueberlein_determination_2017\",\"id\":\"ueberlein_determination_2017\",\"bibbaseid\":\"ueberlein-machill-schupp-brunner-determinationofthehalogenatedskeletonconstituentsofthemarinedemospongeianthellabasta-2017\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://www.mdpi.com/1660-3397/15/2/34\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Secondary metabolome and its defensive role in the aeolidoidean <i>Phyllodesmium longicirrum</i> , (Gastropoda, Heterobranchia, Nudibranchia)\",\"volume\":\"13\",\"issn\":\"1860-5397\",\"url\":\"https://www.beilstein-journals.org/bjoc/articles/13/50\",\"doi\":\"10.3762/bjoc.13.50\",\"abstract\":\"Phyllodesmium longicirrum is the largest aeolidoidean species known to date, and extremely rich in terpenoid chemistry. Herein we report the isolation of a total of 19 secondary metabolites from a single specimen of this species, i.e., steroids 1–4 , cembranoid diterpenes 5–13 , complex biscembranoids 14 and 15 , and the chatancin-type diterpenes 16–19 . These compounds resemble those from soft corals of the genus Sarcophyton , of which to date, however, only S. trocheliophorum is described as a food source for P. longicirrum . Fish feeding deterrent activity was determined using the tropical puffer fish Canthigaster solandri , and showed activity for (2 S )-isosarcophytoxide ( 10 ), cembranoid bisepoxide 12 and 4-oxochatancin ( 16 ). Determining the metabolome of P. longicirrum and its bioactivity, makes it evident that this seemingly vulnerable soft bodied animal is well protected from fish by its chemical arsenal.\",\"language\":\"en\",\"urldate\":\"2022-11-09\",\"journal\":\"Beilstein Journal of Organic Chemistry\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Bogdanov\"],\"firstnames\":[\"Alexander\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hertzer\"],\"firstnames\":[\"Cora\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kehraus\"],\"firstnames\":[\"Stefan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wägele\"],\"firstnames\":[\"Heike\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"König\"],\"firstnames\":[\"Gabriele\",\"M\"],\"suffixes\":[]}],\"month\":\"March\",\"year\":\"2017\",\"pages\":\"502–519\",\"bibtex\":\"@article{bogdanov_secondary_2017,\\n\\ttitle = {Secondary metabolome and its defensive role in the aeolidoidean \\\\textit{{Phyllodesmium} longicirrum} , ({Gastropoda}, {Heterobranchia}, {Nudibranchia})},\\n\\tvolume = {13},\\n\\tissn = {1860-5397},\\n\\turl = {https://www.beilstein-journals.org/bjoc/articles/13/50},\\n\\tdoi = {10.3762/bjoc.13.50},\\n\\tabstract = {Phyllodesmium longicirrum\\n              is the largest aeolidoidean species known to date, and extremely rich in terpenoid chemistry. Herein we report the isolation of a total of 19 secondary metabolites from a single specimen of this species, i.e., steroids\\n              1–4\\n              , cembranoid diterpenes\\n              5–13\\n              , complex biscembranoids\\n              14\\n              and\\n              15\\n              , and the chatancin-type diterpenes\\n              16–19\\n              . These compounds resemble those from soft corals of the genus\\n              Sarcophyton\\n              , of which to date, however, only\\n              S. trocheliophorum\\n              is described as a food source for\\n              P. longicirrum\\n              . Fish feeding deterrent activity was determined using the tropical puffer fish\\n              Canthigaster solandri\\n              , and showed activity for (2\\n              S\\n              )-isosarcophytoxide (\\n              10\\n              ), cembranoid bisepoxide\\n              12\\n              and 4-oxochatancin (\\n              16\\n              ). Determining the metabolome of\\n              P. longicirrum\\n              and its bioactivity, makes it evident that this seemingly vulnerable soft bodied animal is well protected from fish by its chemical arsenal.},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Beilstein Journal of Organic Chemistry},\\n\\tauthor = {Bogdanov, Alexander and Hertzer, Cora and Kehraus, Stefan and Nietzer, Samuel and Rohde, Sven and Schupp, Peter J and Wägele, Heike and König, Gabriele M},\\n\\tmonth = mar,\\n\\tyear = {2017},\\n\\tpages = {502--519},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Bogdanov, A.\",\"Hertzer, C.\",\"Kehraus, S.\",\"Nietzer, S.\",\"Rohde, S.\",\"Schupp, P. J\",\"Wägele, H.\",\"König, G. 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J.\",\"Kunzmann, A.\"],\"key\":\"kuhnhold_acclimation_2019\",\"id\":\"kuhnhold_acclimation_2019\",\"bibbaseid\":\"khnhold-novais-alves-kamyab-lemos-slater-kunzmann-acclimationcapabilityinferredbymetabolicperformanceintwoseacucumberspeciesfromdifferentlatitudes-2019\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0306456519302116\"},\"keyword\":[\"Energy metabolism\",\"Eurytherms\",\"Stenotherms\",\"Temperature stress\"],\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"New bioactive metabolites from the elicited marine sponge-derived bacterium Actinokineospora spheciospongiae sp. nov.\",\"volume\":\"9\",\"issn\":\"2191-0855\",\"url\":\"https://amb-express.springeropen.com/articles/10.1186/s13568-018-0730-0\",\"doi\":\"10.1186/s13568-018-0730-0\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2022-11-09\",\"journal\":\"AMB Express\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Tawfike\"],\"firstnames\":[\"Ahmed\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Attia\"],\"firstnames\":[\"Eman\",\"Zekry\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Desoukey\"],\"firstnames\":[\"Samar\",\"Yehia\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hajjar\"],\"firstnames\":[\"Dina\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Makki\"],\"firstnames\":[\"Arwa\",\"A.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Edrada-Ebel\"],\"firstnames\":[\"RuAngelie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Abdelmohsen\"],\"firstnames\":[\"Usama\",\"Ramadan\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2019\",\"pages\":\"12\",\"bibtex\":\"@article{tawfike_new_2019,\\n\\ttitle = {New bioactive metabolites from the elicited marine sponge-derived bacterium {Actinokineospora} spheciospongiae sp. nov.},\\n\\tvolume = {9},\\n\\tissn = {2191-0855},\\n\\turl = {https://amb-express.springeropen.com/articles/10.1186/s13568-018-0730-0},\\n\\tdoi = {10.1186/s13568-018-0730-0},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2022-11-09},\\n\\tjournal = {AMB Express},\\n\\tauthor = {Tawfike, Ahmed and Attia, Eman Zekry and Desoukey, Samar Yehia and Hajjar, Dina and Makki, Arwa A. and Schupp, Peter J. and Edrada-Ebel, RuAngelie and Abdelmohsen, Usama Ramadan},\\n\\tmonth = dec,\\n\\tyear = {2019},\\n\\tpages = {12},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Tawfike, A.\",\"Attia, E. Z.\",\"Desoukey, S. Y.\",\"Hajjar, D.\",\"Makki, A. A.\",\"Schupp, P. J.\",\"Edrada-Ebel, R.\",\"Abdelmohsen, U. R.\"],\"key\":\"tawfike_new_2019\",\"id\":\"tawfike_new_2019\",\"bibbaseid\":\"tawfike-attia-desoukey-hajjar-makki-schupp-edradaebel-abdelmohsen-newbioactivemetabolitesfromtheelicitedmarinespongederivedbacteriumactinokineosporaspheciospongiaespnov-2019\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://amb-express.springeropen.com/articles/10.1186/s13568-018-0730-0\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Sponges from Zanzibar host diverse prokaryotic communities with potential for natural product synthesis\",\"volume\":\"95\",\"issn\":\"1574-6941\",\"url\":\"https://academic.oup.com/femsec/article/doi/10.1093/femsec/fiz026/5369420\",\"doi\":\"10.1093/femsec/fiz026\",\"language\":\"en\",\"number\":\"4\",\"urldate\":\"2022-11-09\",\"journal\":\"FEMS Microbiology Ecology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Helber\"],\"firstnames\":[\"Stephanie\",\"B\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Steinert\"],\"firstnames\":[\"Georg\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wu\"],\"firstnames\":[\"Yu-Chen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hentschel\"],\"firstnames\":[\"Ute\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Muhando\"],\"firstnames\":[\"Christopher\",\"A\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J\"],\"suffixes\":[]}],\"month\":\"April\",\"year\":\"2019\",\"bibtex\":\"@article{helber_sponges_2019,\\n\\ttitle = {Sponges from {Zanzibar} host diverse prokaryotic communities with potential for natural product synthesis},\\n\\tvolume = {95},\\n\\tissn = {1574-6941},\\n\\turl = {https://academic.oup.com/femsec/article/doi/10.1093/femsec/fiz026/5369420},\\n\\tdoi = {10.1093/femsec/fiz026},\\n\\tlanguage = {en},\\n\\tnumber = {4},\\n\\turldate = {2022-11-09},\\n\\tjournal = {FEMS Microbiology Ecology},\\n\\tauthor = {Helber, Stephanie B and Steinert, Georg and Wu, Yu-Chen and Rohde, Sven and Hentschel, Ute and Muhando, Christopher A and Schupp, Peter J},\\n\\tmonth = apr,\\n\\tyear = {2019},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Helber, S. B\",\"Steinert, G.\",\"Wu, Y.\",\"Rohde, S.\",\"Hentschel, U.\",\"Muhando, C. A\",\"Schupp, P. J\"],\"key\":\"helber_sponges_2019\",\"id\":\"helber_sponges_2019\",\"bibbaseid\":\"helber-steinert-wu-rohde-hentschel-muhando-schupp-spongesfromzanzibarhostdiverseprokaryoticcommunitieswithpotentialfornaturalproductsynthesis-2019\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://academic.oup.com/femsec/article/doi/10.1093/femsec/fiz026/5369420\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Express Method for Isolation of Ready-to-Use 3D Chitin Scaffolds from Aplysina archeri (Aplysineidae: Verongiida) Demosponge\",\"volume\":\"17\",\"issn\":\"1660-3397\",\"shorttitle\":\"Express Method for Isolation of Ready-to-Use 3D Chitin Scaffolds from Aplysina archeri (Aplysineidae\",\"url\":\"http://www.mdpi.com/1660-3397/17/2/131\",\"doi\":\"10.3390/md17020131\",\"abstract\":\"Sponges are a valuable source of natural compounds and biomaterials for many biotechnological applications. Marine sponges belonging to the order Verongiida are known to contain both chitin and biologically active bromotyrosines. Aplysina archeri (Aplysineidae: Verongiida) is well known to contain bromotyrosines with relevant bioactivity against human and animal diseases. The aim of this study was to develop an express method for the production of naturally prefabricated 3D chitin and bromotyrosine-containing extracts simultaneously. This new method is based on microwave irradiation (MWI) together with stepwise treatment using 1% sodium hydroxide, 20% acetic acid, and 30% hydrogen peroxide. This approach, which takes up to 1 h, made it possible to isolate chitin from the tube-like skeleton of A. archeri and to demonstrate the presence of this biopolymer in this sponge for the first time. Additionally, this procedure does not deacetylate chitin to chitosan and enables the recovery of ready-to-use 3D chitin scaffolds without destruction of the unique tube-like fibrous interconnected structure of the isolated biomaterial. Furthermore, these mechanically stressed fibers still have the capacity for saturation with water, methylene blue dye, crude oil, and blood, which is necessary for the application of such renewable 3D chitinous centimeter-sized scaffolds in diverse technological and biomedical fields.\",\"language\":\"en\",\"number\":\"2\",\"urldate\":\"2022-11-09\",\"journal\":\"Marine Drugs\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Klinger\"],\"firstnames\":[\"Christine\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Żółtowska-Aksamitowska\"],\"firstnames\":[\"Sonia\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wysokowski\"],\"firstnames\":[\"Marcin\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Tsurkan\"],\"firstnames\":[\"Mikhail\",\"V.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Galli\"],\"firstnames\":[\"Roberta\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Petrenko\"],\"firstnames\":[\"Iaroslav\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Machałowski\"],\"firstnames\":[\"Tomasz\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ereskovsky\"],\"firstnames\":[\"Alexander\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Martinović\"],\"firstnames\":[\"Rajko\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Muzychka\"],\"firstnames\":[\"Lyubov\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Smolii\"],\"firstnames\":[\"Oleg\",\"B.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bechmann\"],\"firstnames\":[\"Nicole\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ivanenko\"],\"firstnames\":[\"Viatcheslav\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Jesionowski\"],\"firstnames\":[\"Teofil\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Giovine\"],\"firstnames\":[\"Marco\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Joseph\"],\"firstnames\":[\"Yvonne\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bornstein\"],\"firstnames\":[\"Stefan\",\"R.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Voronkina\"],\"firstnames\":[\"Alona\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ehrlich\"],\"firstnames\":[\"Hermann\"],\"suffixes\":[]}],\"month\":\"February\",\"year\":\"2019\",\"pages\":\"131\",\"bibtex\":\"@article{klinger_express_2019,\\n\\ttitle = {Express {Method} for {Isolation} of {Ready}-to-{Use} {3D} {Chitin} {Scaffolds} from {Aplysina} archeri ({Aplysineidae}: {Verongiida}) {Demosponge}},\\n\\tvolume = {17},\\n\\tissn = {1660-3397},\\n\\tshorttitle = {Express {Method} for {Isolation} of {Ready}-to-{Use} {3D} {Chitin} {Scaffolds} from {Aplysina} archeri ({Aplysineidae}},\\n\\turl = {http://www.mdpi.com/1660-3397/17/2/131},\\n\\tdoi = {10.3390/md17020131},\\n\\tabstract = {Sponges are a valuable source of natural compounds and biomaterials for many biotechnological applications. Marine sponges belonging to the order Verongiida are known to contain both chitin and biologically active bromotyrosines. Aplysina archeri (Aplysineidae: Verongiida) is well known to contain bromotyrosines with relevant bioactivity against human and animal diseases. The aim of this study was to develop an express method for the production of naturally prefabricated 3D chitin and bromotyrosine-containing extracts simultaneously. This new method is based on microwave irradiation (MWI) together with stepwise treatment using 1\\\\% sodium hydroxide, 20\\\\% acetic acid, and 30\\\\% hydrogen peroxide. This approach, which takes up to 1 h, made it possible to isolate chitin from the tube-like skeleton of A. archeri and to demonstrate the presence of this biopolymer in this sponge for the first time. Additionally, this procedure does not deacetylate chitin to chitosan and enables the recovery of ready-to-use 3D chitin scaffolds without destruction of the unique tube-like fibrous interconnected structure of the isolated biomaterial. Furthermore, these mechanically stressed fibers still have the capacity for saturation with water, methylene blue dye, crude oil, and blood, which is necessary for the application of such renewable 3D chitinous centimeter-sized scaffolds in diverse technological and biomedical fields.},\\n\\tlanguage = {en},\\n\\tnumber = {2},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Marine Drugs},\\n\\tauthor = {Klinger, Christine and Żółtowska-Aksamitowska, Sonia and Wysokowski, Marcin and Tsurkan, Mikhail V. and Galli, Roberta and Petrenko, Iaroslav and Machałowski, Tomasz and Ereskovsky, Alexander and Martinović, Rajko and Muzychka, Lyubov and Smolii, Oleg B. and Bechmann, Nicole and Ivanenko, Viatcheslav and Schupp, Peter J. and Jesionowski, Teofil and Giovine, Marco and Joseph, Yvonne and Bornstein, Stefan R. and Voronkina, Alona and Ehrlich, Hermann},\\n\\tmonth = feb,\\n\\tyear = {2019},\\n\\tpages = {131},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Klinger, C.\",\"Żółtowska-Aksamitowska, S.\",\"Wysokowski, M.\",\"Tsurkan, M. V.\",\"Galli, R.\",\"Petrenko, I.\",\"Machałowski, T.\",\"Ereskovsky, A.\",\"Martinović, R.\",\"Muzychka, L.\",\"Smolii, O. B.\",\"Bechmann, N.\",\"Ivanenko, V.\",\"Schupp, P. J.\",\"Jesionowski, T.\",\"Giovine, M.\",\"Joseph, Y.\",\"Bornstein, S. R.\",\"Voronkina, A.\",\"Ehrlich, H.\"],\"key\":\"klinger_express_2019\",\"id\":\"klinger_express_2019\",\"bibbaseid\":\"klinger-towskaaksamitowska-wysokowski-tsurkan-galli-petrenko-machaowski-ereskovsky-etal-expressmethodforisolationofreadytouse3dchitinscaffoldsfromaplysinaarcheriaplysineidaeverongiidademosponge-2019\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://www.mdpi.com/1660-3397/17/2/131\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Prokaryotic Diversity and Community Patterns in Antarctic Continental Shelf Sponges\",\"volume\":\"6\",\"issn\":\"2296-7745\",\"url\":\"https://www.frontiersin.org/article/10.3389/fmars.2019.00297/full\",\"doi\":\"10.3389/fmars.2019.00297\",\"urldate\":\"2022-11-09\",\"journal\":\"Frontiers in Marine Science\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Steinert\"],\"firstnames\":[\"Georg\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wemheuer\"],\"firstnames\":[\"Bernd\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Janussen\"],\"firstnames\":[\"Dorte\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Erpenbeck\"],\"firstnames\":[\"Dirk\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Daniel\"],\"firstnames\":[\"Rolf\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Simon\"],\"firstnames\":[\"Meinhard\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Brinkhoff\"],\"firstnames\":[\"Thorsten\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"June\",\"year\":\"2019\",\"pages\":\"297\",\"bibtex\":\"@article{steinert_prokaryotic_2019,\\n\\ttitle = {Prokaryotic {Diversity} and {Community} {Patterns} in {Antarctic} {Continental} {Shelf} {Sponges}},\\n\\tvolume = {6},\\n\\tissn = {2296-7745},\\n\\turl = {https://www.frontiersin.org/article/10.3389/fmars.2019.00297/full},\\n\\tdoi = {10.3389/fmars.2019.00297},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Frontiers in Marine Science},\\n\\tauthor = {Steinert, Georg and Wemheuer, Bernd and Janussen, Dorte and Erpenbeck, Dirk and Daniel, Rolf and Simon, Meinhard and Brinkhoff, Thorsten and Schupp, Peter J.},\\n\\tmonth = jun,\\n\\tyear = {2019},\\n\\tpages = {297},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Steinert, G.\",\"Wemheuer, B.\",\"Janussen, D.\",\"Erpenbeck, D.\",\"Daniel, R.\",\"Simon, M.\",\"Brinkhoff, T.\",\"Schupp, P. J.\"],\"key\":\"steinert_prokaryotic_2019\",\"id\":\"steinert_prokaryotic_2019\",\"bibbaseid\":\"steinert-wemheuer-janussen-erpenbeck-daniel-simon-brinkhoff-schupp-prokaryoticdiversityandcommunitypatternsinantarcticcontinentalshelfsponges-2019\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.frontiersin.org/article/10.3389/fmars.2019.00297/full\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"incollection\",\"type\":\"incollection\",\"address\":\"Cham\",\"title\":\"Secondary Metabolites of Marine Microbes: From Natural Products Chemistry to Chemical Ecology\",\"isbn\":\"978-3-030-20388-7 978-3-030-20389-4\",\"shorttitle\":\"Secondary Metabolites of Marine Microbes\",\"url\":\"http://link.springer.com/10.1007/978-3-030-20389-4_8\",\"language\":\"en\",\"urldate\":\"2022-11-09\",\"booktitle\":\"YOUMARES 9 - The Oceans: Our Research, Our Future\",\"publisher\":\"Springer International Publishing\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Petersen\"],\"firstnames\":[\"Lars-Erik\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"editor\":[{\"propositions\":[],\"lastnames\":[\"Jungblut\"],\"firstnames\":[\"Simon\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Liebich\"],\"firstnames\":[\"Viola\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bode-Dalby\"],\"firstnames\":[\"Maya\"],\"suffixes\":[]}],\"year\":\"2020\",\"doi\":\"10.1007/978-3-030-20389-4_8\",\"pages\":\"159–180\",\"bibtex\":\"@incollection{jungblut_secondary_2020,\\n\\taddress = {Cham},\\n\\ttitle = {Secondary {Metabolites} of {Marine} {Microbes}: {From} {Natural} {Products} {Chemistry} to {Chemical} {Ecology}},\\n\\tisbn = {978-3-030-20388-7 978-3-030-20389-4},\\n\\tshorttitle = {Secondary {Metabolites} of {Marine} {Microbes}},\\n\\turl = {http://link.springer.com/10.1007/978-3-030-20389-4_8},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-09},\\n\\tbooktitle = {{YOUMARES} 9 - {The} {Oceans}: {Our} {Research}, {Our} {Future}},\\n\\tpublisher = {Springer International Publishing},\\n\\tauthor = {Petersen, Lars-Erik and Kellermann, Matthias Y. and Schupp, Peter J.},\\n\\teditor = {Jungblut, Simon and Liebich, Viola and Bode-Dalby, Maya},\\n\\tyear = {2020},\\n\\tdoi = {10.1007/978-3-030-20389-4_8},\\n\\tpages = {159--180},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Petersen, L.\",\"Kellermann, M. Y.\",\"Schupp, P. J.\"],\"editor_short\":[\"Jungblut, S.\",\"Liebich, V.\",\"Bode-Dalby, M.\"],\"key\":\"jungblut_secondary_2020\",\"id\":\"jungblut_secondary_2020\",\"bibbaseid\":\"petersen-kellermann-schupp-secondarymetabolitesofmarinemicrobesfromnaturalproductschemistrytochemicalecology-2020\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://link.springer.com/10.1007/978-3-030-20389-4_8\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Biotechnological Potential of Bacteria Isolated from the Sea Cucumber Holothuria leucospilota and Stichopus vastus from Lampung, Indonesia\",\"volume\":\"17\",\"issn\":\"1660-3397\",\"url\":\"https://www.mdpi.com/1660-3397/17/11/635\",\"doi\":\"10.3390/md17110635\",\"abstract\":\"In order to minimize re-discovery of already known anti-infective compounds, we focused our screening approach on understudied, almost untapped marine environments including marine invertebrates and their associated bacteria. Therefore, two sea cucumber species, Holothuria leucospilota and Stichopus vastus, were collected from Lampung (Indonesia), and 127 bacterial strains were identified by partial 16S rRNA-gene sequencing analysis and compared with the NCBI database. In addition, the overall bacterial diversity from tissue samples of the sea cucumbers H. leucospilota and S. vastus was analyzed using the cultivation-independent Illumina MiSEQ analysis. Selected bacterial isolates were grown to high densities and the extracted biomass was tested against a selection of bacteria and fungi as well as the hepatitis C virus (HCV). Identification of putative bioactive bacterial-derived compounds were performed by analyzing the accurate mass of the precursor/parent ions (MS1) as well as product/daughter ions (MS2) using high resolution mass spectrometry (HRMS) analysis of all active fractions. With this attempt we were able to identify 23 putatively known and two previously unidentified precursor ions. Moreover, through 16S rRNA-gene sequencing we were able to identify putatively novel bacterial species from the phyla Actinobacteria, Proteobacteria and also Firmicutes. Our findings suggest that sea cucumbers like H. leucospilota and S. vastus are promising sources for the isolation of novel bacterial species that produce compounds with potentially high biotechnological potential.\",\"language\":\"en\",\"number\":\"11\",\"urldate\":\"2022-11-09\",\"journal\":\"Marine Drugs\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Wibowo\"],\"firstnames\":[\"Joko\",\"T.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Versluis\"],\"firstnames\":[\"Dennis\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Putra\"],\"firstnames\":[\"Masteria\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Murniasih\"],\"firstnames\":[\"Tutik\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Mohr\"],\"firstnames\":[\"Kathrin\",\"I.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wink\"],\"firstnames\":[\"Joachim\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Engelmann\"],\"firstnames\":[\"Michael\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Praditya\"],\"firstnames\":[\"Dimas\",\"F.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Steinmann\"],\"firstnames\":[\"Eike\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"November\",\"year\":\"2019\",\"pages\":\"635\",\"bibtex\":\"@article{wibowo_biotechnological_2019,\\n\\ttitle = {Biotechnological {Potential} of {Bacteria} {Isolated} from the {Sea} {Cucumber} {Holothuria} leucospilota and {Stichopus} vastus from {Lampung}, {Indonesia}},\\n\\tvolume = {17},\\n\\tissn = {1660-3397},\\n\\turl = {https://www.mdpi.com/1660-3397/17/11/635},\\n\\tdoi = {10.3390/md17110635},\\n\\tabstract = {In order to minimize re-discovery of already known anti-infective compounds, we focused our screening approach on understudied, almost untapped marine environments including marine invertebrates and their associated bacteria. Therefore, two sea cucumber species, Holothuria leucospilota and Stichopus vastus, were collected from Lampung (Indonesia), and 127 bacterial strains were identified by partial 16S rRNA-gene sequencing analysis and compared with the NCBI database. In addition, the overall bacterial diversity from tissue samples of the sea cucumbers H. leucospilota and S. vastus was analyzed using the cultivation-independent Illumina MiSEQ analysis. Selected bacterial isolates were grown to high densities and the extracted biomass was tested against a selection of bacteria and fungi as well as the hepatitis C virus (HCV). Identification of putative bioactive bacterial-derived compounds were performed by analyzing the accurate mass of the precursor/parent ions (MS1) as well as product/daughter ions (MS2) using high resolution mass spectrometry (HRMS) analysis of all active fractions. With this attempt we were able to identify 23 putatively known and two previously unidentified precursor ions. Moreover, through 16S rRNA-gene sequencing we were able to identify putatively novel bacterial species from the phyla Actinobacteria, Proteobacteria and also Firmicutes. Our findings suggest that sea cucumbers like H. leucospilota and S. vastus are promising sources for the isolation of novel bacterial species that produce compounds with potentially high biotechnological potential.},\\n\\tlanguage = {en},\\n\\tnumber = {11},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Marine Drugs},\\n\\tauthor = {Wibowo, Joko T. and Kellermann, Matthias Y. and Versluis, Dennis and Putra, Masteria Y. and Murniasih, Tutik and Mohr, Kathrin I. and Wink, Joachim and Engelmann, Michael and Praditya, Dimas F. and Steinmann, Eike and Schupp, Peter J.},\\n\\tmonth = nov,\\n\\tyear = {2019},\\n\\tpages = {635},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Wibowo, J. T.\",\"Kellermann, M. Y.\",\"Versluis, D.\",\"Putra, M. Y.\",\"Murniasih, T.\",\"Mohr, K. I.\",\"Wink, J.\",\"Engelmann, M.\",\"Praditya, D. F.\",\"Steinmann, E.\",\"Schupp, P. J.\"],\"key\":\"wibowo_biotechnological_2019\",\"id\":\"wibowo_biotechnological_2019\",\"bibbaseid\":\"wibowo-kellermann-versluis-putra-murniasih-mohr-wink-engelmann-etal-biotechnologicalpotentialofbacteriaisolatedfromtheseacucumberholothurialeucospilotaandstichopusvastusfromlampungindonesia-2019\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/1660-3397/17/11/635\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"incollection\",\"type\":\"incollection\",\"address\":\"Cham\",\"title\":\"Chemical Biodiversity and Bioactivities of Saponins in Echinodermata with an Emphasis on Sea Cucumbers (Holothuroidea)\",\"isbn\":\"978-3-030-20388-7 978-3-030-20389-4\",\"url\":\"http://link.springer.com/10.1007/978-3-030-20389-4_7\",\"language\":\"en\",\"urldate\":\"2022-11-09\",\"booktitle\":\"YOUMARES 9 - The Oceans: Our Research, Our Future\",\"publisher\":\"Springer International Publishing\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Kamyab\"],\"firstnames\":[\"Elham\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kunzmann\"],\"firstnames\":[\"Andreas\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"editor\":[{\"propositions\":[],\"lastnames\":[\"Jungblut\"],\"firstnames\":[\"Simon\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Liebich\"],\"firstnames\":[\"Viola\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bode-Dalby\"],\"firstnames\":[\"Maya\"],\"suffixes\":[]}],\"year\":\"2020\",\"doi\":\"10.1007/978-3-030-20389-4_7\",\"pages\":\"121–157\",\"bibtex\":\"@incollection{jungblut_chemical_2020,\\n\\taddress = {Cham},\\n\\ttitle = {Chemical {Biodiversity} and {Bioactivities} of {Saponins} in {Echinodermata} with an {Emphasis} on {Sea} {Cucumbers} ({Holothuroidea})},\\n\\tisbn = {978-3-030-20388-7 978-3-030-20389-4},\\n\\turl = {http://link.springer.com/10.1007/978-3-030-20389-4_7},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-09},\\n\\tbooktitle = {{YOUMARES} 9 - {The} {Oceans}: {Our} {Research}, {Our} {Future}},\\n\\tpublisher = {Springer International Publishing},\\n\\tauthor = {Kamyab, Elham and Kellermann, Matthias Y. and Kunzmann, Andreas and Schupp, Peter J.},\\n\\teditor = {Jungblut, Simon and Liebich, Viola and Bode-Dalby, Maya},\\n\\tyear = {2020},\\n\\tdoi = {10.1007/978-3-030-20389-4_7},\\n\\tpages = {121--157},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Kamyab, E.\",\"Kellermann, M. Y.\",\"Kunzmann, A.\",\"Schupp, P. J.\"],\"editor_short\":[\"Jungblut, S.\",\"Liebich, V.\",\"Bode-Dalby, M.\"],\"key\":\"jungblut_chemical_2020\",\"id\":\"jungblut_chemical_2020\",\"bibbaseid\":\"kamyab-kellermann-kunzmann-schupp-chemicalbiodiversityandbioactivitiesofsaponinsinechinodermatawithanemphasisonseacucumbersholothuroidea-2020\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://link.springer.com/10.1007/978-3-030-20389-4_7\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Shading by marine litter impairs the health of the two Indo-Pacific scleractinian corals Porites rus and Pavona cactus\",\"volume\":\"158\",\"issn\":\"0025326X\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0025326X20305476\",\"doi\":\"10.1016/j.marpolbul.2020.111429\",\"language\":\"en\",\"urldate\":\"2022-11-09\",\"journal\":\"Marine Pollution Bulletin\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Mueller\"],\"firstnames\":[\"Jasmin\",\"S.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"September\",\"year\":\"2020\",\"pages\":\"111429\",\"bibtex\":\"@article{mueller_shading_2020,\\n\\ttitle = {Shading by marine litter impairs the health of the two {Indo}-{Pacific} scleractinian corals {Porites} rus and {Pavona} cactus},\\n\\tvolume = {158},\\n\\tissn = {0025326X},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0025326X20305476},\\n\\tdoi = {10.1016/j.marpolbul.2020.111429},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Marine Pollution Bulletin},\\n\\tauthor = {Mueller, Jasmin S. and Schupp, Peter J.},\\n\\tmonth = sep,\\n\\tyear = {2020},\\n\\tpages = {111429},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Mueller, J. S.\",\"Schupp, P. J.\"],\"key\":\"mueller_shading_2020\",\"id\":\"mueller_shading_2020\",\"bibbaseid\":\"mueller-schupp-shadingbymarinelitterimpairsthehealthofthetwoindopacificscleractiniancoralsporitesrusandpavonacactus-2020\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0025326X20305476\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Anti-Fouling Effects of Saponin-Containing Crude Extracts from Tropical Indo-Pacific Sea Cucumbers\",\"volume\":\"18\",\"issn\":\"1660-3397\",\"url\":\"https://www.mdpi.com/1660-3397/18/4/181\",\"doi\":\"10.3390/md18040181\",\"abstract\":\"Sea cucumbers are bottom dwelling invertebrates, which are mostly found on subtropical and tropical sea grass beds, sandy reef flats, or reef slopes. Although constantly exposed to fouling communities in these habitats, many species are surprisingly free of invertebrate epibionts and microfouling algae such as diatoms. In our study, we investigated the anti-fouling (AF) activities of different crude extracts of tropical Indo-Pacific sea cucumber species against the fouling diatom Cylindrotheca closterium. Nine sea cucumber species from three genera (i.e., Holothuria, Bohadschia, Actinopyga) were selected and extracted to assess their AF activities. To verify whether the sea cucumber characteristic triterpene glycosides were responsible for the observed potent AF activities, we tested purified fractions enriched in saponins isolated from Bohadschia argus, representing one of the most active anti-fouling extracts. Saponins were quantified by vanillin-sulfuric acid colorimetric assays and identified by LC-MS and LC-MS/MS analyses. We were able to demonstrate that AF activities in sea cucumber extracts were species-specific, and growth inhibition as well as attachment of the diatom to surfaces is dependent on the saponin concentration (i.e., Actinopyga contained the highest quantities), as well as on the molecular composition and structure of the present saponins (i.e., Bivittoside D derivative was the most bioactive compound). In conclusion, the here performed AF assay represents a promising and fast method for selecting the most promising bioactive organism as well as for identifying novel compounds with potent AF activities for the discovery of potentially novel pharmacologically active natural products.\",\"language\":\"en\",\"number\":\"4\",\"urldate\":\"2022-11-09\",\"journal\":\"Marine Drugs\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Kamyab\"],\"firstnames\":[\"Elham\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Goebeler\"],\"firstnames\":[\"Norman\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Reverter\"],\"firstnames\":[\"Miriam\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Striebel\"],\"firstnames\":[\"Maren\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"March\",\"year\":\"2020\",\"pages\":\"181\",\"bibtex\":\"@article{kamyab_anti-fouling_2020,\\n\\ttitle = {Anti-{Fouling} {Effects} of {Saponin}-{Containing} {Crude} {Extracts} from {Tropical} {Indo}-{Pacific} {Sea} {Cucumbers}},\\n\\tvolume = {18},\\n\\tissn = {1660-3397},\\n\\turl = {https://www.mdpi.com/1660-3397/18/4/181},\\n\\tdoi = {10.3390/md18040181},\\n\\tabstract = {Sea cucumbers are bottom dwelling invertebrates, which are mostly found on subtropical and tropical sea grass beds, sandy reef flats, or reef slopes. Although constantly exposed to fouling communities in these habitats, many species are surprisingly free of invertebrate epibionts and microfouling algae such as diatoms. In our study, we investigated the anti-fouling (AF) activities of different crude extracts of tropical Indo-Pacific sea cucumber species against the fouling diatom Cylindrotheca closterium. Nine sea cucumber species from three genera (i.e., Holothuria, Bohadschia, Actinopyga) were selected and extracted to assess their AF activities. To verify whether the sea cucumber characteristic triterpene glycosides were responsible for the observed potent AF activities, we tested purified fractions enriched in saponins isolated from Bohadschia argus, representing one of the most active anti-fouling extracts. Saponins were quantified by vanillin-sulfuric acid colorimetric assays and identified by LC-MS and LC-MS/MS analyses. We were able to demonstrate that AF activities in sea cucumber extracts were species-specific, and growth inhibition as well as attachment of the diatom to surfaces is dependent on the saponin concentration (i.e., Actinopyga contained the highest quantities), as well as on the molecular composition and structure of the present saponins (i.e., Bivittoside D derivative was the most bioactive compound). In conclusion, the here performed AF assay represents a promising and fast method for selecting the most promising bioactive organism as well as for identifying novel compounds with potent AF activities for the discovery of potentially novel pharmacologically active natural products.},\\n\\tlanguage = {en},\\n\\tnumber = {4},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Marine Drugs},\\n\\tauthor = {Kamyab, Elham and Goebeler, Norman and Kellermann, Matthias Y. and Rohde, Sven and Reverter, Miriam and Striebel, Maren and Schupp, Peter J.},\\n\\tmonth = mar,\\n\\tyear = {2020},\\n\\tpages = {181},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Kamyab, E.\",\"Goebeler, N.\",\"Kellermann, M. Y.\",\"Rohde, S.\",\"Reverter, M.\",\"Striebel, M.\",\"Schupp, P. J.\"],\"key\":\"kamyab_anti-fouling_2020\",\"id\":\"kamyab_anti-fouling_2020\",\"bibbaseid\":\"kamyab-goebeler-kellermann-rohde-reverter-striebel-schupp-antifoulingeffectsofsaponincontainingcrudeextractsfromtropicalindopacificseacucumbers-2020\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/1660-3397/18/4/181\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Compositional and Quantitative Insights Into Bacterial and Archaeal Communities of South Pacific Deep-Sea Sponges (Demospongiae and Hexactinellida)\",\"volume\":\"11\",\"issn\":\"1664-302X\",\"url\":\"https://www.frontiersin.org/article/10.3389/fmicb.2020.00716/full\",\"doi\":\"10.3389/fmicb.2020.00716\",\"urldate\":\"2022-11-09\",\"journal\":\"Frontiers in Microbiology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Steinert\"],\"firstnames\":[\"Georg\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Busch\"],\"firstnames\":[\"Kathrin\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bayer\"],\"firstnames\":[\"Kristina\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kodami\"],\"firstnames\":[\"Sahar\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Arbizu\"],\"firstnames\":[\"Pedro\",\"Martinez\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kelly\"],\"firstnames\":[\"Michelle\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Mills\"],\"firstnames\":[\"Sadie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Erpenbeck\"],\"firstnames\":[\"Dirk\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Dohrmann\"],\"firstnames\":[\"Martin\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wörheide\"],\"firstnames\":[\"Gert\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hentschel\"],\"firstnames\":[\"Ute\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"April\",\"year\":\"2020\",\"pages\":\"716\",\"bibtex\":\"@article{steinert_compositional_2020,\\n\\ttitle = {Compositional and {Quantitative} {Insights} {Into} {Bacterial} and {Archaeal} {Communities} of {South} {Pacific} {Deep}-{Sea} {Sponges} ({Demospongiae} and {Hexactinellida})},\\n\\tvolume = {11},\\n\\tissn = {1664-302X},\\n\\turl = {https://www.frontiersin.org/article/10.3389/fmicb.2020.00716/full},\\n\\tdoi = {10.3389/fmicb.2020.00716},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Frontiers in Microbiology},\\n\\tauthor = {Steinert, Georg and Busch, Kathrin and Bayer, Kristina and Kodami, Sahar and Arbizu, Pedro Martinez and Kelly, Michelle and Mills, Sadie and Erpenbeck, Dirk and Dohrmann, Martin and Wörheide, Gert and Hentschel, Ute and Schupp, Peter J.},\\n\\tmonth = apr,\\n\\tyear = {2020},\\n\\tpages = {716},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Steinert, G.\",\"Busch, K.\",\"Bayer, K.\",\"Kodami, S.\",\"Arbizu, P. M.\",\"Kelly, M.\",\"Mills, S.\",\"Erpenbeck, D.\",\"Dohrmann, M.\",\"Wörheide, G.\",\"Hentschel, U.\",\"Schupp, P. J.\"],\"key\":\"steinert_compositional_2020\",\"id\":\"steinert_compositional_2020\",\"bibbaseid\":\"steinert-busch-bayer-kodami-arbizu-kelly-mills-erpenbeck-etal-compositionalandquantitativeinsightsintobacterialandarchaealcommunitiesofsouthpacificdeepseaspongesdemospongiaeandhexactinellida-2020\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.frontiersin.org/article/10.3389/fmicb.2020.00716/full\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Metabolomics and Marine Biotechnology: Coupling Metabolite Profiling and Organism Biology for the Discovery of New Compounds\",\"volume\":\"7\",\"issn\":\"2296-7745\",\"shorttitle\":\"Metabolomics and Marine Biotechnology\",\"url\":\"https://www.frontiersin.org/articles/10.3389/fmars.2020.613471/full\",\"doi\":\"10.3389/fmars.2020.613471\",\"abstract\":\"The high diversity of marine natural products represents promising opportunities for drug discovery, an important area in marine biotechnology. Within this context, high-throughput techniques such as metabolomics are extremely useful in unveiling unexplored chemical diversity at much faster rates than classical bioassay-guided approaches. Metabolomics approaches enable studying large sets of metabolites, even if they are produced at low concentrations. Although, metabolite identification remains the main metabolomics bottleneck, bioinformatic tools such as molecular networks can lead to the annotation of unknown metabolites and discovery of new compounds. A metabolomic approach in drug discovery has two major advantages: it enables analyses of multiple samples, allowing fast dereplication of already known compounds and provides a unique opportunity to relate metabolite profiles to organisms’ biology. Understanding the ecological and biological factors behind a certain metabolite production can be extremely useful in enhancing compound yields, optimizing compound extraction or in selecting bioactive compounds. Metazoan-associated microbiota are often responsible for metabolite synthesis, however, classical approaches only allow studying metabolites produced from cultivatable microbiota, which often differ from the compounds produced within the host. Therefore, coupling holobiome metabolomics with microbiome analysis can bring new insights to the role of microbiota in compound production. The ultimate potential of metabolomics is its coupling with other “omics” (i.e., transcriptomics and metagenomics). Although, such approaches are still challenging, especially in non-model species where genomes have not been annotated, this innovative approach is extremely valuable in elucidating gene clusters associated with biosynthetic pathways and will certainly become increasingly important in marine drug discovery.\",\"urldate\":\"2022-11-09\",\"journal\":\"Frontiers in Marine Science\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Reverter\"],\"firstnames\":[\"Miriam\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Parchemin\"],\"firstnames\":[\"Christelle\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Tapissier-Bontemps\"],\"firstnames\":[\"Nathalie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2020\",\"pages\":\"613471\",\"bibtex\":\"@article{reverter_metabolomics_2020,\\n\\ttitle = {Metabolomics and {Marine} {Biotechnology}: {Coupling} {Metabolite} {Profiling} and {Organism} {Biology} for the {Discovery} of {New} {Compounds}},\\n\\tvolume = {7},\\n\\tissn = {2296-7745},\\n\\tshorttitle = {Metabolomics and {Marine} {Biotechnology}},\\n\\turl = {https://www.frontiersin.org/articles/10.3389/fmars.2020.613471/full},\\n\\tdoi = {10.3389/fmars.2020.613471},\\n\\tabstract = {The high diversity of marine natural products represents promising opportunities for drug discovery, an important area in marine biotechnology. Within this context, high-throughput techniques such as metabolomics are extremely useful in unveiling unexplored chemical diversity at much faster rates than classical bioassay-guided approaches. Metabolomics approaches enable studying large sets of metabolites, even if they are produced at low concentrations. Although, metabolite identification remains the main metabolomics bottleneck, bioinformatic tools such as molecular networks can lead to the annotation of unknown metabolites and discovery of new compounds. A metabolomic approach in drug discovery has two major advantages: it enables analyses of multiple samples, allowing fast dereplication of already known compounds and provides a unique opportunity to relate metabolite profiles to organisms’ biology. Understanding the ecological and biological factors behind a certain metabolite production can be extremely useful in enhancing compound yields, optimizing compound extraction or in selecting bioactive compounds. Metazoan-associated microbiota are often responsible for metabolite synthesis, however, classical approaches only allow studying metabolites produced from cultivatable microbiota, which often differ from the compounds produced within the host. Therefore, coupling holobiome metabolomics with microbiome analysis can bring new insights to the role of microbiota in compound production. The ultimate potential of metabolomics is its coupling with other “omics” (i.e., transcriptomics and metagenomics). Although, such approaches are still challenging, especially in non-model species where genomes have not been annotated, this innovative approach is extremely valuable in elucidating gene clusters associated with biosynthetic pathways and will certainly become increasingly important in marine drug discovery.},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Frontiers in Marine Science},\\n\\tauthor = {Reverter, Miriam and Rohde, Sven and Parchemin, Christelle and Tapissier-Bontemps, Nathalie and Schupp, Peter J.},\\n\\tmonth = dec,\\n\\tyear = {2020},\\n\\tpages = {613471},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Reverter, M.\",\"Rohde, S.\",\"Parchemin, C.\",\"Tapissier-Bontemps, N.\",\"Schupp, P. J.\"],\"key\":\"reverter_metabolomics_2020\",\"id\":\"reverter_metabolomics_2020\",\"bibbaseid\":\"reverter-rohde-parchemin-tapissierbontemps-schupp-metabolomicsandmarinebiotechnologycouplingmetaboliteprofilingandorganismbiologyforthediscoveryofnewcompounds-2020\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.frontiersin.org/articles/10.3389/fmars.2020.613471/full\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"UV filters used in sunscreens—A lack in current coral protection?\",\"volume\":\"17\",\"issn\":\"1551-3777, 1551-3793\",\"url\":\"https://onlinelibrary.wiley.com/doi/10.1002/ieam.4454\",\"doi\":\"10.1002/ieam.4454\",\"language\":\"en\",\"number\":\"5\",\"urldate\":\"2022-11-09\",\"journal\":\"Integrated Environmental Assessment and Management\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Pawlowski\"],\"firstnames\":[\"Sascha\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Moeller\"],\"firstnames\":[\"Mareen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Miller\"],\"firstnames\":[\"Ingo\",\"B.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Petersen‐Thiery\"],\"firstnames\":[\"Mechtild\"],\"suffixes\":[]}],\"month\":\"September\",\"year\":\"2021\",\"pages\":\"926–939\",\"bibtex\":\"@article{pawlowski_uv_2021,\\n\\ttitle = {{UV} filters used in sunscreens—{A} lack in current coral protection?},\\n\\tvolume = {17},\\n\\tissn = {1551-3777, 1551-3793},\\n\\turl = {https://onlinelibrary.wiley.com/doi/10.1002/ieam.4454},\\n\\tdoi = {10.1002/ieam.4454},\\n\\tlanguage = {en},\\n\\tnumber = {5},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Integrated Environmental Assessment and Management},\\n\\tauthor = {Pawlowski, Sascha and Moeller, Mareen and Miller, Ingo B. and Kellermann, Matthias Y. and Schupp, Peter J. and Petersen‐Thiery, Mechtild},\\n\\tmonth = sep,\\n\\tyear = {2021},\\n\\tpages = {926--939},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Pawlowski, S.\",\"Moeller, M.\",\"Miller, I. B.\",\"Kellermann, M. Y.\",\"Schupp, P. J.\",\"Petersen‐Thiery, M.\"],\"key\":\"pawlowski_uv_2021\",\"id\":\"pawlowski_uv_2021\",\"bibbaseid\":\"pawlowski-moeller-miller-kellermann-schupp-petersenthiery-uvfiltersusedinsunscreensalackincurrentcoralprotection-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://onlinelibrary.wiley.com/doi/10.1002/ieam.4454\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Chemical Defense Mechanisms and Ecological Implications of Indo-Pacific Holothurians\",\"volume\":\"25\",\"issn\":\"1420-3049\",\"url\":\"https://www.mdpi.com/1420-3049/25/20/4808\",\"doi\":\"10.3390/molecules25204808\",\"abstract\":\"Sea cucumbers are slow-moving organisms that use morphological, but also a diverse combination of chemical defenses to improve their overall fitness and chances of survival. Since chemical defense compounds are also of great pharmaceutical interest, we pinpoint the importance of biological screenings that are a relatively fast, informative and inexpensive way to identify the most bioactive organisms prior to further costly and elaborate pharmacological screenings. In this study, we investigated the presence and absence of chemical defenses of 14 different sea cucumber species from three families (Holothuriidae, Stichopodidae and Synaptidae) against ecological factors such as predation and pathogenic attacks. We used the different sea cucumber crude extracts as well as purified fractions and pure saponin compounds in a portfolio of ecological activity tests including fish feeding assays, cytotoxicity tests and antimicrobial assays against environmental pathogenic and non-pathogenic bacteria. Furthermore, we quantified and correlated the concentrations of sea cucumber characteristic saponin compounds as effective chemical defensive compounds in all 14 crude extracts by using the vanillin–sulfuric acid test. The initial results revealed that among all tested sea cucumber species that were defended against at least one ecological threat (predation and/or bacterial attack), Bohadschiaargus, Stichopuscholoronotus and Holothuria fuscopunctata were the three most promising bioactive sea cucumber species. Therefore, following further fractionation and purification attempts, we also tested saponin-containing butanol fractions of the latter, as well as two purified saponin species from B. argus. We could demonstrate that both, the amount of saponin compounds and their structure likely play a significant role in the chemical defense strategy of the sea cucumbers. Our study concludes that the chemical and morphological defense mechanisms (and combinations thereof) differ among the ecological strategies of the investigated holothurian species in order to increase their general fitness and level of survival. Finally, our observations and experiments on the chemical ecology of marine organisms can not only lead to a better understanding of their ecology and environmental roles but also can help in the better selection of bioactive organisms/compounds for the discovery of novel, pharmacologically active secondary metabolites in the near future.\",\"language\":\"en\",\"number\":\"20\",\"urldate\":\"2022-11-09\",\"journal\":\"Molecules\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Kamyab\"],\"firstnames\":[\"Elham\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"October\",\"year\":\"2020\",\"pages\":\"4808\",\"bibtex\":\"@article{kamyab_chemical_2020,\\n\\ttitle = {Chemical {Defense} {Mechanisms} and {Ecological} {Implications} of {Indo}-{Pacific} {Holothurians}},\\n\\tvolume = {25},\\n\\tissn = {1420-3049},\\n\\turl = {https://www.mdpi.com/1420-3049/25/20/4808},\\n\\tdoi = {10.3390/molecules25204808},\\n\\tabstract = {Sea cucumbers are slow-moving organisms that use morphological, but also a diverse combination of chemical defenses to improve their overall fitness and chances of survival. Since chemical defense compounds are also of great pharmaceutical interest, we pinpoint the importance of biological screenings that are a relatively fast, informative and inexpensive way to identify the most bioactive organisms prior to further costly and elaborate pharmacological screenings. In this study, we investigated the presence and absence of chemical defenses of 14 different sea cucumber species from three families (Holothuriidae, Stichopodidae and Synaptidae) against ecological factors such as predation and pathogenic attacks. We used the different sea cucumber crude extracts as well as purified fractions and pure saponin compounds in a portfolio of ecological activity tests including fish feeding assays, cytotoxicity tests and antimicrobial assays against environmental pathogenic and non-pathogenic bacteria. Furthermore, we quantified and correlated the concentrations of sea cucumber characteristic saponin compounds as effective chemical defensive compounds in all 14 crude extracts by using the vanillin–sulfuric acid test. The initial results revealed that among all tested sea cucumber species that were defended against at least one ecological threat (predation and/or bacterial attack), Bohadschiaargus, Stichopuscholoronotus and Holothuria fuscopunctata were the three most promising bioactive sea cucumber species. Therefore, following further fractionation and purification attempts, we also tested saponin-containing butanol fractions of the latter, as well as two purified saponin species from B. argus. We could demonstrate that both, the amount of saponin compounds and their structure likely play a significant role in the chemical defense strategy of the sea cucumbers. Our study concludes that the chemical and morphological defense mechanisms (and combinations thereof) differ among the ecological strategies of the investigated holothurian species in order to increase their general fitness and level of survival. Finally, our observations and experiments on the chemical ecology of marine organisms can not only lead to a better understanding of their ecology and environmental roles but also can help in the better selection of bioactive organisms/compounds for the discovery of novel, pharmacologically active secondary metabolites in the near future.},\\n\\tlanguage = {en},\\n\\tnumber = {20},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Molecules},\\n\\tauthor = {Kamyab, Elham and Rohde, Sven and Kellermann, Matthias Y. and Schupp, Peter J.},\\n\\tmonth = oct,\\n\\tyear = {2020},\\n\\tpages = {4808},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Kamyab, E.\",\"Rohde, S.\",\"Kellermann, M. Y.\",\"Schupp, P. J.\"],\"key\":\"kamyab_chemical_2020\",\"id\":\"kamyab_chemical_2020\",\"bibbaseid\":\"kamyab-rohde-kellermann-schupp-chemicaldefensemechanismsandecologicalimplicationsofindopacificholothurians-2020\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/1420-3049/25/20/4808\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"The role of host promiscuity in the invasion process of a seaweed holobiont\",\"volume\":\"15\",\"copyright\":\"Creative Commons Attribution 4.0 International License (CC-BY)\",\"issn\":\"1751-7362, 1751-7370\",\"url\":\"http://www.nature.com/articles/s41396-020-00878-7\",\"doi\":\"10.1038/s41396-020-00878-7\",\"abstract\":\"Invasive species are co-introduced with microbiota from their native range and also interact with microbiota found in the novel environment to which they are introduced. Host flexibility toward microbiota, or host promiscuity, is an important trait underlying terrestrial plant invasions. To test whether host promiscuity may be important in macroalgal invasions, we experimentally simulated an invasion in a common garden setting, using the widespread invasive macroalga Agarophyton vermiculophyllum as a model invasive seaweed holobiont. After disturbing the microbiota of individuals from native and non-native populations with antibiotics, we monitored the microbial succession trajectories in the presence of a new source of microbes. Microbial communities were strongly impacted by the treatment and changed compositionally and in terms of diversity but recovered functionally by the end of the experiment in most respects. Beta-diversity in disturbed holobionts strongly decreased, indicating that different populations configure more similar –or more common– microbial communities when exposed to the same conditions. This decline in beta-diversity occurred not only more rapidly, but was also more pronounced in non-native populations, while individuals from native populations retained communities more similar to those observed in the field. This study demonstrates that microbial communities of non-native A. vermiculophyllum are more flexibly adjusted to the environment and suggests that an intraspecific increase in host promiscuity has promoted the invasion process of A. vermiculophyllum. This phenomenon may be important among invasive macroalgal holobionts in general.\",\"language\":\"en\",\"number\":\"6\",\"urldate\":\"2022-11-09\",\"journal\":\"The ISME Journal\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Bonthond\"],\"firstnames\":[\"Guido\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bayer\"],\"firstnames\":[\"Till\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Krueger-Hadfield\"],\"firstnames\":[\"Stacy\",\"A.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Stärck\"],\"firstnames\":[\"Nadja\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wang\"],\"firstnames\":[\"Gaoge\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nakaoka\"],\"firstnames\":[\"Masahiro\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Künzel\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Weinberger\"],\"firstnames\":[\"Florian\"],\"suffixes\":[]}],\"month\":\"June\",\"year\":\"2021\",\"pages\":\"1668–1679\",\"bibtex\":\"@article{bonthond_role_2021,\\n\\ttitle = {The role of host promiscuity in the invasion process of a seaweed holobiont},\\n\\tvolume = {15},\\n\\tcopyright = {Creative Commons Attribution 4.0 International License (CC-BY)},\\n\\tissn = {1751-7362, 1751-7370},\\n\\turl = {http://www.nature.com/articles/s41396-020-00878-7},\\n\\tdoi = {10.1038/s41396-020-00878-7},\\n\\tabstract = {Invasive species are co-introduced with microbiota from their native range and also interact with microbiota found in the novel environment to which they are introduced. Host flexibility toward microbiota, or host promiscuity, is an important trait underlying terrestrial plant invasions. To test whether host promiscuity may be important in macroalgal invasions, we experimentally simulated an invasion in a common garden setting, using the widespread invasive macroalga Agarophyton vermiculophyllum as a model invasive seaweed holobiont. After disturbing the microbiota of individuals from native and non-native populations with antibiotics, we monitored the microbial succession trajectories in the presence of a new source of microbes. Microbial communities were strongly impacted by the treatment and changed compositionally and in terms of diversity but recovered functionally by the end of the experiment in most respects. Beta-diversity in disturbed holobionts strongly decreased, indicating that different populations configure more similar –or more common– microbial communities when exposed to the same conditions. This decline in beta-diversity occurred not only more rapidly, but was also more pronounced in non-native populations, while individuals from native populations retained communities more similar to those observed in the field. This study demonstrates that microbial communities of non-native A. vermiculophyllum are more flexibly adjusted to the environment and suggests that an intraspecific increase in host promiscuity has promoted the invasion process of A. vermiculophyllum. This phenomenon may be important among invasive macroalgal holobionts in general.},\\n\\tlanguage = {en},\\n\\tnumber = {6},\\n\\turldate = {2022-11-09},\\n\\tjournal = {The ISME Journal},\\n\\tauthor = {Bonthond, Guido and Bayer, Till and Krueger-Hadfield, Stacy A. and Stärck, Nadja and Wang, Gaoge and Nakaoka, Masahiro and Künzel, Sven and Weinberger, Florian},\\n\\tmonth = jun,\\n\\tyear = {2021},\\n\\tpages = {1668--1679},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Bonthond, G.\",\"Bayer, T.\",\"Krueger-Hadfield, S. A.\",\"Stärck, N.\",\"Wang, G.\",\"Nakaoka, M.\",\"Künzel, S.\",\"Weinberger, F.\"],\"key\":\"bonthond_role_2021\",\"id\":\"bonthond_role_2021\",\"bibbaseid\":\"bonthond-bayer-kruegerhadfield-strck-wang-nakaoka-knzel-weinberger-theroleofhostpromiscuityintheinvasionprocessofaseaweedholobiont-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://www.nature.com/articles/s41396-020-00878-7\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Intraspecific diversity and genetic structure in the widespread macroalga <i>Agarophyton vermiculophyllum</i>\",\"volume\":\"57\",\"issn\":\"0022-3646, 1529-8817\",\"url\":\"https://onlinelibrary.wiley.com/doi/10.1111/jpy.13195\",\"doi\":\"10.1111/jpy.13195\",\"language\":\"en\",\"number\":\"5\",\"urldate\":\"2022-11-03\",\"journal\":\"Journal of Phycology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Krueger‐Hadfield\"],\"firstnames\":[\"Stacy\",\"A.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Byers\"],\"firstnames\":[\"James\",\"E.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bonthond\"],\"firstnames\":[\"Guido\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Terada\"],\"firstnames\":[\"Ryuta\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Weinberger\"],\"firstnames\":[\"Florian\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Sotka\"],\"firstnames\":[\"Erik\",\"E.\"],\"suffixes\":[]}],\"editor\":[{\"propositions\":[],\"lastnames\":[\"Graham\"],\"firstnames\":[\"Michael\"],\"suffixes\":[]}],\"month\":\"October\",\"year\":\"2021\",\"pages\":\"1403–1410\",\"bibtex\":\"@article{kruegerhadfield_intraspecific_2021,\\n\\ttitle = {Intraspecific diversity and genetic structure in the widespread macroalga \\\\textit{{Agarophyton} vermiculophyllum}},\\n\\tvolume = {57},\\n\\tissn = {0022-3646, 1529-8817},\\n\\turl = {https://onlinelibrary.wiley.com/doi/10.1111/jpy.13195},\\n\\tdoi = {10.1111/jpy.13195},\\n\\tlanguage = {en},\\n\\tnumber = {5},\\n\\turldate = {2022-11-03},\\n\\tjournal = {Journal of Phycology},\\n\\tauthor = {Krueger‐Hadfield, Stacy A. and Byers, James E. and Bonthond, Guido and Terada, Ryuta and Weinberger, Florian and Sotka, Erik E.},\\n\\teditor = {Graham, Michael},\\n\\tmonth = oct,\\n\\tyear = {2021},\\n\\tpages = {1403--1410},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Krueger‐Hadfield, S. A.\",\"Byers, J. E.\",\"Bonthond, G.\",\"Terada, R.\",\"Weinberger, F.\",\"Sotka, E. E.\"],\"editor_short\":[\"Graham, M.\"],\"key\":\"kruegerhadfield_intraspecific_2021\",\"id\":\"kruegerhadfield_intraspecific_2021\",\"bibbaseid\":\"kruegerhadfield-byers-bonthond-terada-weinberger-sotka-intraspecificdiversityandgeneticstructureinthewidespreadmacroalgaiagarophytonvermiculophyllumi-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://onlinelibrary.wiley.com/doi/10.1111/jpy.13195\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Draft genome and description of Waterburya agarophytonicola gen. nov. sp. nov. (Pleurocapsales, Cyanobacteria): a seaweed symbiont\",\"volume\":\"114\",\"issn\":\"0003-6072, 1572-9699\",\"shorttitle\":\"Draft genome and description of Waterburya agarophytonicola gen. nov. sp. nov. (Pleurocapsales, Cyanobacteria)\",\"url\":\"https://link.springer.com/10.1007/s10482-021-01672-x\",\"doi\":\"10.1007/s10482-021-01672-x\",\"abstract\":\"Abstract This work introduces Waterburya agarophytonicola Bonthond and Shalygin gen. nov., sp. nov, a baeocyte producing cyanobacterium that was isolated from the rhodophyte Agarophyton vermiculophyllum (Ohmi) Gurgel et al., an invasive seaweed that has spread across the northern hemisphere. The new species genome reveals a diverse repertoire of chemotaxis and adhesion related genes, including genes coding for type IV pili assembly proteins and a high number of genes coding for filamentous hemagglutinin family (FHA) proteins. Among a genetic basis for the synthesis of siderophores, carotenoids and numerous vitamins, W. agarophytonicola is potentially capable of producing cobalamin (vitamin B 12 ), for which A . vermiculophyllum is an auxotroph. With a taxonomic description of the genus and species and a draft genome, this study provides as a basis for future research, to uncover the nature of this geographically independent association between seaweed and cyanobiont.\",\"language\":\"en\",\"number\":\"12\",\"urldate\":\"2022-11-03\",\"journal\":\"Antonie van Leeuwenhoek\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Bonthond\"],\"firstnames\":[\"Guido\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Shalygin\"],\"firstnames\":[\"Sergei\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bayer\"],\"firstnames\":[\"Till\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Weinberger\"],\"firstnames\":[\"Florian\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2021\",\"pages\":\"2189–2203\",\"bibtex\":\"@article{bonthond_draft_2021,\\n\\ttitle = {Draft genome and description of {Waterburya} agarophytonicola gen. nov. sp. nov. ({Pleurocapsales}, {Cyanobacteria}): a seaweed symbiont},\\n\\tvolume = {114},\\n\\tissn = {0003-6072, 1572-9699},\\n\\tshorttitle = {Draft genome and description of {Waterburya} agarophytonicola gen. nov. sp. nov. ({Pleurocapsales}, {Cyanobacteria})},\\n\\turl = {https://link.springer.com/10.1007/s10482-021-01672-x},\\n\\tdoi = {10.1007/s10482-021-01672-x},\\n\\tabstract = {Abstract\\n            \\n              This work introduces\\n              Waterburya agarophytonicola\\n              Bonthond and Shalygin gen. nov., sp. nov, a baeocyte producing cyanobacterium that was isolated from the rhodophyte\\n              Agarophyton vermiculophyllum\\n              (Ohmi) Gurgel et al., an invasive seaweed that has spread across the northern hemisphere. The new species genome reveals a diverse repertoire of chemotaxis and adhesion related genes, including genes coding for type IV pili assembly proteins and a high number of genes coding for filamentous hemagglutinin family (FHA) proteins. Among a genetic basis for the synthesis of siderophores, carotenoids and numerous vitamins,\\n              W. agarophytonicola\\n              is potentially capable of producing cobalamin (vitamin B\\n              12\\n              ), for which\\n              A\\n              .\\n              vermiculophyllum\\n              is an auxotroph. With a taxonomic description of the genus and species and a draft genome, this study provides as a basis for future research, to uncover the nature of this geographically independent association between seaweed and cyanobiont.},\\n\\tlanguage = {en},\\n\\tnumber = {12},\\n\\turldate = {2022-11-03},\\n\\tjournal = {Antonie van Leeuwenhoek},\\n\\tauthor = {Bonthond, Guido and Shalygin, Sergei and Bayer, Till and Weinberger, Florian},\\n\\tmonth = dec,\\n\\tyear = {2021},\\n\\tpages = {2189--2203},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Bonthond, G.\",\"Shalygin, S.\",\"Bayer, T.\",\"Weinberger, F.\"],\"key\":\"bonthond_draft_2021\",\"id\":\"bonthond_draft_2021\",\"bibbaseid\":\"bonthond-shalygin-bayer-weinberger-draftgenomeanddescriptionofwaterburyaagarophytonicolagennovspnovpleurocapsalescyanobacteriaaseaweedsymbiont-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://link.springer.com/10.1007/s10482-021-01672-x\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"High taxonomic resolution surveys and trait-based analyses reveal multiple benthic regimes in North Sulawesi (Indonesia)\",\"volume\":\"11\",\"issn\":\"2045-2322\",\"url\":\"https://www.nature.com/articles/s41598-021-95905-8\",\"doi\":\"10.1038/s41598-021-95905-8\",\"abstract\":\"Abstract As coral reef communities change and reorganise in response to increasing disturbances, there is a growing need for understanding species regimes and their contribution to ecosystem processes. Using a case study on coral reefs at the epicentre of tropical marine biodiversity (North Sulawesi, Indonesia), we explored how application of different biodiversity approaches (i.e., use of major taxonomic categories, high taxonomic resolution categories and trait-based approaches) affects the detection of distinct fish and benthic communities. Our results show that using major categories fails to identify distinct coral reef regimes. We also show that monitoring of only scleractinian coral communities is insufficient to detect different benthic regimes, especially communities dominated by non-coral organisms, and that all types of benthic organisms need to be considered. We have implemented the use of a trait-based approach to study the functional diversity of whole coral reef benthic assemblages, which allowed us to detect five different community regimes, only one of which was dominated by scleractinian corals. Furthermore, by the parallel study of benthic and fish communities we provide new insights into key processes and functions that might dominate or be compromised in the different community regimes.\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2022-11-09\",\"journal\":\"Scientific Reports\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Reverter\"],\"firstnames\":[\"Miriam\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Jackson\"],\"firstnames\":[\"Matthew\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Moeller\"],\"firstnames\":[\"Mareen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bara\"],\"firstnames\":[\"Robert\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Lasut\"],\"firstnames\":[\"Markus\",\"T.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Segre\",\"Reinach\"],\"firstnames\":[\"Marco\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2021\",\"pages\":\"16554\",\"bibtex\":\"@article{reverter_high_2021,\\n\\ttitle = {High taxonomic resolution surveys and trait-based analyses reveal multiple benthic regimes in {North} {Sulawesi} ({Indonesia})},\\n\\tvolume = {11},\\n\\tissn = {2045-2322},\\n\\turl = {https://www.nature.com/articles/s41598-021-95905-8},\\n\\tdoi = {10.1038/s41598-021-95905-8},\\n\\tabstract = {Abstract\\n            As coral reef communities change and reorganise in response to increasing disturbances, there is a growing need for understanding species regimes and their contribution to ecosystem processes. Using a case study on coral reefs at the epicentre of tropical marine biodiversity (North Sulawesi, Indonesia), we explored how application of different biodiversity approaches (i.e., use of major taxonomic categories, high taxonomic resolution categories and trait-based approaches) affects the detection of distinct fish and benthic communities. Our results show that using major categories fails to identify distinct coral reef regimes. We also show that monitoring of only scleractinian coral communities is insufficient to detect different benthic regimes, especially communities dominated by non-coral organisms, and that all types of benthic organisms need to be considered. We have implemented the use of a trait-based approach to study the functional diversity of whole coral reef benthic assemblages, which allowed us to detect five different community regimes, only one of which was dominated by scleractinian corals. Furthermore, by the parallel study of benthic and fish communities we provide new insights into key processes and functions that might dominate or be compromised in the different community regimes.},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Scientific Reports},\\n\\tauthor = {Reverter, Miriam and Jackson, Matthew and Rohde, Sven and Moeller, Mareen and Bara, Robert and Lasut, Markus T. and Segre Reinach, Marco and Schupp, Peter J.},\\n\\tmonth = dec,\\n\\tyear = {2021},\\n\\tpages = {16554},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Reverter, M.\",\"Jackson, M.\",\"Rohde, S.\",\"Moeller, M.\",\"Bara, R.\",\"Lasut, M. T.\",\"Segre Reinach, M.\",\"Schupp, P. J.\"],\"key\":\"reverter_high_2021\",\"id\":\"reverter_high_2021\",\"bibbaseid\":\"reverter-jackson-rohde-moeller-bara-lasut-segrereinach-schupp-hightaxonomicresolutionsurveysandtraitbasedanalysesrevealmultiplebenthicregimesinnorthsulawesiindonesia-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.nature.com/articles/s41598-021-95905-8\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Toxic effects of UV filters from sunscreens on coral reefs revisited: regulatory aspects for “reef safe” products\",\"volume\":\"33\",\"issn\":\"2190-4707, 2190-4715\",\"shorttitle\":\"Toxic effects of UV filters from sunscreens on coral reefs revisited\",\"url\":\"https://enveurope.springeropen.com/articles/10.1186/s12302-021-00515-w\",\"doi\":\"10.1186/s12302-021-00515-w\",\"abstract\":\"Abstract Background Tropical coral reefs have been recognized for their significant ecological and economical value. However, increasing anthropogenic disturbances have led to progressively declining coral reef ecosystems on a global scale. More recently, several studies implicated UV filters used in sunscreen products to negatively affect corals and possibly contribute to regional trends in coral decline. Following a public debate, bans were implemented on several organic UV filters and sunscreen products in different locations including Hawaii, the U.S. Virgin Islands and Palau. This included banning the widely used oxybenzone and octinoxate, while promoting the use of inorganic filters such as zinc oxide even although their toxicity towards aquatic organisms had been documented previously. The bans of organic UV filters were based on preliminary scientific studies that showed several weaknesses as there is to this point no standardized testing scheme for scleractinian corals. Despite the lack of sound scientific proof, the latter controversial bans have already resulted in the emergence of a new sunscreen market for products claimed to be ‘reef safe’ (or similar). Thus, a market analysis of ‘reef safe’ sunscreen products was conducted to assess relevant environmental safety aspects of approved UV filters, especially for coral reefs. Further, a scientifically sound decision-making process in a regulatory context is proposed. Results Our market analysis revealed that about 80% of surveyed sunscreens contained inorganic UV filters and that there is a variety of unregulated claims being used in the marketing of ‘reef safe’ products with ‘reef friendly’ being the most frequently used term. Predominantly, four organic UV filters are used in ‘reef safe’ sunscreens in the absence of the banned filters oxybenzone and octinoxate. Analysis of safe threshold concentrations for marine water retrieved from existing REACH registration dossiers could currently also safeguard corals. Conclusion There is a substantial discrepancy of treatments of organic versus inorganic UV filters in politics as well as in the ‘reef safe’ sunscreen market, which to this point is not scientifically justified. Thus, a risk-based approach with equal consideration of organic and inorganic UV filters is recommended for future regulatory measures as well as a clear definition and regulation of the ‘reef safe’ terminology.\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2022-11-09\",\"journal\":\"Environmental Sciences Europe\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Miller\"],\"firstnames\":[\"Ingo\",\"B.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Pawlowski\"],\"firstnames\":[\"Sascha\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Petersen-Thiery\"],\"firstnames\":[\"Mechtild\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Moeller\"],\"firstnames\":[\"Mareen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2021\",\"pages\":\"74\",\"bibtex\":\"@article{miller_toxic_2021,\\n\\ttitle = {Toxic effects of {UV} filters from sunscreens on coral reefs revisited: regulatory aspects for “reef safe” products},\\n\\tvolume = {33},\\n\\tissn = {2190-4707, 2190-4715},\\n\\tshorttitle = {Toxic effects of {UV} filters from sunscreens on coral reefs revisited},\\n\\turl = {https://enveurope.springeropen.com/articles/10.1186/s12302-021-00515-w},\\n\\tdoi = {10.1186/s12302-021-00515-w},\\n\\tabstract = {Abstract\\n            \\n              Background\\n              Tropical coral reefs have been recognized for their significant ecological and economical value. However, increasing anthropogenic disturbances have led to progressively declining coral reef ecosystems on a global scale. More recently, several studies implicated UV filters used in sunscreen products to negatively affect corals and possibly contribute to regional trends in coral decline. Following a public debate, bans were implemented on several organic UV filters and sunscreen products in different locations including Hawaii, the U.S. Virgin Islands and Palau. This included banning the widely used oxybenzone and octinoxate, while promoting the use of inorganic filters such as zinc oxide even although their toxicity towards aquatic organisms had been documented previously. The bans of organic UV filters were based on preliminary scientific studies that showed several weaknesses as there is to this point no standardized testing scheme for scleractinian corals. Despite the lack of sound scientific proof, the latter controversial bans have already resulted in the emergence of a new sunscreen market for products claimed to be ‘reef safe’ (or similar). Thus, a market analysis of ‘reef safe’ sunscreen products was conducted to assess relevant environmental safety aspects of approved UV filters, especially for coral reefs. Further, a scientifically sound decision-making process in a regulatory context is proposed.\\n            \\n            \\n              Results\\n              Our market analysis revealed that about 80\\\\% of surveyed sunscreens contained inorganic UV filters and that there is a variety of unregulated claims being used in the marketing of ‘reef safe’ products with ‘reef friendly’ being the most frequently used term. Predominantly, four organic UV filters are used in ‘reef safe’ sunscreens in the absence of the banned filters oxybenzone and octinoxate. Analysis of safe threshold concentrations for marine water retrieved from existing REACH registration dossiers could currently also safeguard corals.\\n            \\n            \\n              Conclusion\\n              There is a substantial discrepancy of treatments of organic versus inorganic UV filters in politics as well as in the ‘reef safe’ sunscreen market, which to this point is not scientifically justified. Thus, a risk-based approach with equal consideration of organic and inorganic UV filters is recommended for future regulatory measures as well as a clear definition and regulation of the ‘reef safe’ terminology.},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Environmental Sciences Europe},\\n\\tauthor = {Miller, Ingo B. and Pawlowski, Sascha and Kellermann, Matthias Y. and Petersen-Thiery, Mechtild and Moeller, Mareen and Nietzer, Samuel and Schupp, Peter J.},\\n\\tmonth = dec,\\n\\tyear = {2021},\\n\\tpages = {74},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Miller, I. B.\",\"Pawlowski, S.\",\"Kellermann, M. Y.\",\"Petersen-Thiery, M.\",\"Moeller, M.\",\"Nietzer, S.\",\"Schupp, P. J.\"],\"key\":\"miller_toxic_2021\",\"id\":\"miller_toxic_2021\",\"bibbaseid\":\"miller-pawlowski-kellermann-petersenthiery-moeller-nietzer-schupp-toxiceffectsofuvfiltersfromsunscreensoncoralreefsrevisitedregulatoryaspectsforreefsafeproducts-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://enveurope.springeropen.com/articles/10.1186/s12302-021-00515-w\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Anti-Infective and Antiviral Activity of Valinomycin and Its Analogues from a Sea Cucumber-Associated Bacterium, Streptomyces sp. SV 21\",\"volume\":\"19\",\"issn\":\"1660-3397\",\"url\":\"https://www.mdpi.com/1660-3397/19/2/81\",\"doi\":\"10.3390/md19020081\",\"abstract\":\"The manuscript investigated the isolation, characterization and anti-infective potential of valinomycin (3), streptodepsipeptide P11A (2), streptodepsipeptide P11B (1), and one novel valinomycin analogue, streptodepsipeptide SV21 (4), which were all produced by the Gram-positive strain Streptomycescavourensis SV 21. Although the exact molecular weight and major molecular fragments were recently reported for compound 4, its structure elucidation was not based on compound isolation and spectroscopic techniques. We successfully isolated and elucidated the structure based on the MS2 fragmentation pathways as well as 1H and 13C NMR spectra and found that the previously reported structure of compound 4 differs from our analysis. Our findings showed the importance of isolation and structure elucidation of bacterial compounds in the era of fast omics technologies. The here performed anti-infective assays showed moderate to potent activity against fungi, multi drug resistant (MDR) bacteria and infectivity of the Hepatitis C Virus (HCV). While compounds 2, 3 and 4 revealed potent antiviral activity, the observed minor cytotoxicity needs further investigation. Furthermore, the here performed anti-infective assays disclosed that the symmetry of the valinomycin molecule is most important for its bioactivity, a fact that has not been reported so far.\",\"language\":\"en\",\"number\":\"2\",\"urldate\":\"2022-11-08\",\"journal\":\"Marine Drugs\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Wibowo\"],\"firstnames\":[\"Joko\",\"T.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Köck\"],\"firstnames\":[\"Matthias\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Putra\"],\"firstnames\":[\"Masteria\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Murniasih\"],\"firstnames\":[\"Tutik\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Mohr\"],\"firstnames\":[\"Kathrin\",\"I.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wink\"],\"firstnames\":[\"Joachim\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Praditya\"],\"firstnames\":[\"Dimas\",\"F.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Steinmann\"],\"firstnames\":[\"Eike\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"February\",\"year\":\"2021\",\"pages\":\"81\",\"bibtex\":\"@article{wibowo_anti-infective_2021,\\n\\ttitle = {Anti-{Infective} and {Antiviral} {Activity} of {Valinomycin} and {Its} {Analogues} from a {Sea} {Cucumber}-{Associated} {Bacterium}, {Streptomyces} sp. {SV} 21},\\n\\tvolume = {19},\\n\\tissn = {1660-3397},\\n\\turl = {https://www.mdpi.com/1660-3397/19/2/81},\\n\\tdoi = {10.3390/md19020081},\\n\\tabstract = {The manuscript investigated the isolation, characterization and anti-infective potential of valinomycin (3), streptodepsipeptide P11A (2), streptodepsipeptide P11B (1), and one novel valinomycin analogue, streptodepsipeptide SV21 (4), which were all produced by the Gram-positive strain Streptomycescavourensis SV 21. Although the exact molecular weight and major molecular fragments were recently reported for compound 4, its structure elucidation was not based on compound isolation and spectroscopic techniques. We successfully isolated and elucidated the structure based on the MS2 fragmentation pathways as well as 1H and 13C NMR spectra and found that the previously reported structure of compound 4 differs from our analysis. Our findings showed the importance of isolation and structure elucidation of bacterial compounds in the era of fast omics technologies. The here performed anti-infective assays showed moderate to potent activity against fungi, multi drug resistant (MDR) bacteria and infectivity of the Hepatitis C Virus (HCV). While compounds 2, 3 and 4 revealed potent antiviral activity, the observed minor cytotoxicity needs further investigation. Furthermore, the here performed anti-infective assays disclosed that the symmetry of the valinomycin molecule is most important for its bioactivity, a fact that has not been reported so far.},\\n\\tlanguage = {en},\\n\\tnumber = {2},\\n\\turldate = {2022-11-08},\\n\\tjournal = {Marine Drugs},\\n\\tauthor = {Wibowo, Joko T. and Kellermann, Matthias Y. and Köck, Matthias and Putra, Masteria Y. and Murniasih, Tutik and Mohr, Kathrin I. and Wink, Joachim and Praditya, Dimas F. and Steinmann, Eike and Schupp, Peter J.},\\n\\tmonth = feb,\\n\\tyear = {2021},\\n\\tpages = {81},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Wibowo, J. T.\",\"Kellermann, M. Y.\",\"Köck, M.\",\"Putra, M. Y.\",\"Murniasih, T.\",\"Mohr, K. I.\",\"Wink, J.\",\"Praditya, D. F.\",\"Steinmann, E.\",\"Schupp, P. J.\"],\"key\":\"wibowo_anti-infective_2021\",\"id\":\"wibowo_anti-infective_2021\",\"bibbaseid\":\"wibowo-kellermann-kck-putra-murniasih-mohr-wink-praditya-etal-antiinfectiveandantiviralactivityofvalinomycinanditsanaloguesfromaseacucumberassociatedbacteriumstreptomycesspsv21-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/1660-3397/19/2/81\"},\"metadata\":{\"authorlinks\":{}},\"downloads\":1,\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Towards enhancing coral heat tolerance: a “microbiome transplantation” treatment using inoculations of homogenized coral tissues\",\"volume\":\"9\",\"issn\":\"2049-2618\",\"shorttitle\":\"Towards enhancing coral heat tolerance\",\"url\":\"https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-021-01053-6\",\"doi\":\"10.1186/s40168-021-01053-6\",\"abstract\":\"Abstract Background Microbiome manipulation could enhance heat tolerance and help corals survive the pressures of ocean warming. We conducted coral microbiome transplantation (CMT) experiments using the reef-building corals, Pocillopora and Porites , and investigated whether this technique can benefit coral heat resistance while modifying the bacterial microbiome. Initially, heat-tolerant donors were identified in the wild. We then used fresh homogenates made from coral donor tissues to inoculate conspecific, heat-susceptible recipients and documented their bleaching responses and microbiomes by 16S rRNA gene metabarcoding. Results Recipients of both coral species bleached at lower rates compared to the control group when exposed to short-term heat stress (34 °C). One hundred twelve ( Pocillopora sp.) and sixteen ( Porites sp.) donor-specific bacterial species were identified in the microbiomes of recipients indicating transmission of bacteria. The amplicon sequence variants of the majority of these transmitted bacteria belonged to known, putatively symbiotic bacterial taxa of corals and were linked to the observed beneficial effect on the coral stress response. Microbiome dynamics in our experiments support the notion that microbiome community evenness and dominance of one or few bacterial species, rather than host-species identity, were drivers for microbiome stability in a holobiont context. Conclusions Our results suggest that coral recipients likely favor the uptake of putative bacterial symbionts, recommending to include these taxonomic groups in future coral probiotics screening efforts. Our study suggests a scenario where these donor-specific bacterial symbionts might have been more efficient in supporting the recipients to resist heat stress compared to the native symbionts present in the control group. These findings urgently call for further experimental investigation of the mechanisms of action underlying the beneficial effect of CMT and for field-based long-term studies testing the persistence of the effect.\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2022-11-08\",\"journal\":\"Microbiome\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Doering\"],\"firstnames\":[\"Talisa\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wall\"],\"firstnames\":[\"Marlene\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Putchim\"],\"firstnames\":[\"Lalita\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rattanawongwan\"],\"firstnames\":[\"Tipwimon\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schroeder\"],\"firstnames\":[\"Roman\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hentschel\"],\"firstnames\":[\"Ute\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Roik\"],\"firstnames\":[\"Anna\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2021\",\"pages\":\"102\",\"bibtex\":\"@article{doering_towards_2021,\\n\\ttitle = {Towards enhancing coral heat tolerance: a “microbiome transplantation” treatment using inoculations of homogenized coral tissues},\\n\\tvolume = {9},\\n\\tissn = {2049-2618},\\n\\tshorttitle = {Towards enhancing coral heat tolerance},\\n\\turl = {https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-021-01053-6},\\n\\tdoi = {10.1186/s40168-021-01053-6},\\n\\tabstract = {Abstract\\n            \\n              Background\\n              \\n                Microbiome manipulation could enhance heat tolerance and help corals survive the pressures of ocean warming. We conducted coral microbiome transplantation (CMT) experiments using the reef-building corals,\\n                Pocillopora\\n                and\\n                Porites\\n                , and investigated whether this technique can benefit coral heat resistance while modifying the bacterial microbiome. Initially, heat-tolerant donors were identified in the wild. We then used fresh homogenates made from coral donor tissues to inoculate conspecific, heat-susceptible recipients and documented their bleaching responses and microbiomes by 16S rRNA gene metabarcoding.\\n              \\n            \\n            \\n              Results\\n              \\n                Recipients of both coral species bleached at lower rates compared to the control group when exposed to short-term heat stress (34 °C). One hundred twelve (\\n                Pocillopora\\n                sp.) and sixteen (\\n                Porites\\n                sp.) donor-specific bacterial species were identified in the microbiomes of recipients indicating transmission of bacteria. The amplicon sequence variants of the majority of these transmitted bacteria belonged to known, putatively symbiotic bacterial taxa of corals and were linked to the observed beneficial effect on the coral stress response. Microbiome dynamics in our experiments support the notion that microbiome community evenness and dominance of one or few bacterial species, rather than host-species identity, were drivers for microbiome stability in a holobiont context.\\n              \\n            \\n            \\n              Conclusions\\n              Our results suggest that coral recipients likely favor the uptake of putative bacterial symbionts, recommending to include these taxonomic groups in future coral probiotics screening efforts. Our study suggests a scenario where these donor-specific bacterial symbionts might have been more efficient in supporting the recipients to resist heat stress compared to the native symbionts present in the control group. These findings urgently call for further experimental investigation of the mechanisms of action underlying the beneficial effect of CMT and for field-based long-term studies testing the persistence of the effect.},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2022-11-08},\\n\\tjournal = {Microbiome},\\n\\tauthor = {Doering, Talisa and Wall, Marlene and Putchim, Lalita and Rattanawongwan, Tipwimon and Schroeder, Roman and Hentschel, Ute and Roik, Anna},\\n\\tmonth = dec,\\n\\tyear = {2021},\\n\\tpages = {102},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Doering, T.\",\"Wall, M.\",\"Putchim, L.\",\"Rattanawongwan, T.\",\"Schroeder, R.\",\"Hentschel, U.\",\"Roik, A.\"],\"key\":\"doering_towards_2021\",\"id\":\"doering_towards_2021\",\"bibbaseid\":\"doering-wall-putchim-rattanawongwan-schroeder-hentschel-roik-towardsenhancingcoralheattoleranceamicrobiometransplantationtreatmentusinginoculationsofhomogenizedcoraltissues-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-021-01053-6\"},\"metadata\":{\"authorlinks\":{}},\"downloads\":1,\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Streptomyces bathyalis sp. nov., an actinobacterium isolated from the sponge in a deep sea\",\"volume\":\"114\",\"issn\":\"0003-6072, 1572-9699\",\"url\":\"http://link.springer.com/10.1007/s10482-021-01528-4\",\"doi\":\"10.1007/s10482-021-01528-4\",\"abstract\":\"Abstract A novel actinobacterium, designated ASO4wet T , was isolated from the unidentified sponge (SO4) in the deep sea collected of the North Atlantic Ocean. Study of 16S rRNA gene sequences indicated that strain ASO4wet T is a member of the genus Streptomyces and showed the closest similarities to Streptomyces karpasiensis K413 T (98.87 %), Streptomyces glycovorans YIM M 10366 T (98.38 %), and Streptomyces abyssalis YIM M 10400 T (97.53 %). Strain ASO4wet T contained MK-9(H8) as the predominant menaquinone and the major fatty acids are iso-C 16:0 , anteiso-C 15:0 , and iso-C 15:0 . Polyphasic taxonomy was carried out between strain ASO4wet T and its phylogenetically closely related Streptomyces strains, which further elucidated their relatedness and revealed that strain ASO4wet T could be distinguished from currently known Streptomyces species. Strain ASO4wet T clearly represents a novel species in genus Streptomyces . We propose the name Streptomyces bathyalis sp. nov., with the type strain ASO4wet T (= DSM 106605 T  = NCCB 100657 T ). Analysis of the whole-genome sequence of S. bathyalis revealed that genome size is 7,377,472 bp with 6332 coding sequences.\",\"language\":\"en\",\"number\":\"4\",\"urldate\":\"2022-11-09\",\"journal\":\"Antonie van Leeuwenhoek\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Risdian\"],\"firstnames\":[\"Chandra\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Landwehr\"],\"firstnames\":[\"Wiebke\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Manfred\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schumann\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hahnke\"],\"firstnames\":[\"Richard\",\"L.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Spröer\"],\"firstnames\":[\"Cathrin\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bunk\"],\"firstnames\":[\"Boyke\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kämpfer\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wink\"],\"firstnames\":[\"Joachim\"],\"suffixes\":[]}],\"month\":\"April\",\"year\":\"2021\",\"pages\":\"425–435\",\"bibtex\":\"@article{risdian_streptomyces_2021,\\n\\ttitle = {Streptomyces bathyalis sp. nov., an actinobacterium isolated from the sponge in a deep sea},\\n\\tvolume = {114},\\n\\tissn = {0003-6072, 1572-9699},\\n\\turl = {http://link.springer.com/10.1007/s10482-021-01528-4},\\n\\tdoi = {10.1007/s10482-021-01528-4},\\n\\tabstract = {Abstract\\n            \\n              A novel actinobacterium, designated ASO4wet\\n              T\\n              , was isolated from the unidentified sponge (SO4) in the deep sea collected of the North Atlantic Ocean. Study of 16S rRNA gene sequences indicated that strain ASO4wet\\n              T\\n              is a member of the genus\\n              Streptomyces\\n              and showed the closest similarities to\\n              Streptomyces karpasiensis\\n              K413\\n              T\\n              (98.87 \\\\%),\\n              Streptomyces glycovorans\\n              YIM M 10366\\n              T\\n              (98.38 \\\\%), and\\n              Streptomyces abyssalis\\n              YIM M 10400\\n              T\\n              (97.53 \\\\%). Strain ASO4wet\\n              T\\n              contained MK-9(H8) as the predominant menaquinone and the major fatty acids are iso-C\\n              16:0\\n              , anteiso-C\\n              15:0\\n              , and iso-C\\n              15:0\\n              . Polyphasic taxonomy was carried out between strain ASO4wet\\n              T\\n              and its phylogenetically closely related\\n              Streptomyces\\n              strains, which further elucidated their relatedness and revealed that strain ASO4wet\\n              T\\n              could be distinguished from currently known\\n              Streptomyces\\n              species. Strain ASO4wet\\n              T\\n              clearly represents a novel species in genus\\n              Streptomyces\\n              . We propose the name\\n              Streptomyces bathyalis\\n              sp. nov., with the type strain ASO4wet\\n              T\\n              (= DSM 106605\\n              T\\n               = NCCB 100657\\n              T\\n              ). Analysis of the whole-genome sequence of\\n              S. bathyalis\\n              revealed that genome size is 7,377,472 bp with 6332 coding sequences.},\\n\\tlanguage = {en},\\n\\tnumber = {4},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Antonie van Leeuwenhoek},\\n\\tauthor = {Risdian, Chandra and Landwehr, Wiebke and Rohde, Manfred and Schumann, Peter and Hahnke, Richard L. and Spröer, Cathrin and Bunk, Boyke and Kämpfer, Peter and Schupp, Peter J. and Wink, Joachim},\\n\\tmonth = apr,\\n\\tyear = {2021},\\n\\tpages = {425--435},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Risdian, C.\",\"Landwehr, W.\",\"Rohde, M.\",\"Schumann, P.\",\"Hahnke, R. L.\",\"Spröer, C.\",\"Bunk, B.\",\"Kämpfer, P.\",\"Schupp, P. J.\",\"Wink, J.\"],\"key\":\"risdian_streptomyces_2021\",\"id\":\"risdian_streptomyces_2021\",\"bibbaseid\":\"risdian-landwehr-rohde-schumann-hahnke-sprer-bunk-kmpfer-etal-streptomycesbathyalisspnovanactinobacteriumisolatedfromthespongeinadeepsea-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"http://link.springer.com/10.1007/s10482-021-01528-4\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Challenges in Current Coral Reef Protection – Possible Impacts of UV Filters Used in Sunscreens, a Critical Review\",\"volume\":\"8\",\"issn\":\"2296-7745\",\"url\":\"https://www.frontiersin.org/articles/10.3389/fmars.2021.665548/full\",\"doi\":\"10.3389/fmars.2021.665548\",\"abstract\":\"Coral reefs are highly endangered ecosystems. The identification and quantification of potential stress factors are essential to protect them. UV filters from sunscreens that are introduced to coral reef areas are considered as one of these stressors and their impact on corals needs to be further investigated. Even though UV filters are functionally similar, their structural features are very diverse. Their impact on limnic organisms have also been shown to be highly variable ranging from no or low to high toxicity. It is therefore to be expected that their effect on corals also differs significantly and that each compound has to be evaluated individually. The demand for conclusive benchmarks and guidelines from policy makers and the public over the past years shows the necessity for an objective literature review on the effects of various UV filters on scleractinian corals. Here, we review the present literature, summarize the data on the different UV filters and discuss the different approaches, advantages and limitations of the studies. However, the methods used in the latter studies vary greatly. They differ in many aspects such as species and life stage used, field and laboratory approaches, with exposure times ranging from hours to weeks. Some studies include analytics and measure the actual test concentration, others only provide nominal concentrations. The lack of standardized methods renders comparisons between studies futile. Additionally, most UV filters have only been investigated in a single or a few studies of different quality. Reliable thresholds are therefore impossible to draw on the basis of currently available studies. Nevertheless, certain UV filters repeatedly showed comparable toxicity in both freshwater and marine species tested. Yet, existing differences in results from coral tests emphasize the need for a standardized testing method comparable to those established for other aquatic organisms in order to allow for a more conclusive assessment. In this review, we describe what a scientifically sound testing proposal should include in order to obtain reliable and reproducible data, which ultimately should result in an internationally organized standardized ring test trial. Such standardized toxicity tests would enable validation of coral toxicity data related to UV filters, but also testing of other types of compounds that are known to be introduced and effect coral reefs, thus helping to identify significant stressors and enabling objective policy decisions.\",\"urldate\":\"2022-11-09\",\"journal\":\"Frontiers in Marine Science\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Moeller\"],\"firstnames\":[\"Mareen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Pawlowski\"],\"firstnames\":[\"Sascha\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Petersen-Thiery\"],\"firstnames\":[\"Mechtild\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Miller\"],\"firstnames\":[\"Ingo\",\"B.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Heisel-Sure\"],\"firstnames\":[\"Yannik\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"April\",\"year\":\"2021\",\"pages\":\"665548\",\"bibtex\":\"@article{moeller_challenges_2021,\\n\\ttitle = {Challenges in {Current} {Coral} {Reef} {Protection} – {Possible} {Impacts} of {UV} {Filters} {Used} in {Sunscreens}, a {Critical} {Review}},\\n\\tvolume = {8},\\n\\tissn = {2296-7745},\\n\\turl = {https://www.frontiersin.org/articles/10.3389/fmars.2021.665548/full},\\n\\tdoi = {10.3389/fmars.2021.665548},\\n\\tabstract = {Coral reefs are highly endangered ecosystems. The identification and quantification of potential stress factors are essential to protect them. UV filters from sunscreens that are introduced to coral reef areas are considered as one of these stressors and their impact on corals needs to be further investigated. Even though UV filters are functionally similar, their structural features are very diverse. Their impact on limnic organisms have also been shown to be highly variable ranging from no or low to high toxicity. It is therefore to be expected that their effect on corals also differs significantly and that each compound has to be evaluated individually. The demand for conclusive benchmarks and guidelines from policy makers and the public over the past years shows the necessity for an objective literature review on the effects of various UV filters on scleractinian corals. Here, we review the present literature, summarize the data on the different UV filters and discuss the different approaches, advantages and limitations of the studies. However, the methods used in the latter studies vary greatly. They differ in many aspects such as species and life stage used, field and laboratory approaches, with exposure times ranging from hours to weeks. Some studies include analytics and measure the actual test concentration, others only provide nominal concentrations. The lack of standardized methods renders comparisons between studies futile. Additionally, most UV filters have only been investigated in a single or a few studies of different quality. Reliable thresholds are therefore impossible to draw on the basis of currently available studies. Nevertheless, certain UV filters repeatedly showed comparable toxicity in both freshwater and marine species tested. Yet, existing differences in results from coral tests emphasize the need for a standardized testing method comparable to those established for other aquatic organisms in order to allow for a more conclusive assessment. In this review, we describe what a scientifically sound testing proposal should include in order to obtain reliable and reproducible data, which ultimately should result in an internationally organized standardized ring test trial. Such standardized toxicity tests would enable validation of coral toxicity data related to UV filters, but also testing of other types of compounds that are known to be introduced and effect coral reefs, thus helping to identify significant stressors and enabling objective policy decisions.},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Frontiers in Marine Science},\\n\\tauthor = {Moeller, Mareen and Pawlowski, Sascha and Petersen-Thiery, Mechtild and Miller, Ingo B. and Nietzer, Samuel and Heisel-Sure, Yannik and Kellermann, Matthias Y. and Schupp, Peter J.},\\n\\tmonth = apr,\\n\\tyear = {2021},\\n\\tpages = {665548},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Moeller, M.\",\"Pawlowski, S.\",\"Petersen-Thiery, M.\",\"Miller, I. B.\",\"Nietzer, S.\",\"Heisel-Sure, Y.\",\"Kellermann, M. Y.\",\"Schupp, P. J.\"],\"key\":\"moeller_challenges_2021\",\"id\":\"moeller_challenges_2021\",\"bibbaseid\":\"moeller-pawlowski-petersenthiery-miller-nietzer-heiselsure-kellermann-schupp-challengesincurrentcoralreefprotectionpossibleimpactsofuvfiltersusedinsunscreensacriticalreview-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.frontiersin.org/articles/10.3389/fmars.2021.665548/full\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"A Soft Spot for Chemistry–Current Taxonomic and Evolutionary Implications of Sponge Secondary Metabolite Distribution\",\"volume\":\"19\",\"issn\":\"1660-3397\",\"url\":\"https://www.mdpi.com/1660-3397/19/8/448\",\"doi\":\"10.3390/md19080448\",\"abstract\":\"Marine sponges are the most prolific marine sources for discovery of novel bioactive compounds. Sponge secondary metabolites are sought-after for their potential in pharmaceutical applications, and in the past, they were also used as taxonomic markers alongside the difficult and homoplasy-prone sponge morphology for species delineation (chemotaxonomy). The understanding of phylogenetic distribution and distinctiveness of metabolites to sponge lineages is pivotal to reveal pathways and evolution of compound production in sponges. This benefits the discovery rate and yield of bioprospecting for novel marine natural products by identifying lineages with high potential of being new sources of valuable sponge compounds. In this review, we summarize the current biochemical data on sponges and compare the metabolite distribution against a sponge phylogeny. We assess compound specificity to lineages, potential convergences, and suitability as diagnostic phylogenetic markers. Our study finds compound distribution corroborating current (molecular) phylogenetic hypotheses, which include yet unaccepted polyphyly of several demosponge orders and families. Likewise, several compounds and compound groups display a high degree of lineage specificity, which suggests homologous biosynthetic pathways among their taxa, which identifies yet unstudied species of this lineage as promising bioprospecting targets.\",\"language\":\"en\",\"number\":\"8\",\"urldate\":\"2022-11-09\",\"journal\":\"Marine Drugs\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Galitz\"],\"firstnames\":[\"Adrian\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nakao\"],\"firstnames\":[\"Yoichi\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wörheide\"],\"firstnames\":[\"Gert\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Erpenbeck\"],\"firstnames\":[\"Dirk\"],\"suffixes\":[]}],\"month\":\"August\",\"year\":\"2021\",\"pages\":\"448\",\"bibtex\":\"@article{galitz_soft_2021,\\n\\ttitle = {A {Soft} {Spot} for {Chemistry}–{Current} {Taxonomic} and {Evolutionary} {Implications} of {Sponge} {Secondary} {Metabolite} {Distribution}},\\n\\tvolume = {19},\\n\\tissn = {1660-3397},\\n\\turl = {https://www.mdpi.com/1660-3397/19/8/448},\\n\\tdoi = {10.3390/md19080448},\\n\\tabstract = {Marine sponges are the most prolific marine sources for discovery of novel bioactive compounds. Sponge secondary metabolites are sought-after for their potential in pharmaceutical applications, and in the past, they were also used as taxonomic markers alongside the difficult and homoplasy-prone sponge morphology for species delineation (chemotaxonomy). The understanding of phylogenetic distribution and distinctiveness of metabolites to sponge lineages is pivotal to reveal pathways and evolution of compound production in sponges. This benefits the discovery rate and yield of bioprospecting for novel marine natural products by identifying lineages with high potential of being new sources of valuable sponge compounds. In this review, we summarize the current biochemical data on sponges and compare the metabolite distribution against a sponge phylogeny. We assess compound specificity to lineages, potential convergences, and suitability as diagnostic phylogenetic markers. Our study finds compound distribution corroborating current (molecular) phylogenetic hypotheses, which include yet unaccepted polyphyly of several demosponge orders and families. Likewise, several compounds and compound groups display a high degree of lineage specificity, which suggests homologous biosynthetic pathways among their taxa, which identifies yet unstudied species of this lineage as promising bioprospecting targets.},\\n\\tlanguage = {en},\\n\\tnumber = {8},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Marine Drugs},\\n\\tauthor = {Galitz, Adrian and Nakao, Yoichi and Schupp, Peter J. and Wörheide, Gert and Erpenbeck, Dirk},\\n\\tmonth = aug,\\n\\tyear = {2021},\\n\\tpages = {448},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Galitz, A.\",\"Nakao, Y.\",\"Schupp, P. J.\",\"Wörheide, G.\",\"Erpenbeck, D.\"],\"key\":\"galitz_soft_2021\",\"id\":\"galitz_soft_2021\",\"bibbaseid\":\"galitz-nakao-schupp-wrheide-erpenbeck-asoftspotforchemistrycurrenttaxonomicandevolutionaryimplicationsofspongesecondarymetabolitedistribution-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/1660-3397/19/8/448\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Ecological and Pharmacological Activities of Polybrominated Diphenyl Ethers (PBDEs) from the Indonesian Marine Sponge Lamellodysidea herbacea\",\"volume\":\"19\",\"issn\":\"1660-3397\",\"url\":\"https://www.mdpi.com/1660-3397/19/11/611\",\"doi\":\"10.3390/md19110611\",\"abstract\":\"Two known Polybrominated Diphenyl Ethers (PBDEs), 3,4,5-tribromo-2-(2′,4′-dibromophenoxy)phenol (1d) and 3,4,5,6-tetrabromo-2-(2′,4′-dibromophenoxy)phenol (2b), were isolated from the Indonesian marine sponge Lamellodysidea herbacea. The structure was confirmed using 13C chemical shift average deviation and was compared to the predicted structures and recorded chemical shifts in previous studies. We found a wide range of bioactivities from the organic crude extract, such as (1) a strong deterrence against the generalist pufferfish Canthigaster solandri, (2) potent inhibition against environmental and human pathogenic bacterial and fungal strains, and (3) the inhibition of the Hepatitis C Virus (HCV). The addition of a bromine atom into the A-ring of compound 2b resulted in higher fish feeding deterrence compared to compound 1d. On the contrary, compound 2b showed only more potent inhibition against the Gram-negative bacteria Rhodotorula glutinis (MIC 2.1 μg/mL), while compound 1d showed more powerful inhibition against the other human pathogenic bacteria and fungi. The first report of a chemical defense by compounds 1d and 2b against fish feeding and environmental relevant bacteria, especially pathogenic bacteria, might be one reason for the widespread occurrence of the shallow water sponge Lamellodysidea herbacea in Indonesia and the Indo-Pacific.\",\"language\":\"en\",\"number\":\"11\",\"urldate\":\"2022-11-09\",\"journal\":\"Marine Drugs\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Faisal\"],\"firstnames\":[\"Muhammad\",\"R.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Putra\"],\"firstnames\":[\"Masteria\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Murniasih\"],\"firstnames\":[\"Tutik\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Risdian\"],\"firstnames\":[\"Chandra\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Mohr\"],\"firstnames\":[\"Kathrin\",\"I.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wink\"],\"firstnames\":[\"Joachim\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Praditya\"],\"firstnames\":[\"Dimas\",\"F.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Steinmann\"],\"firstnames\":[\"Eike\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Köck\"],\"firstnames\":[\"Matthias\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"October\",\"year\":\"2021\",\"pages\":\"611\",\"bibtex\":\"@article{faisal_ecological_2021,\\n\\ttitle = {Ecological and {Pharmacological} {Activities} of {Polybrominated} {Diphenyl} {Ethers} ({PBDEs}) from the {Indonesian} {Marine} {Sponge} {Lamellodysidea} herbacea},\\n\\tvolume = {19},\\n\\tissn = {1660-3397},\\n\\turl = {https://www.mdpi.com/1660-3397/19/11/611},\\n\\tdoi = {10.3390/md19110611},\\n\\tabstract = {Two known Polybrominated Diphenyl Ethers (PBDEs), 3,4,5-tribromo-2-(2′,4′-dibromophenoxy)phenol (1d) and 3,4,5,6-tetrabromo-2-(2′,4′-dibromophenoxy)phenol (2b), were isolated from the Indonesian marine sponge Lamellodysidea herbacea. The structure was confirmed using 13C chemical shift average deviation and was compared to the predicted structures and recorded chemical shifts in previous studies. We found a wide range of bioactivities from the organic crude extract, such as (1) a strong deterrence against the generalist pufferfish Canthigaster solandri, (2) potent inhibition against environmental and human pathogenic bacterial and fungal strains, and (3) the inhibition of the Hepatitis C Virus (HCV). The addition of a bromine atom into the A-ring of compound 2b resulted in higher fish feeding deterrence compared to compound 1d. On the contrary, compound 2b showed only more potent inhibition against the Gram-negative bacteria Rhodotorula glutinis (MIC 2.1 μg/mL), while compound 1d showed more powerful inhibition against the other human pathogenic bacteria and fungi. The first report of a chemical defense by compounds 1d and 2b against fish feeding and environmental relevant bacteria, especially pathogenic bacteria, might be one reason for the widespread occurrence of the shallow water sponge Lamellodysidea herbacea in Indonesia and the Indo-Pacific.},\\n\\tlanguage = {en},\\n\\tnumber = {11},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Marine Drugs},\\n\\tauthor = {Faisal, Muhammad R. and Kellermann, Matthias Y. and Rohde, Sven and Putra, Masteria Y. and Murniasih, Tutik and Risdian, Chandra and Mohr, Kathrin I. and Wink, Joachim and Praditya, Dimas F. and Steinmann, Eike and Köck, Matthias and Schupp, Peter J.},\\n\\tmonth = oct,\\n\\tyear = {2021},\\n\\tpages = {611},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Faisal, M. R.\",\"Kellermann, M. Y.\",\"Rohde, S.\",\"Putra, M. Y.\",\"Murniasih, T.\",\"Risdian, C.\",\"Mohr, K. I.\",\"Wink, J.\",\"Praditya, D. F.\",\"Steinmann, E.\",\"Köck, M.\",\"Schupp, P. J.\"],\"key\":\"faisal_ecological_2021\",\"id\":\"faisal_ecological_2021\",\"bibbaseid\":\"faisal-kellermann-rohde-putra-murniasih-risdian-mohr-wink-etal-ecologicalandpharmacologicalactivitiesofpolybrominateddiphenyletherspbdesfromtheindonesianmarinespongelamellodysideaherbacea-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/1660-3397/19/11/611\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Photosensitivity of the Bacterial Pigment Cycloprodigiosin Enables Settlement in Coral Larvae—Light as an Understudied Environmental Factor\",\"volume\":\"8\",\"issn\":\"2296-7745\",\"url\":\"https://www.frontiersin.org/articles/10.3389/fmars.2021.749070/full\",\"doi\":\"10.3389/fmars.2021.749070\",\"abstract\":\"The survival of coral reefs largely depends among other factors on the recruitment of a new generation of coral individuals that are more adapted to a rapidly changing climate and other anthropogenic stressors (e.g., pollution, sedimentation). Therefore, a better understanding of the coral settlement process, the molecules involved as well as crucial environmental drivers that control settlement success are needed. In this study, we identified a novel settlement inducer for the brooding scleractinian coral Leptastrea purpurea and highlight the importance of light for the settlement process. Crude extract of the red-pigmented bacterium Pseudoalteromonas rubra reliably triggered attachment and metamorphosis in L. purpurea larvae in less than 24 h. Prodigiosin (II) and the two derivatives, cycloprodigiosin (I) and 2-methyl-3-hexyl prodiginine (III) were isolated and structurally elucidated from the crude extract of P. rubra. We demonstrated that the photosensitive pigment cycloprodigiosin (I) was the responsible compound for attachment and metamorphosis in L. purpurea larvae. Under the tested light regimes (i.e., darkness, constant light and a dark-light alternation), cycloprodigiosin (I) triggered approximately 90% settlement at a concentration of 0.2 μg mL –1 under a 12 h alternating dark-light cycle, mimicking the light-flooded coral reef environment. Our findings enable for the first time a mechanistic understanding of the light-dependent larva to polyp transformation by discovering the novel bacterial settlement cue cycloprodigiosin and its photosensitivity as a determining factor for coral settlement.\",\"urldate\":\"2022-11-09\",\"journal\":\"Frontiers in Marine Science\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Petersen\"],\"firstnames\":[\"Lars-Erik\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"October\",\"year\":\"2021\",\"pages\":\"749070\",\"bibtex\":\"@article{petersen_photosensitivity_2021,\\n\\ttitle = {Photosensitivity of the {Bacterial} {Pigment} {Cycloprodigiosin} {Enables} {Settlement} in {Coral} {Larvae}—{Light} as an {Understudied} {Environmental} {Factor}},\\n\\tvolume = {8},\\n\\tissn = {2296-7745},\\n\\turl = {https://www.frontiersin.org/articles/10.3389/fmars.2021.749070/full},\\n\\tdoi = {10.3389/fmars.2021.749070},\\n\\tabstract = {The survival of coral reefs largely depends among other factors on the recruitment of a new generation of coral individuals that are more adapted to a rapidly changing climate and other anthropogenic stressors (e.g., pollution, sedimentation). Therefore, a better understanding of the coral settlement process, the molecules involved as well as crucial environmental drivers that control settlement success are needed. In this study, we identified a novel settlement inducer for the brooding scleractinian coral\\n              Leptastrea purpurea\\n              and highlight the importance of light for the settlement process. Crude extract of the red-pigmented bacterium\\n              Pseudoalteromonas rubra\\n              reliably triggered attachment and metamorphosis in\\n              L. purpurea\\n              larvae in less than 24 h. Prodigiosin (II) and the two derivatives, cycloprodigiosin (I) and 2-methyl-3-hexyl prodiginine (III) were isolated and structurally elucidated from the crude extract of\\n              P. rubra.\\n              We demonstrated that the photosensitive pigment cycloprodigiosin (I) was the responsible compound for attachment and metamorphosis in\\n              L. purpurea\\n              larvae. Under the tested light regimes (i.e., darkness, constant light and a dark-light alternation), cycloprodigiosin (I) triggered approximately 90\\\\% settlement at a concentration of 0.2 μg mL\\n              –1\\n              under a 12 h alternating dark-light cycle, mimicking the light-flooded coral reef environment. Our findings enable for the first time a mechanistic understanding of the light-dependent larva to polyp transformation by discovering the novel bacterial settlement cue cycloprodigiosin and its photosensitivity as a determining factor for coral settlement.},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Frontiers in Marine Science},\\n\\tauthor = {Petersen, Lars-Erik and Kellermann, Matthias Y. and Nietzer, Samuel and Schupp, Peter J.},\\n\\tmonth = oct,\\n\\tyear = {2021},\\n\\tpages = {749070},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Petersen, L.\",\"Kellermann, M. Y.\",\"Nietzer, S.\",\"Schupp, P. J.\"],\"key\":\"petersen_photosensitivity_2021\",\"id\":\"petersen_photosensitivity_2021\",\"bibbaseid\":\"petersen-kellermann-nietzer-schupp-photosensitivityofthebacterialpigmentcycloprodigiosinenablessettlementincorallarvaelightasanunderstudiedenvironmentalfactor-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.frontiersin.org/articles/10.3389/fmars.2021.749070/full\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Rossellid glass sponges (Porifera, Hexactinellida) from New Zealand waters, with description of one new genus and six new species\",\"volume\":\"1060\",\"issn\":\"1313-2970, 1313-2989\",\"url\":\"https://zookeys.pensoft.net/article/63307/\",\"doi\":\"10.3897/zookeys.1060.63307\",\"abstract\":\"New Zealand’s surrounding deep waters have become known as a diversity hotspot for glass sponges (Porifera: Hexactinellida) in recent years, and description and collection efforts are continuing. Here we report on eight rossellids (Hexasterophora: Lyssacinosida: Rossellidae) collected during the 2017 RV Sonne cruise SO254 by ROV Kiel 6000 as part of Project PoribacNewZ of the University of Oldenburg, Germany. The material includes six species new to science, two of which are assigned to a so far undescribed genus; we further re-describe two previously known species. The known extant rossellid diversity from the New Zealand region is thus almost doubled, from nine species in five genera to 17 species in eight genera. The specimens described here are only a small fraction of hexactinellids collected on cruise SO254. Unfortunately, the first author passed away while working on this collection, only being able to complete the nine descriptions reported here. The paper concludes with an obituary to him, the world-leading expert on glass sponge taxonomy who will be greatly missed.\",\"urldate\":\"2022-11-09\",\"journal\":\"ZooKeys\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Reiswig\"],\"firstnames\":[\"Henry\",\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Dohrmann\"],\"firstnames\":[\"Martin\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kelly\"],\"firstnames\":[\"Michelle\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Mills\"],\"firstnames\":[\"Sadie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wörheide\"],\"firstnames\":[\"Gert\"],\"suffixes\":[]}],\"month\":\"September\",\"year\":\"2021\",\"pages\":\"33–84\",\"bibtex\":\"@article{reiswig_rossellid_2021,\\n\\ttitle = {Rossellid glass sponges ({Porifera}, {Hexactinellida}) from {New} {Zealand} waters, with description of one new genus and six new species},\\n\\tvolume = {1060},\\n\\tissn = {1313-2970, 1313-2989},\\n\\turl = {https://zookeys.pensoft.net/article/63307/},\\n\\tdoi = {10.3897/zookeys.1060.63307},\\n\\tabstract = {New Zealand’s surrounding deep waters have become known as a diversity hotspot for glass sponges (Porifera: Hexactinellida) in recent years, and description and collection efforts are continuing. Here we report on eight rossellids (Hexasterophora: Lyssacinosida: Rossellidae) collected during the 2017 RV Sonne cruise SO254 by ROV Kiel 6000 as part of Project PoribacNewZ of the University of Oldenburg, Germany. The material includes six species new to science, two of which are assigned to a so far undescribed genus; we further re-describe two previously known species. The known extant rossellid diversity from the New Zealand region is thus almost doubled, from nine species in five genera to 17 species in eight genera. The specimens described here are only a small fraction of hexactinellids collected on cruise SO254. Unfortunately, the first author passed away while working on this collection, only being able to complete the nine descriptions reported here. The paper concludes with an obituary to him, the world-leading expert on glass sponge taxonomy who will be greatly missed.},\\n\\turldate = {2022-11-09},\\n\\tjournal = {ZooKeys},\\n\\tauthor = {Reiswig, Henry M. and Dohrmann, Martin and Kelly, Michelle and Mills, Sadie and Schupp, Peter J. and Wörheide, Gert},\\n\\tmonth = sep,\\n\\tyear = {2021},\\n\\tpages = {33--84},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Reiswig, H. M.\",\"Dohrmann, M.\",\"Kelly, M.\",\"Mills, S.\",\"Schupp, P. J.\",\"Wörheide, G.\"],\"key\":\"reiswig_rossellid_2021\",\"id\":\"reiswig_rossellid_2021\",\"bibbaseid\":\"reiswig-dohrmann-kelly-mills-schupp-wrheide-rossellidglassspongesporiferahexactinellidafromnewzealandwaterswithdescriptionofonenewgenusandsixnewspecies-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://zookeys.pensoft.net/article/63307/\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Fungal endophytes vary by species, tissue type, and life cycle stage in intertidal macroalgae\",\"volume\":\"58\",\"copyright\":\"Creative Commons Attribution 4.0 International License (CC-BY)\",\"issn\":\"0022-3646, 1529-8817\",\"url\":\"https://onlinelibrary.wiley.com/doi/10.1111/jpy.13237\",\"doi\":\"10.1111/jpy.13237\",\"language\":\"en\",\"number\":\"2\",\"urldate\":\"2022-11-09\",\"journal\":\"Journal of Phycology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Bonthond\"],\"firstnames\":[\"Guido\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Barilo\"],\"firstnames\":[\"Anastasiia\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Allen\"],\"firstnames\":[\"Ro\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Cunliffe\"],\"firstnames\":[\"Michael\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Krueger‐Hadfield\"],\"firstnames\":[\"Stacy\",\"A.\"],\"suffixes\":[]}],\"editor\":[{\"propositions\":[],\"lastnames\":[\"Lane\"],\"firstnames\":[\"C.\"],\"suffixes\":[]}],\"month\":\"April\",\"year\":\"2022\",\"pages\":\"330–342\",\"bibtex\":\"@article{bonthond_fungal_2022,\\n\\ttitle = {Fungal endophytes vary by species, tissue type, and life cycle stage in intertidal macroalgae},\\n\\tvolume = {58},\\n\\tcopyright = {Creative Commons Attribution 4.0 International License (CC-BY)},\\n\\tissn = {0022-3646, 1529-8817},\\n\\turl = {https://onlinelibrary.wiley.com/doi/10.1111/jpy.13237},\\n\\tdoi = {10.1111/jpy.13237},\\n\\tlanguage = {en},\\n\\tnumber = {2},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Journal of Phycology},\\n\\tauthor = {Bonthond, Guido and Barilo, Anastasiia and Allen, Ro J. and Cunliffe, Michael and Krueger‐Hadfield, Stacy A.},\\n\\teditor = {Lane, C.},\\n\\tmonth = apr,\\n\\tyear = {2022},\\n\\tpages = {330--342},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Bonthond, G.\",\"Barilo, A.\",\"Allen, R. J.\",\"Cunliffe, M.\",\"Krueger‐Hadfield, S. A.\"],\"editor_short\":[\"Lane, C.\"],\"key\":\"bonthond_fungal_2022\",\"id\":\"bonthond_fungal_2022\",\"bibbaseid\":\"bonthond-barilo-allen-cunliffe-kruegerhadfield-fungalendophytesvarybyspeciestissuetypeandlifecyclestageinintertidalmacroalgae-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://onlinelibrary.wiley.com/doi/10.1111/jpy.13237\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Characterization of an Insoluble and Soluble Form of Melanin Produced by Streptomyces cavourensis SV 21, a Sea Cucumber Associated Bacterium\",\"volume\":\"20\",\"issn\":\"1660-3397\",\"url\":\"https://www.mdpi.com/1660-3397/20/1/54\",\"doi\":\"10.3390/md20010054\",\"abstract\":\"Melanin is a widely distributed and striking dark-colored pigment produced by countless living organisms. Although a wide range of bioactivities have been recognized, there are still major constraints in using melanin for biotechnological applications such as its fragmentary known chemical structure and its insolubility in inorganic and organic solvents. In this study, a bacterial culture of Streptomyces cavourensis SV 21 produced two distinct forms of melanin: (1) a particulate, insoluble form as well as (2) a rarely observed water-soluble form. The here presented novel, acid-free purification protocol of purified particulate melanin (PPM) and purified dissolved melanin (PDM) represents the basis for an in-depth comparison of their physicochemical and biological properties, which were compared to the traditional acid-based precipitation of melanin (AM) and to a synthetic melanin standard (SM). Our data show that the differences in solubility between PDM and PPM in aqueous solutions may be a result of different adjoining cation species, since the soluble PDM polymer is largely composed of Mg2+ ions and the insoluble PPM is dominated by Ca2+ ions. Furthermore, AM shared most properties with SM, which is likely attributed to a similar, acid-based production protocol. The here presented gentler approach of purifying melanin facilitates a new perspective of an intact form of soluble and insoluble melanin that is less chemical altered and thus closer to its original biological form.\",\"language\":\"en\",\"number\":\"1\",\"urldate\":\"2022-11-09\",\"journal\":\"Marine Drugs\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Wibowo\"],\"firstnames\":[\"Joko\",\"Tri\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Petersen\"],\"firstnames\":[\"Lars-Erik\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Alfiansah\"],\"firstnames\":[\"Yustian\",\"R.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Lattyak\"],\"firstnames\":[\"Colleen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"January\",\"year\":\"2022\",\"pages\":\"54\",\"bibtex\":\"@article{wibowo_characterization_2022,\\n\\ttitle = {Characterization of an {Insoluble} and {Soluble} {Form} of {Melanin} {Produced} by {Streptomyces} cavourensis {SV} 21, a {Sea} {Cucumber} {Associated} {Bacterium}},\\n\\tvolume = {20},\\n\\tissn = {1660-3397},\\n\\turl = {https://www.mdpi.com/1660-3397/20/1/54},\\n\\tdoi = {10.3390/md20010054},\\n\\tabstract = {Melanin is a widely distributed and striking dark-colored pigment produced by countless living organisms. Although a wide range of bioactivities have been recognized, there are still major constraints in using melanin for biotechnological applications such as its fragmentary known chemical structure and its insolubility in inorganic and organic solvents. In this study, a bacterial culture of Streptomyces cavourensis SV 21 produced two distinct forms of melanin: (1) a particulate, insoluble form as well as (2) a rarely observed water-soluble form. The here presented novel, acid-free purification protocol of purified particulate melanin (PPM) and purified dissolved melanin (PDM) represents the basis for an in-depth comparison of their physicochemical and biological properties, which were compared to the traditional acid-based precipitation of melanin (AM) and to a synthetic melanin standard (SM). Our data show that the differences in solubility between PDM and PPM in aqueous solutions may be a result of different adjoining cation species, since the soluble PDM polymer is largely composed of Mg2+ ions and the insoluble PPM is dominated by Ca2+ ions. Furthermore, AM shared most properties with SM, which is likely attributed to a similar, acid-based production protocol. The here presented gentler approach of purifying melanin facilitates a new perspective of an intact form of soluble and insoluble melanin that is less chemical altered and thus closer to its original biological form.},\\n\\tlanguage = {en},\\n\\tnumber = {1},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Marine Drugs},\\n\\tauthor = {Wibowo, Joko Tri and Kellermann, Matthias Y. and Petersen, Lars-Erik and Alfiansah, Yustian R. and Lattyak, Colleen and Schupp, Peter J.},\\n\\tmonth = jan,\\n\\tyear = {2022},\\n\\tpages = {54},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Wibowo, J. T.\",\"Kellermann, M. Y.\",\"Petersen, L.\",\"Alfiansah, Y. R.\",\"Lattyak, C.\",\"Schupp, P. J.\"],\"key\":\"wibowo_characterization_2022\",\"id\":\"wibowo_characterization_2022\",\"bibbaseid\":\"wibowo-kellermann-petersen-alfiansah-lattyak-schupp-characterizationofaninsolubleandsolubleformofmelaninproducedbystreptomycescavourensissv21aseacucumberassociatedbacterium-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/1660-3397/20/1/54\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Zooshikella harenae sp. nov., Isolated from Pacific Oyster Crassostrea gigas, and Establishment of Zooshikella ganghwensis subsp. marina subsp. nov. and Zooshikella ganghwensis subsp. ganghwensis subsp. nov.\",\"volume\":\"13\",\"issn\":\"1424-2818\",\"url\":\"https://www.mdpi.com/1424-2818/13/12/641\",\"doi\":\"10.3390/d13120641\",\"abstract\":\"Here, we describe the polyphasic taxonomy of a novel isolated strain WH53T from the genus Zooshikella isolated from the sand sediment located between the lumen of the Crassostrea gigas From Germany. Phylogenetic analysis determined that the strain WH53T had a high similarity to Zooshikella ganghwensis JC2044T (99.57%) and Zooshikella marina LMG 28823T (99.36%). Strain WH53T contained ubiquinone-9 (Q-9) as the predominant menaquinone, and the major fatty acids were C16:0, C16:1ω7c, and C18:1ω7c. Diphosphatidylglycerol, phosphatidylglycerol, phosphatidylethanolamine, amino phospholipids, and unidentified phospholipids were identified as their polar lipid composition. The DNA G+C content and genome size of strain WH53T were 40.08 mol% and 5,914,969 bp, respectively. Digital DNA–DNA hybridisation (dDDH) for strain WH53T against Z. ganghwensis JC2044T and Z. marina LMG 28823T showed low relatedness values of 26.3% and 26.1%, respectively. The extract of strain WH53T exhibited antimicrobial property. Strain WH53T represents a novel species in the genus Zooshikella. We propose the name of Zooshikella harenae sp. nov., with the type strain WH53T (= DSM 111628T = NCCB 100808T). Furthermore, the dDDH, average nucleotide identity (ANI), percentage of conserved proteins (POCP), and amino acid identity (AAI) value between Z. marina LGM 28823T and Z. ganghwensis DSM 15267T were 79.9%, 97.84%, 76.08%, and 87.01%, respectively, suggesting that both of them should be reclassified as Z. ganghwensis subsp. marina subsp. nov. and Z. ganghwensis subsp. ganghwensis DSM 15267 subsp. nov.\",\"language\":\"en\",\"number\":\"12\",\"urldate\":\"2022-11-09\",\"journal\":\"Diversity\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Pira\"],\"firstnames\":[\"Hani\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Risdian\"],\"firstnames\":[\"Chandra\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kämpfer\"],\"firstnames\":[\"Peter\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Müsken\"],\"firstnames\":[\"Mathias\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wink\"],\"firstnames\":[\"Joachim\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2021\",\"pages\":\"641\",\"bibtex\":\"@article{pira_zooshikella_2021,\\n\\ttitle = {Zooshikella harenae sp. nov., {Isolated} from {Pacific} {Oyster} {Crassostrea} gigas, and {Establishment} of {Zooshikella} ganghwensis subsp. marina subsp. nov. and {Zooshikella} ganghwensis subsp. ganghwensis subsp. nov.},\\n\\tvolume = {13},\\n\\tissn = {1424-2818},\\n\\turl = {https://www.mdpi.com/1424-2818/13/12/641},\\n\\tdoi = {10.3390/d13120641},\\n\\tabstract = {Here, we describe the polyphasic taxonomy of a novel isolated strain WH53T from the genus Zooshikella isolated from the sand sediment located between the lumen of the Crassostrea gigas From Germany. Phylogenetic analysis determined that the strain WH53T had a high similarity to Zooshikella ganghwensis JC2044T (99.57\\\\%) and Zooshikella marina LMG 28823T (99.36\\\\%). Strain WH53T contained ubiquinone-9 (Q-9) as the predominant menaquinone, and the major fatty acids were C16:0, C16:1ω7c, and C18:1ω7c. Diphosphatidylglycerol, phosphatidylglycerol, phosphatidylethanolamine, amino phospholipids, and unidentified phospholipids were identified as their polar lipid composition. The DNA G+C content and genome size of strain WH53T were 40.08 mol\\\\% and 5,914,969 bp, respectively. Digital DNA–DNA hybridisation (dDDH) for strain WH53T against Z. ganghwensis JC2044T and Z. marina LMG 28823T showed low relatedness values of 26.3\\\\% and 26.1\\\\%, respectively. The extract of strain WH53T exhibited antimicrobial property. Strain WH53T represents a novel species in the genus Zooshikella. We propose the name of Zooshikella harenae sp. nov., with the type strain WH53T (= DSM 111628T = NCCB 100808T). Furthermore, the dDDH, average nucleotide identity (ANI), percentage of conserved proteins (POCP), and amino acid identity (AAI) value between Z. marina LGM 28823T and Z. ganghwensis DSM 15267T were 79.9\\\\%, 97.84\\\\%, 76.08\\\\%, and 87.01\\\\%, respectively, suggesting that both of them should be reclassified as Z. ganghwensis subsp. marina subsp. nov. and Z. ganghwensis subsp. ganghwensis DSM 15267 subsp. nov.},\\n\\tlanguage = {en},\\n\\tnumber = {12},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Diversity},\\n\\tauthor = {Pira, Hani and Risdian, Chandra and Kämpfer, Peter and Müsken, Mathias and Schupp, Peter J. and Wink, Joachim},\\n\\tmonth = dec,\\n\\tyear = {2021},\\n\\tpages = {641},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Pira, H.\",\"Risdian, C.\",\"Kämpfer, P.\",\"Müsken, M.\",\"Schupp, P. J.\",\"Wink, J.\"],\"key\":\"pira_zooshikella_2021\",\"id\":\"pira_zooshikella_2021\",\"bibbaseid\":\"pira-risdian-kmpfer-msken-schupp-wink-zooshikellaharenaespnovisolatedfrompacificoystercrassostreagigasandestablishmentofzooshikellaganghwensissubspmarinasubspnovandzooshikellaganghwensissubspganghwensissubspnov-2021\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/1424-2818/13/12/641\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"A comprehensive approach to assess marine macro litter pollution and its impacts on corals in the Bangka Strait, North Sulawesi, Indonesia\",\"volume\":\"175\",\"issn\":\"0025326X\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0025326X22000510\",\"doi\":\"10.1016/j.marpolbul.2022.113369\",\"language\":\"en\",\"urldate\":\"2022-11-08\",\"journal\":\"Marine Pollution Bulletin\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Mueller\"],\"firstnames\":[\"Jasmin\",\"S.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bill\"],\"firstnames\":[\"Nicolas\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Reinach\"],\"firstnames\":[\"Marco\",\"S.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Lasut\"],\"firstnames\":[\"Markus\",\"T.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Freund\"],\"firstnames\":[\"Holger\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"February\",\"year\":\"2022\",\"pages\":\"113369\",\"bibtex\":\"@article{mueller_comprehensive_2022,\\n\\ttitle = {A comprehensive approach to assess marine macro litter pollution and its impacts on corals in the {Bangka} {Strait}, {North} {Sulawesi}, {Indonesia}},\\n\\tvolume = {175},\\n\\tissn = {0025326X},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0025326X22000510},\\n\\tdoi = {10.1016/j.marpolbul.2022.113369},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-08},\\n\\tjournal = {Marine Pollution Bulletin},\\n\\tauthor = {Mueller, Jasmin S. and Bill, Nicolas and Reinach, Marco S. and Lasut, Markus T. and Freund, Holger and Schupp, Peter J.},\\n\\tmonth = feb,\\n\\tyear = {2022},\\n\\tpages = {113369},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Mueller, J. S.\",\"Bill, N.\",\"Reinach, M. S.\",\"Lasut, M. T.\",\"Freund, H.\",\"Schupp, P. J.\"],\"key\":\"mueller_comprehensive_2022\",\"id\":\"mueller_comprehensive_2022\",\"bibbaseid\":\"mueller-bill-reinach-lasut-freund-schupp-acomprehensiveapproachtoassessmarinemacrolitterpollutionanditsimpactsoncoralsinthebangkastraitnorthsulawesiindonesia-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0025326X22000510\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Pacificimonas pallium sp. nov., an Isolated Bacterium from the Mantle of Pacific Oyster Crassostrea gigas in Germany, and Prediction of One-Carbon Metabolism\",\"volume\":\"14\",\"issn\":\"1424-2818\",\"url\":\"https://www.mdpi.com/1424-2818/14/3/181\",\"doi\":\"10.3390/d14030181\",\"abstract\":\"A yellow bacterium from marine agar, strain WHA3T, was isolated from the mantel of the Pacific oysters Crassostrea gigas in the Wilhelmshaven Sea in northern Germany. Based on the 16S rRNA gene sequence, strain WHA3T had a high similarity to Pacificimonas flava JLT2015T (95.80%) and 94.79% to Pacificimonas aurantium JLT2012T. Furthermore, the dDDH and ANI value analysis between WHA3T and other closest type strains were lower than 70% and 95%, respectively. The percentage of conserved proteins (POCP) and the average amino acid identity (AAI) value against Pacificimonas flava JLT2015T and Pacificimonas aurantium JLT2012T represented in the ranges of higher than 50% and 60%, respectively. Strain WHA3T contained ubiquinone-10 (Q-10) as the predominant quinone, and the major fatty acids were C16:1 ω7c and C18:1 ω7c. Granules of polyhydroxyalkanoates (PHAs) were absent. The main polar lipids were diphosphatidylglycerol, phosphatidylethanolamine, phosphatidylglycerol, several sphingoglycolipids, an unknown phospholipid, an unknown glycolipid, and an unknown polar lipid. The polyamines contained spermidine and spermine. The DNA G + C content of strain WHA3T was 61.69%. An analysis of the whole-genome sequence in the frame of genome mining strain WHA3T predicted the presence of genomes for one-carbon metabolism, TonB-dependent transporters, vitamin B12 transporter, iron siderophore receptor protein, and other genes, some of which play important roles against restricted nutrient sources. The extract of strain WHA3T moderately inhibited the growth of Candida albicans DSM 1665. The polyphasic taxonomic analysis results suggested that strain WHA3T could be separated from its closest type strains. Strain WHA3T represents a novel species in the genus Pacificimonas, for which we propose the name Pacificimonaspallium sp. nov., with the type strain WHA3T (= DSM 111825T = NCCB 100832T).\",\"language\":\"en\",\"number\":\"3\",\"urldate\":\"2022-11-08\",\"journal\":\"Diversity\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Pira\"],\"firstnames\":[\"Hani\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Risdian\"],\"firstnames\":[\"Chandra\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Müsken\"],\"firstnames\":[\"Mathias\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wink\"],\"firstnames\":[\"Joachim\"],\"suffixes\":[]}],\"month\":\"February\",\"year\":\"2022\",\"pages\":\"181\",\"bibtex\":\"@article{pira_pacificimonas_2022,\\n\\ttitle = {Pacificimonas pallium sp. nov., an {Isolated} {Bacterium} from the {Mantle} of {Pacific} {Oyster} {Crassostrea} gigas in {Germany}, and {Prediction} of {One}-{Carbon} {Metabolism}},\\n\\tvolume = {14},\\n\\tissn = {1424-2818},\\n\\turl = {https://www.mdpi.com/1424-2818/14/3/181},\\n\\tdoi = {10.3390/d14030181},\\n\\tabstract = {A yellow bacterium from marine agar, strain WHA3T, was isolated from the mantel of the Pacific oysters Crassostrea gigas in the Wilhelmshaven Sea in northern Germany. Based on the 16S rRNA gene sequence, strain WHA3T had a high similarity to Pacificimonas flava JLT2015T (95.80\\\\%) and 94.79\\\\% to Pacificimonas aurantium JLT2012T. Furthermore, the dDDH and ANI value analysis between WHA3T and other closest type strains were lower than 70\\\\% and 95\\\\%, respectively. The percentage of conserved proteins (POCP) and the average amino acid identity (AAI) value against Pacificimonas flava JLT2015T and Pacificimonas aurantium JLT2012T represented in the ranges of higher than 50\\\\% and 60\\\\%, respectively. Strain WHA3T contained ubiquinone-10 (Q-10) as the predominant quinone, and the major fatty acids were C16:1 ω7c and C18:1 ω7c. Granules of polyhydroxyalkanoates (PHAs) were absent. The main polar lipids were diphosphatidylglycerol, phosphatidylethanolamine, phosphatidylglycerol, several sphingoglycolipids, an unknown phospholipid, an unknown glycolipid, and an unknown polar lipid. The polyamines contained spermidine and spermine. The DNA G + C content of strain WHA3T was 61.69\\\\%. An analysis of the whole-genome sequence in the frame of genome mining strain WHA3T predicted the presence of genomes for one-carbon metabolism, TonB-dependent transporters, vitamin B12 transporter, iron siderophore receptor protein, and other genes, some of which play important roles against restricted nutrient sources. The extract of strain WHA3T moderately inhibited the growth of Candida albicans DSM 1665. The polyphasic taxonomic analysis results suggested that strain WHA3T could be separated from its closest type strains. Strain WHA3T represents a novel species in the genus Pacificimonas, for which we propose the name Pacificimonaspallium sp. nov., with the type strain WHA3T (= DSM 111825T = NCCB 100832T).},\\n\\tlanguage = {en},\\n\\tnumber = {3},\\n\\turldate = {2022-11-08},\\n\\tjournal = {Diversity},\\n\\tauthor = {Pira, Hani and Risdian, Chandra and Müsken, Mathias and Schupp, Peter J. and Wink, Joachim},\\n\\tmonth = feb,\\n\\tyear = {2022},\\n\\tpages = {181},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Pira, H.\",\"Risdian, C.\",\"Müsken, M.\",\"Schupp, P. J.\",\"Wink, J.\"],\"key\":\"pira_pacificimonas_2022\",\"id\":\"pira_pacificimonas_2022\",\"bibbaseid\":\"pira-risdian-msken-schupp-wink-pacificimonaspalliumspnovanisolatedbacteriumfromthemantleofpacificoystercrassostreagigasingermanyandpredictionofonecarbonmetabolism-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/1424-2818/14/3/181\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Coral reef benthic community changes in the Anthropocene: Biogeographic heterogeneity, overlooked configurations, and methodology\",\"volume\":\"28\",\"issn\":\"1354-1013, 1365-2486\",\"shorttitle\":\"Coral reef benthic community changes in the Anthropocene\",\"url\":\"https://onlinelibrary.wiley.com/doi/10.1111/gcb.16034\",\"doi\":\"10.1111/gcb.16034\",\"language\":\"en\",\"number\":\"6\",\"urldate\":\"2022-11-08\",\"journal\":\"Global Change Biology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Reverter\"],\"firstnames\":[\"Miriam\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Helber\"],\"firstnames\":[\"Stephanie\",\"B.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Goeij\"],\"firstnames\":[\"Jasper\",\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"March\",\"year\":\"2022\",\"pages\":\"1956–1971\",\"bibtex\":\"@article{reverter_coral_2022,\\n\\ttitle = {Coral reef benthic community changes in the {Anthropocene}: {Biogeographic} heterogeneity, overlooked configurations, and methodology},\\n\\tvolume = {28},\\n\\tissn = {1354-1013, 1365-2486},\\n\\tshorttitle = {Coral reef benthic community changes in the {Anthropocene}},\\n\\turl = {https://onlinelibrary.wiley.com/doi/10.1111/gcb.16034},\\n\\tdoi = {10.1111/gcb.16034},\\n\\tlanguage = {en},\\n\\tnumber = {6},\\n\\turldate = {2022-11-08},\\n\\tjournal = {Global Change Biology},\\n\\tauthor = {Reverter, Miriam and Helber, Stephanie B. and Rohde, Sven and Goeij, Jasper M. and Schupp, Peter J.},\\n\\tmonth = mar,\\n\\tyear = {2022},\\n\\tpages = {1956--1971},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Reverter, M.\",\"Helber, S. B.\",\"Rohde, S.\",\"Goeij, J. M.\",\"Schupp, P. J.\"],\"key\":\"reverter_coral_2022\",\"id\":\"reverter_coral_2022\",\"bibbaseid\":\"reverter-helber-rohde-goeij-schupp-coralreefbenthiccommunitychangesintheanthropocenebiogeographicheterogeneityoverlookedconfigurationsandmethodology-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://onlinelibrary.wiley.com/doi/10.1111/gcb.16034\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Light Availability Affects the Symbiosis of Sponge Specific Cyanobacteria and the Common Blue Aquarium Sponge (Lendenfeldia chondrodes)\",\"volume\":\"12\",\"issn\":\"2076-2615\",\"url\":\"https://www.mdpi.com/2076-2615/12/10/1283\",\"doi\":\"10.3390/ani12101283\",\"abstract\":\"Bacterial symbionts in marine sponges play a decisive role in the biological and ecological functioning of their hosts. Although this topic has been the focus of numerous studies, data from experiments under controlled conditions are rare. To analyze the ongoing metabolic processes, we investigated the symbiosis of the sponge specific cyanobacterium Synechococcus spongiarum and its sponge host Lendenfeldia chondrodes under varying light conditions in a defined aquarium setting for 68 days. Sponge clonal pieces were kept at four different light intensities, ranging from no light to higher intensities that were assumed to trigger light stress. Growth as a measure of host performance and photosynthetic yield as a proxy of symbiont photosynthetic activity were measured throughout the experiment. The lack of light prevented sponge growth and induced the expulsion of all cyanobacteria and related pigments by the end of the experiment. Higher light conditions allowed rapid sponge growth and high cyanobacteria densities. In addition, photosynthetically active radiation above a certain level triggered an increase in cyanobacteria’s lutein levels, a UV absorbing protein, thus protecting itself and the host’s cells from UV radiation damage. Thus, L. chondrodes seems to benefit strongly from hosting the cyanbacterium S. spongiarum and the relationship should be considered obligatory mutualistic.\",\"language\":\"en\",\"number\":\"10\",\"urldate\":\"2022-11-08\",\"journal\":\"Animals\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Curdt\"],\"firstnames\":[\"Franziska\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rohde\"],\"firstnames\":[\"Sven\"],\"suffixes\":[]}],\"month\":\"May\",\"year\":\"2022\",\"pages\":\"1283\",\"bibtex\":\"@article{curdt_light_2022,\\n\\ttitle = {Light {Availability} {Affects} the {Symbiosis} of {Sponge} {Specific} {Cyanobacteria} and the {Common} {Blue} {Aquarium} {Sponge} ({Lendenfeldia} chondrodes)},\\n\\tvolume = {12},\\n\\tissn = {2076-2615},\\n\\turl = {https://www.mdpi.com/2076-2615/12/10/1283},\\n\\tdoi = {10.3390/ani12101283},\\n\\tabstract = {Bacterial symbionts in marine sponges play a decisive role in the biological and ecological functioning of their hosts. Although this topic has been the focus of numerous studies, data from experiments under controlled conditions are rare. To analyze the ongoing metabolic processes, we investigated the symbiosis of the sponge specific cyanobacterium Synechococcus spongiarum and its sponge host Lendenfeldia chondrodes under varying light conditions in a defined aquarium setting for 68 days. Sponge clonal pieces were kept at four different light intensities, ranging from no light to higher intensities that were assumed to trigger light stress. Growth as a measure of host performance and photosynthetic yield as a proxy of symbiont photosynthetic activity were measured throughout the experiment. The lack of light prevented sponge growth and induced the expulsion of all cyanobacteria and related pigments by the end of the experiment. Higher light conditions allowed rapid sponge growth and high cyanobacteria densities. In addition, photosynthetically active radiation above a certain level triggered an increase in cyanobacteria’s lutein levels, a UV absorbing protein, thus protecting itself and the host’s cells from UV radiation damage. Thus, L. chondrodes seems to benefit strongly from hosting the cyanbacterium S. spongiarum and the relationship should be considered obligatory mutualistic.},\\n\\tlanguage = {en},\\n\\tnumber = {10},\\n\\turldate = {2022-11-08},\\n\\tjournal = {Animals},\\n\\tauthor = {Curdt, Franziska and Schupp, Peter J. and Rohde, Sven},\\n\\tmonth = may,\\n\\tyear = {2022},\\n\\tpages = {1283},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Curdt, F.\",\"Schupp, P. J.\",\"Rohde, S.\"],\"key\":\"curdt_light_2022\",\"id\":\"curdt_light_2022\",\"bibbaseid\":\"curdt-schupp-rohde-lightavailabilityaffectsthesymbiosisofspongespecificcyanobacteriaandthecommonblueaquariumspongelendenfeldiachondrodes-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/2076-2615/12/10/1283\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Prevalence, complete genome, and metabolic potentials of a phylogenetically novel cyanobacterial symbiont in the coral‐killing sponge, <i>Terpios hoshinota</i>\",\"volume\":\"24\",\"issn\":\"1462-2912, 1462-2920\",\"url\":\"https://onlinelibrary.wiley.com/doi/10.1111/1462-2920.15824\",\"doi\":\"10.1111/1462-2920.15824\",\"language\":\"en\",\"number\":\"3\",\"urldate\":\"2022-11-08\",\"journal\":\"Environmental Microbiology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Chen\"],\"firstnames\":[\"Yu‐Hsiang\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Chen\"],\"firstnames\":[\"Hsing‐Ju\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Yang\"],\"firstnames\":[\"Cheng‐Yu\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Shiu\"],\"firstnames\":[\"Jia‐Ho\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hoh\"],\"firstnames\":[\"Daphne\",\"Z.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Chiang\"],\"firstnames\":[\"Pei‐Wen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Chow\"],\"firstnames\":[\"Wenhua\",\"Savanna\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Chen\"],\"firstnames\":[\"Chaolun\",\"Allen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Shih\"],\"firstnames\":[\"Tin‐Han\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Lin\"],\"firstnames\":[\"Szu‐Hsien\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Yang\"],\"firstnames\":[\"Chi‐Ming\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Reimer\"],\"firstnames\":[\"James\",\"Davis\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hirose\"],\"firstnames\":[\"Euichi\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Iskandar\"],\"firstnames\":[\"Budhi\",\"Hascaryo\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Huang\"],\"firstnames\":[\"Hui\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Tan\"],\"firstnames\":[\"Chun\",\"Hong\",\"James\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Yamashiro\"],\"firstnames\":[\"Hideyuki\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Liao\"],\"firstnames\":[\"Ming‐Hui\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Tang\"],\"firstnames\":[\"Sen‐Lin\"],\"suffixes\":[]}],\"month\":\"March\",\"year\":\"2022\",\"pages\":\"1308–1325\",\"bibtex\":\"@article{chen_prevalence_2022,\\n\\ttitle = {Prevalence, complete genome, and metabolic potentials of a phylogenetically novel cyanobacterial symbiont in the coral‐killing sponge, \\\\textit{{Terpios} hoshinota}},\\n\\tvolume = {24},\\n\\tissn = {1462-2912, 1462-2920},\\n\\turl = {https://onlinelibrary.wiley.com/doi/10.1111/1462-2920.15824},\\n\\tdoi = {10.1111/1462-2920.15824},\\n\\tlanguage = {en},\\n\\tnumber = {3},\\n\\turldate = {2022-11-08},\\n\\tjournal = {Environmental Microbiology},\\n\\tauthor = {Chen, Yu‐Hsiang and Chen, Hsing‐Ju and Yang, Cheng‐Yu and Shiu, Jia‐Ho and Hoh, Daphne Z. and Chiang, Pei‐Wen and Chow, Wenhua Savanna and Chen, Chaolun Allen and Shih, Tin‐Han and Lin, Szu‐Hsien and Yang, Chi‐Ming and Reimer, James Davis and Hirose, Euichi and Iskandar, Budhi Hascaryo and Huang, Hui and Schupp, Peter J. and Tan, Chun Hong James and Yamashiro, Hideyuki and Liao, Ming‐Hui and Tang, Sen‐Lin},\\n\\tmonth = mar,\\n\\tyear = {2022},\\n\\tpages = {1308--1325},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Chen, Y.\",\"Chen, H.\",\"Yang, C.\",\"Shiu, J.\",\"Hoh, D. Z.\",\"Chiang, P.\",\"Chow, W. S.\",\"Chen, C. A.\",\"Shih, T.\",\"Lin, S.\",\"Yang, C.\",\"Reimer, J. D.\",\"Hirose, E.\",\"Iskandar, B. H.\",\"Huang, H.\",\"Schupp, P. J.\",\"Tan, C. H. J.\",\"Yamashiro, H.\",\"Liao, M.\",\"Tang, S.\"],\"key\":\"chen_prevalence_2022\",\"id\":\"chen_prevalence_2022\",\"bibbaseid\":\"chen-chen-yang-shiu-hoh-chiang-chow-chen-etal-prevalencecompletegenomeandmetabolicpotentialsofaphylogeneticallynovelcyanobacterialsymbiontinthecoralkillingspongeiterpioshoshinotai-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://onlinelibrary.wiley.com/doi/10.1111/1462-2920.15824\"},\"metadata\":{\"authorlinks\":{}},\"downloads\":1,\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Towards the Development of Standardized Bioassays for Corals: Acute Toxicity of the UV Filter Benzophenone-3 to Scleractinian Coral Larvae\",\"volume\":\"10\",\"issn\":\"2305-6304\",\"shorttitle\":\"Towards the Development of Standardized Bioassays for Corals\",\"url\":\"https://www.mdpi.com/2305-6304/10/5/244\",\"doi\":\"10.3390/toxics10050244\",\"abstract\":\"Coral reefs have been declining globally at a historically unprecedented rate. Ultraviolet (UV) filters used in sunscreens may contribute to this decline at local scales, which has already led to bans on various organic UV filters in some regions. However, the underlying studies for these bans demonstrated significant flaws in the experimental design due to a lack of validated and standardized testing methods for corals. This study aimed to investigate options for the development of a standard acute toxicity test for the larval stage of scleractinian corals. Planula larvae of two brooding (Leptastrea purpurea and Tubastraea faulkneri) and two spawning (Acropora digitifera and A. millepora) species were exposed to the organic UV filter benzophenone-3 (BP3) for 48 h under static conditions. We observed interspecific variations in toxicity, with A. digitifera being the most sensitive (LC50 = 0.75 µg L−1) and T. faulkneri the least sensitive (LC50 = 2951.24 µg L−1) species. Inhibition of settlement was found to be a useful endpoint leading to an EC50 of 1.84 µg L−1 in L. purpurea larvae. Although the analytical challenges of measuring lipophilic substances in small volume test setups remain, the here applied test design and selected endpoints are suitable for further validation and subsequent standardization.\",\"language\":\"en\",\"number\":\"5\",\"urldate\":\"2022-11-09\",\"journal\":\"Toxics\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Miller\"],\"firstnames\":[\"Ingo\",\"B.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Moeller\"],\"firstnames\":[\"Mareen\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kellermann\"],\"firstnames\":[\"Matthias\",\"Y.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Nietzer\"],\"firstnames\":[\"Samuel\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Di\",\"Mauro\"],\"firstnames\":[\"Valentina\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kamyab\"],\"firstnames\":[\"Elham\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Pawlowski\"],\"firstnames\":[\"Sascha\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Petersen-Thiery\"],\"firstnames\":[\"Mechtild\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"May\",\"year\":\"2022\",\"pages\":\"244\",\"bibtex\":\"@article{miller_towards_2022,\\n\\ttitle = {Towards the {Development} of {Standardized} {Bioassays} for {Corals}: {Acute} {Toxicity} of the {UV} {Filter} {Benzophenone}-3 to {Scleractinian} {Coral} {Larvae}},\\n\\tvolume = {10},\\n\\tissn = {2305-6304},\\n\\tshorttitle = {Towards the {Development} of {Standardized} {Bioassays} for {Corals}},\\n\\turl = {https://www.mdpi.com/2305-6304/10/5/244},\\n\\tdoi = {10.3390/toxics10050244},\\n\\tabstract = {Coral reefs have been declining globally at a historically unprecedented rate. Ultraviolet (UV) filters used in sunscreens may contribute to this decline at local scales, which has already led to bans on various organic UV filters in some regions. However, the underlying studies for these bans demonstrated significant flaws in the experimental design due to a lack of validated and standardized testing methods for corals. This study aimed to investigate options for the development of a standard acute toxicity test for the larval stage of scleractinian corals. Planula larvae of two brooding (Leptastrea purpurea and Tubastraea faulkneri) and two spawning (Acropora digitifera and A. millepora) species were exposed to the organic UV filter benzophenone-3 (BP3) for 48 h under static conditions. We observed interspecific variations in toxicity, with A. digitifera being the most sensitive (LC50 = 0.75 µg L−1) and T. faulkneri the least sensitive (LC50 = 2951.24 µg L−1) species. Inhibition of settlement was found to be a useful endpoint leading to an EC50 of 1.84 µg L−1 in L. purpurea larvae. Although the analytical challenges of measuring lipophilic substances in small volume test setups remain, the here applied test design and selected endpoints are suitable for further validation and subsequent standardization.},\\n\\tlanguage = {en},\\n\\tnumber = {5},\\n\\turldate = {2022-11-09},\\n\\tjournal = {Toxics},\\n\\tauthor = {Miller, Ingo B. and Moeller, Mareen and Kellermann, Matthias Y. and Nietzer, Samuel and Di Mauro, Valentina and Kamyab, Elham and Pawlowski, Sascha and Petersen-Thiery, Mechtild and Schupp, Peter J.},\\n\\tmonth = may,\\n\\tyear = {2022},\\n\\tpages = {244},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Miller, I. B.\",\"Moeller, M.\",\"Kellermann, M. Y.\",\"Nietzer, S.\",\"Di Mauro, V.\",\"Kamyab, E.\",\"Pawlowski, S.\",\"Petersen-Thiery, M.\",\"Schupp, P. J.\"],\"key\":\"miller_towards_2022\",\"id\":\"miller_towards_2022\",\"bibbaseid\":\"miller-moeller-kellermann-nietzer-dimauro-kamyab-pawlowski-petersenthiery-etal-towardsthedevelopmentofstandardizedbioassaysforcoralsacutetoxicityoftheuvfilterbenzophenone3toscleractiniancorallarvae-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/2305-6304/10/5/244\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Population genetics and demography of the coral-killing cyanobacteriosponge, <i>Terpios hoshinota,</i> in the Indo-West Pacific\",\"volume\":\"10\",\"issn\":\"2167-8359\",\"url\":\"https://peerj.com/articles/13451\",\"doi\":\"10.7717/peerj.13451\",\"abstract\":\"The first occurrence of the cyanobacteriosponge Terpios hoshinota was reported from coral reefs in Guam in 1973, but was only formally described in 1993. Since then, the invasive behavior of this encrusting, coral-killing sponge has been observed in many coral reefs in the West Pacific. From 2015, its occurrence has expanded westward to the Indian Ocean. Although many studies have investigated the morphology, ecology, and symbiotic cyanobacteria of this sponge, little is known of its population genetics and demography. In this study, a mitochondrial cytochrome oxidase I (COI) fragment and nuclear ribosomal internal transcribed spacer 2 (ITS2) were sequenced to reveal the genetic variation of T. hoshinota collected from 11 marine ecoregions throughout the Indo-West Pacific. Both of the statistical parsimony networks based on the COI and nuclear ITS2 were dominated by a common haplotype. Pairwise F ST and Isolation-by-distance by Mantel test of ITS2 showed moderate gene flow existed among most populations in the marine ecoregions of West Pacific, Coral Triangle, and Eastern Indian Ocean, but with a restricted gene flow between these regions and Maldives in the Central Indian Ocean. Demographic analyses of most T. hoshinota populations were consistent with the mutation-drift equilibrium, except for the Sulawesi Sea and Maldives, which showed bottlenecks following recent expansion. Our results suggest that while long-range dispersal might explain the capability of T. hoshinota to spread in the IWP, stable population demography might account for the long-term persistence of T. hoshinota outbreaks on local reefs.\",\"language\":\"en\",\"urldate\":\"2022-11-08\",\"journal\":\"PeerJ\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Chow\"],\"firstnames\":[\"Savanna\",\"Wenhua\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Keshavmurthy\"],\"firstnames\":[\"Shashank\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Reimer\"],\"firstnames\":[\"James\",\"Davis\"],\"suffixes\":[]},{\"propositions\":[\"de\"],\"lastnames\":[\"Voogd\"],\"firstnames\":[\"Nicole\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Huang\"],\"firstnames\":[\"Hui\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wang\"],\"firstnames\":[\"Jih-Terng\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Tang\"],\"firstnames\":[\"Sen-Lin\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Tan\"],\"firstnames\":[\"Chun\",\"Hong\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Liew\"],\"firstnames\":[\"Hock-Chark\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Soong\"],\"firstnames\":[\"Keryea\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Subhan\"],\"firstnames\":[\"Beginer\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Madduppa\"],\"firstnames\":[\"Hawis\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Chen\"],\"firstnames\":[\"Chaolun\",\"Allen\"],\"suffixes\":[]}],\"month\":\"May\",\"year\":\"2022\",\"pages\":\"e13451\",\"bibtex\":\"@article{chow_population_2022,\\n\\ttitle = {Population genetics and demography of the coral-killing cyanobacteriosponge, \\\\textit{{Terpios} hoshinota,} in the {Indo}-{West} {Pacific}},\\n\\tvolume = {10},\\n\\tissn = {2167-8359},\\n\\turl = {https://peerj.com/articles/13451},\\n\\tdoi = {10.7717/peerj.13451},\\n\\tabstract = {The first occurrence of the cyanobacteriosponge\\n              Terpios hoshinota\\n              was reported from coral reefs in Guam in 1973, but was only formally described in 1993. Since then, the invasive behavior of this encrusting, coral-killing sponge has been observed in many coral reefs in the West Pacific. From 2015, its occurrence has expanded westward to the Indian Ocean. Although many studies have investigated the morphology, ecology, and symbiotic cyanobacteria of this sponge, little is known of its population genetics and demography. In this study, a mitochondrial cytochrome oxidase I (COI) fragment and nuclear ribosomal internal transcribed spacer 2 (ITS2) were sequenced to reveal the genetic variation of\\n              T. hoshinota\\n              collected from 11 marine ecoregions throughout the Indo-West Pacific. Both of the statistical parsimony networks based on the COI and nuclear ITS2 were dominated by a common haplotype. Pairwise\\n              F\\n              ST\\n              and Isolation-by-distance by Mantel test of ITS2 showed moderate gene flow existed among most populations in the marine ecoregions of West Pacific, Coral Triangle, and Eastern Indian Ocean, but with a restricted gene flow between these regions and Maldives in the Central Indian Ocean. Demographic analyses of most\\n              T. hoshinota\\n              populations were consistent with the mutation-drift equilibrium, except for the Sulawesi Sea and Maldives, which showed bottlenecks following recent expansion. Our results suggest that while long-range dispersal might explain the capability of\\n              T. hoshinota\\n              to spread in the IWP, stable population demography might account for the long-term persistence of\\n              T. hoshinota\\n              outbreaks on local reefs.},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-08},\\n\\tjournal = {PeerJ},\\n\\tauthor = {Chow, Savanna Wenhua and Keshavmurthy, Shashank and Reimer, James Davis and de Voogd, Nicole and Huang, Hui and Wang, Jih-Terng and Tang, Sen-Lin and Schupp, Peter J. and Tan, Chun Hong and Liew, Hock-Chark and Soong, Keryea and Subhan, Beginer and Madduppa, Hawis and Chen, Chaolun Allen},\\n\\tmonth = may,\\n\\tyear = {2022},\\n\\tpages = {e13451},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Chow, S. W.\",\"Keshavmurthy, S.\",\"Reimer, J. D.\",\"de Voogd, N.\",\"Huang, H.\",\"Wang, J.\",\"Tang, S.\",\"Schupp, P. J.\",\"Tan, C. H.\",\"Liew, H.\",\"Soong, K.\",\"Subhan, B.\",\"Madduppa, H.\",\"Chen, C. A.\"],\"key\":\"chow_population_2022\",\"id\":\"chow_population_2022\",\"bibbaseid\":\"chow-keshavmurthy-reimer-devoogd-huang-wang-tang-schupp-etal-populationgeneticsanddemographyofthecoralkillingcyanobacteriospongeiterpioshoshinotaiintheindowestpacific-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://peerj.com/articles/13451\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Exploring the Antibiotic Production Potential of Heterotrophic Bacterial Communities Isolated from the Marine Sponges Crateromorpha meyeri, Pseudaxinella reticulata, Farrea similaris, and Caulophacus arcticus through Synergistic Metabolomic and Genomic Analyses\",\"volume\":\"20\",\"issn\":\"1660-3397\",\"url\":\"https://www.mdpi.com/1660-3397/20/7/463\",\"doi\":\"10.3390/md20070463\",\"abstract\":\"The discovery of novel secondary metabolites is actively being pursued in new ecosystems. Sponge-associated bacteria have been in the limelight in recent years on account of their ability to produce bioactive compounds. In this study, heterotrophic bacteria associated with four sponge species were isolated, taxonomically identified, and subjected to screening for the production of bioactive entities against a panel of nine microorganisms, including Gram-positive and negative bacteria, as well as yeast and fungi. Of the 105 isolated strains, 66% were represented by Proteobacteria, 16% by Bacteriodetes, 7% by Actinobacteria, and 11% by Firmicutes. Bioactivity screening revealed that 40% of the total isolated strains showed antimicrobial activity against one or more of the target microorganisms tested. Further, active extracts from selective species were narrowed down by bioassay-guided fractionation and subsequently identified by HR-ESI-MS analyses to locate the active peaks. Presumably responsible compounds for the observed bioactivities were identified as pentadecenoic acid, oleic acid, and palmitoleic acid. One isolate, Qipengyuania pacifica NZ-96T, based on 16S rRNA novelty, was subjected to comparative metabolic reconstruction analysis with its closest phylogenetic neighbors, revealing 79 unique functional roles in the novel isolate. In addition, genome mining of Qipengyuania pacifica NZ-96T revealed three biosynthetic gene clusters responsible for the biosynthesis of terpene, beta lactone, lasso peptide, and hserlactone secondary metabolites. Our results demonstrate the ability to target the sponge microbiome as a potential source of novel microbial life with biotechnological potential.\",\"language\":\"en\",\"number\":\"7\",\"urldate\":\"2022-11-08\",\"journal\":\"Marine Drugs\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Tareen\"],\"firstnames\":[\"Sanaullah\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Iqbal\"],\"firstnames\":[\"Naveed\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wink\"],\"firstnames\":[\"Joachim\"],\"suffixes\":[]}],\"month\":\"July\",\"year\":\"2022\",\"pages\":\"463\",\"bibtex\":\"@article{tareen_exploring_2022,\\n\\ttitle = {Exploring the {Antibiotic} {Production} {Potential} of {Heterotrophic} {Bacterial} {Communities} {Isolated} from the {Marine} {Sponges} {Crateromorpha} meyeri, {Pseudaxinella} reticulata, {Farrea} similaris, and {Caulophacus} arcticus through {Synergistic} {Metabolomic} and {Genomic} {Analyses}},\\n\\tvolume = {20},\\n\\tissn = {1660-3397},\\n\\turl = {https://www.mdpi.com/1660-3397/20/7/463},\\n\\tdoi = {10.3390/md20070463},\\n\\tabstract = {The discovery of novel secondary metabolites is actively being pursued in new ecosystems. Sponge-associated bacteria have been in the limelight in recent years on account of their ability to produce bioactive compounds. In this study, heterotrophic bacteria associated with four sponge species were isolated, taxonomically identified, and subjected to screening for the production of bioactive entities against a panel of nine microorganisms, including Gram-positive and negative bacteria, as well as yeast and fungi. Of the 105 isolated strains, 66\\\\% were represented by Proteobacteria, 16\\\\% by Bacteriodetes, 7\\\\% by Actinobacteria, and 11\\\\% by Firmicutes. Bioactivity screening revealed that 40\\\\% of the total isolated strains showed antimicrobial activity against one or more of the target microorganisms tested. Further, active extracts from selective species were narrowed down by bioassay-guided fractionation and subsequently identified by HR-ESI-MS analyses to locate the active peaks. Presumably responsible compounds for the observed bioactivities were identified as pentadecenoic acid, oleic acid, and palmitoleic acid. One isolate, Qipengyuania pacifica NZ-96T, based on 16S rRNA novelty, was subjected to comparative metabolic reconstruction analysis with its closest phylogenetic neighbors, revealing 79 unique functional roles in the novel isolate. In addition, genome mining of Qipengyuania pacifica NZ-96T revealed three biosynthetic gene clusters responsible for the biosynthesis of terpene, beta lactone, lasso peptide, and hserlactone secondary metabolites. Our results demonstrate the ability to target the sponge microbiome as a potential source of novel microbial life with biotechnological potential.},\\n\\tlanguage = {en},\\n\\tnumber = {7},\\n\\turldate = {2022-11-08},\\n\\tjournal = {Marine Drugs},\\n\\tauthor = {Tareen, Sanaullah and Schupp, Peter J. and Iqbal, Naveed and Wink, Joachim},\\n\\tmonth = jul,\\n\\tyear = {2022},\\n\\tpages = {463},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Tareen, S.\",\"Schupp, P. J.\",\"Iqbal, N.\",\"Wink, J.\"],\"key\":\"tareen_exploring_2022\",\"id\":\"tareen_exploring_2022\",\"bibbaseid\":\"tareen-schupp-iqbal-wink-exploringtheantibioticproductionpotentialofheterotrophicbacterialcommunitiesisolatedfromthemarinespongescrateromorphameyeripseudaxinellareticulatafarreasimilarisandcaulophacusarcticusthroughsynergisticmetabolomicandgenomicanalyses-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.mdpi.com/1660-3397/20/7/463\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Transformation of dissolved organic matter by two Indo-Pacific sponges\",\"issn\":\"0024-3590, 1939-5590\",\"shorttitle\":\"Transformation of dissolved organic matter by two Indo-Pacific sponges\",\"url\":\"https://onlinelibrary.wiley.com/doi/10.1002/lno.12214\",\"doi\":\"10.1002/lno.12214\",\"language\":\"en\",\"urldate\":\"2022-11-08\",\"journal\":\"Limnology and Oceanography\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Hildebrand\"],\"firstnames\":[\"Tabea\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Osterholz\"],\"firstnames\":[\"Helena\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bunse\"],\"firstnames\":[\"Carina\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Grotheer\"],\"firstnames\":[\"Hendrik\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Dittmar\"],\"firstnames\":[\"Thorsten\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]}],\"month\":\"September\",\"year\":\"2022\",\"pages\":\"lno.12214\",\"bibtex\":\"@article{hildebrand_transformation_2022,\\n\\ttitle = {Transformation of dissolved organic matter by two {Indo}-{Pacific} sponges},\\n\\tissn = {0024-3590, 1939-5590},\\n\\tshorttitle = {Transformation of dissolved organic matter by two {Indo}-{Pacific} sponges},\\n\\turl = {https://onlinelibrary.wiley.com/doi/10.1002/lno.12214},\\n\\tdoi = {10.1002/lno.12214},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-08},\\n\\tjournal = {Limnology and Oceanography},\\n\\tauthor = {Hildebrand, Tabea and Osterholz, Helena and Bunse, Carina and Grotheer, Hendrik and Dittmar, Thorsten and Schupp, Peter J.},\\n\\tmonth = sep,\\n\\tyear = {2022},\\n\\tpages = {lno.12214},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Hildebrand, T.\",\"Osterholz, H.\",\"Bunse, C.\",\"Grotheer, H.\",\"Dittmar, T.\",\"Schupp, P. J.\"],\"key\":\"hildebrand_transformation_2022\",\"id\":\"hildebrand_transformation_2022\",\"bibbaseid\":\"hildebrand-osterholz-bunse-grotheer-dittmar-schupp-transformationofdissolvedorganicmatterbytwoindopacificsponges-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://onlinelibrary.wiley.com/doi/10.1002/lno.12214\"},\"metadata\":{\"authorlinks\":{}},\"downloads\":3,\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Harnessing the microbiome to prevent global biodiversity loss\",\"volume\":\"7\",\"issn\":\"2058-5276\",\"url\":\"https://www.nature.com/articles/s41564-022-01173-1\",\"doi\":\"10.1038/s41564-022-01173-1\",\"language\":\"en\",\"number\":\"11\",\"urldate\":\"2022-11-08\",\"journal\":\"Nature Microbiology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Peixoto\"],\"firstnames\":[\"Raquel\",\"S.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Voolstra\"],\"firstnames\":[\"Christian\",\"R.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Sweet\"],\"firstnames\":[\"Michael\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Duarte\"],\"firstnames\":[\"Carlos\",\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Carvalho\"],\"firstnames\":[\"Susana\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Villela\"],\"firstnames\":[\"Helena\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Lunshof\"],\"firstnames\":[\"Jeantine\",\"E.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Gram\"],\"firstnames\":[\"Lone\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Woodhams\"],\"firstnames\":[\"Douglas\",\"C.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Walter\"],\"firstnames\":[\"Jens\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Roik\"],\"firstnames\":[\"Anna\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hentschel\"],\"firstnames\":[\"Ute\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Thurber\"],\"firstnames\":[\"Rebecca\",\"Vega\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Daisley\"],\"firstnames\":[\"Brendan\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ushijima\"],\"firstnames\":[\"Blake\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Daffonchio\"],\"firstnames\":[\"Daniele\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Costa\"],\"firstnames\":[\"Rodrigo\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Keller-Costa\"],\"firstnames\":[\"Tina\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bowman\"],\"firstnames\":[\"Jeff\",\"S.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rosado\"],\"firstnames\":[\"Alexandre\",\"S.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Reid\"],\"firstnames\":[\"Gregor\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Mason\"],\"firstnames\":[\"Christopher\",\"E.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Walke\"],\"firstnames\":[\"Jenifer\",\"B.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Thomas\"],\"firstnames\":[\"Torsten\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Berg\"],\"firstnames\":[\"Gabriele\"],\"suffixes\":[]}],\"month\":\"July\",\"year\":\"2022\",\"pages\":\"1726–1735\",\"bibtex\":\"@article{peixoto_harnessing_2022,\\n\\ttitle = {Harnessing the microbiome to prevent global biodiversity loss},\\n\\tvolume = {7},\\n\\tissn = {2058-5276},\\n\\turl = {https://www.nature.com/articles/s41564-022-01173-1},\\n\\tdoi = {10.1038/s41564-022-01173-1},\\n\\tlanguage = {en},\\n\\tnumber = {11},\\n\\turldate = {2022-11-08},\\n\\tjournal = {Nature Microbiology},\\n\\tauthor = {Peixoto, Raquel S. and Voolstra, Christian R. and Sweet, Michael and Duarte, Carlos M. and Carvalho, Susana and Villela, Helena and Lunshof, Jeantine E. and Gram, Lone and Woodhams, Douglas C. and Walter, Jens and Roik, Anna and Hentschel, Ute and Thurber, Rebecca Vega and Daisley, Brendan and Ushijima, Blake and Daffonchio, Daniele and Costa, Rodrigo and Keller-Costa, Tina and Bowman, Jeff S. and Rosado, Alexandre S. and Reid, Gregor and Mason, Christopher E. and Walke, Jenifer B. and Thomas, Torsten and Berg, Gabriele},\\n\\tmonth = jul,\\n\\tyear = {2022},\\n\\tpages = {1726--1735},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Peixoto, R. S.\",\"Voolstra, C. R.\",\"Sweet, M.\",\"Duarte, C. M.\",\"Carvalho, S.\",\"Villela, H.\",\"Lunshof, J. E.\",\"Gram, L.\",\"Woodhams, D. C.\",\"Walter, J.\",\"Roik, A.\",\"Hentschel, U.\",\"Thurber, R. V.\",\"Daisley, B.\",\"Ushijima, B.\",\"Daffonchio, D.\",\"Costa, R.\",\"Keller-Costa, T.\",\"Bowman, J. S.\",\"Rosado, A. S.\",\"Reid, G.\",\"Mason, C. E.\",\"Walke, J. B.\",\"Thomas, T.\",\"Berg, G.\"],\"key\":\"peixoto_harnessing_2022\",\"id\":\"peixoto_harnessing_2022\",\"bibbaseid\":\"peixoto-voolstra-sweet-duarte-carvalho-villela-lunshof-gram-etal-harnessingthemicrobiometopreventglobalbiodiversityloss-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.nature.com/articles/s41564-022-01173-1\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Mercury contamination level is repeatable and predicted by wintering area in a long-distance migratory seabird\",\"volume\":\"313\",\"issn\":\"02697491\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0269749122013215\",\"doi\":\"10.1016/j.envpol.2022.120107\",\"language\":\"en\",\"urldate\":\"2022-11-08\",\"journal\":\"Environmental Pollution\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Bertram\"],\"firstnames\":[\"Justine\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kürten\"],\"firstnames\":[\"Nathalie\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bichet\"],\"firstnames\":[\"Coraline\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Schupp\"],\"firstnames\":[\"Peter\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Bouwhuis\"],\"firstnames\":[\"Sandra\"],\"suffixes\":[]}],\"month\":\"November\",\"year\":\"2022\",\"pages\":\"120107\",\"bibtex\":\"@article{bertram_mercury_2022,\\n\\ttitle = {Mercury contamination level is repeatable and predicted by wintering area in a long-distance migratory seabird},\\n\\tvolume = {313},\\n\\tissn = {02697491},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0269749122013215},\\n\\tdoi = {10.1016/j.envpol.2022.120107},\\n\\tlanguage = {en},\\n\\turldate = {2022-11-08},\\n\\tjournal = {Environmental Pollution},\\n\\tauthor = {Bertram, Justine and Kürten, Nathalie and Bichet, Coraline and Schupp, Peter J. and Bouwhuis, Sandra},\\n\\tmonth = nov,\\n\\tyear = {2022},\\n\\tpages = {120107},\\n}\\n\\n\\n\\n\",\"author_short\":[\"Bertram, J.\",\"Kürten, N.\",\"Bichet, C.\",\"Schupp, P. J.\",\"Bouwhuis, S.\"],\"key\":\"bertram_mercury_2022\",\"id\":\"bertram_mercury_2022\",\"bibbaseid\":\"bertram-krten-bichet-schupp-bouwhuis-mercurycontaminationlevelisrepeatableandpredictedbywinteringareainalongdistancemigratoryseabird-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0269749122013215\"},\"metadata\":{\"authorlinks\":{}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"A roadmap to understanding diversity and function of coral reef-associated fungi\",\"volume\":\"46\",\"issn\":\"1574-6976\",\"url\":\"https://academic.oup.com/femsre/article/doi/10.1093/femsre/fuac028/6615459\",\"doi\":\"10.1093/femsre/fuac028\",\"abstract\":\"Abstract Tropical coral reefs are hotspots of marine productivity, owing to the association of reef-building corals with endosymbiotic algae and metabolically diverse bacterial communities. However, the functional importance of fungi, well-known for their contribution to shaping terrestrial ecosystems and global nutrient cycles, remains underexplored on coral reefs. We here conceptualize how fungal functional traits may have facilitated the spread, diversification, and ecological adaptation of marine fungi on coral reefs. We propose that functions of reef-associated fungi may be diverse and go beyond their hitherto described roles of pathogens and bioeroders, including but not limited to reef-scale biogeochemical cycles and the structuring of coral-associated and environmental microbiomes via chemical mediation. Recent technological and conceptual advances will allow the elucidation of the physiological, ecological, and chemical contributions of understudied marine fungi to coral holobiont and reef ecosystem functioning and health and may help provide an outlook for reef management actions.\",\"language\":\"en\",\"number\":\"6\",\"urldate\":\"2022-11-08\",\"journal\":\"FEMS Microbiology Reviews\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Roik\"],\"firstnames\":[\"Anna\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Reverter\"],\"firstnames\":[\"Miriam\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Pogoreutz\"],\"firstnames\":[\"Claudia\"],\"suffixes\":[]}],\"month\":\"November\",\"year\":\"2022\",\"pages\":\"fuac028\",\"bibtex\":\"@article{roik_roadmap_2022,\\n\\ttitle = {A roadmap to understanding diversity and function of coral reef-associated fungi},\\n\\tvolume = {46},\\n\\tissn = {1574-6976},\\n\\turl = {https://academic.oup.com/femsre/article/doi/10.1093/femsre/fuac028/6615459},\\n\\tdoi = {10.1093/femsre/fuac028},\\n\\tabstract = {Abstract\\n            Tropical coral reefs are hotspots of marine productivity, owing to the association of reef-building corals with endosymbiotic algae and metabolically diverse bacterial communities. However, the functional importance of fungi, well-known for their contribution to shaping terrestrial ecosystems and global nutrient cycles, remains underexplored on coral reefs. We here conceptualize how fungal functional traits may have facilitated the spread, diversification, and ecological adaptation of marine fungi on coral reefs. We propose that functions of reef-associated fungi may be diverse and go beyond their hitherto described roles of pathogens and bioeroders, including but not limited to reef-scale biogeochemical cycles and the structuring of coral-associated and environmental microbiomes via chemical mediation. Recent technological and conceptual advances will allow the elucidation of the physiological, ecological, and chemical contributions of understudied marine fungi to coral holobiont and reef ecosystem functioning and health and may help provide an outlook for reef management actions.},\\n\\tlanguage = {en},\\n\\tnumber = {6},\\n\\turldate = {2022-11-08},\\n\\tjournal = {FEMS Microbiology Reviews},\\n\\tauthor = {Roik, Anna and Reverter, Miriam and Pogoreutz, Claudia},\\n\\tmonth = nov,\\n\\tyear = {2022},\\n\\tpages = {fuac028},\\n}\\n\",\"author_short\":[\"Roik, A.\",\"Reverter, M.\",\"Pogoreutz, C.\"],\"key\":\"roik_roadmap_2022\",\"id\":\"roik_roadmap_2022\",\"bibbaseid\":\"roik-reverter-pogoreutz-aroadmaptounderstandingdiversityandfunctionofcoralreefassociatedfungi-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://academic.oup.com/femsre/article/doi/10.1093/femsre/fuac028/6615459\"},\"metadata\":{\"authorlinks\":{}},\"downloads\":1,\"html\":\"\"}],\n      metadata: {\"authorlinks\":{}},\n      ownerID: undefined\n    };\n  </script>\n\n  <script type=\"text/javascript\">\n  var site$;\n  if (typeof $ != 'undefined') {\n    console.log('existing jquery: storing and then restoring');\n    site$ = $;\n    $ = null;\n  }\n  </script>\n\n  <script src=\"https://ajax.googleapis.com/ajax/libs/jquery/2.2.4/jquery.min.js\">\n  </script>\n  <script type=\"text/javascript\">\n  if (site$) {\n    console.log('existing jquery: avoiding conflict and restoring');\n    bb$ = $.noConflict(true);\n    $ = site$;\n  } else {\n    bb$ = $;\n  }\n  </script>\n\n  <script src=\"//bibbase.org/js/bibbase.min.js\"\n          type=\"text/javascript\">\n  </script>\n\n  <script type=\"text/javascript\"\n          src=\"https://cdnjs.cloudflare.com/ajax/libs/mathjax/2.7.1/MathJax.js?config=TeX-AMS-MML_HTMLorMML\">\n  </script>\n  <script type=\"text/x-mathjax-config\">\n    MathJax.Hub.Config({tex2jax: {inlineMath: [['$','$'], ['\\\\(','\\\\)']]},\n                        skipTags: [\"body\"],\n                        processClass: \"bibbase_paper\"});\n  </script>\n\n  <style>\n  @media print {\n    .dontprint {\n        display: none !important;\n    }\n\n  .bibbase_group {\n    background-color: #E0E0E0;\n    font-style: italic;\n    font-size: larger;\n    text-shadow: 0px 0px 3px #FFFFFF;\n    border-radius: 4px 4px 4px 4px;\n    -moz-border-radius: 4px 4px 4px 4px;\n    -webkit-border-radius: 4px;\n    padding: 5px 40px 5px;\n    margin-top: 10px;\n    margin-bottom: 5px;\n    cursor: pointer;\n  }\n\n  .bibbase_paper {\n    margin-bottom: 5px;\n  }\n\n  }\n  </style>\n\n  \n  <div style=\"float: right; margin-right: 10px; margin-top: 10px; text-align: right; font-size: 12px\">\n    generated by\n    <a href=\"//bibbase.org\"\n       onclick=\"trackOutboundLink('bibbase', 'logo clicked', window.location.href, '//bibbase.org'); return false;\">\n      <img src=\"//bibbase.org/img/logo.svg\"\n           style=\"vertical-align: middle; margin-left: 3px; height: 16px;\"/\n           alt=\"bibbase.org\"\n           title=\"BibBase – The easiest way to maintain your publications page.\"\n        ></a>\n    \n  </div>\n  \n\n  <div id=\"bibbase_header\" class=\"dontprint\" style=\"\">\n\n    <ul class=\"nav nav-pills\" style=\"margin: 0px;\">\n\n      <li class=\"dropdown\" id=\"groupby_dropdown\">\n      <a class=\"dropdown-toggle\"\n         data-toggle=\"dropdown\"\n         href=\"#\">\n          Group by\n          <b class=\"caret\"></b>\n      </a>\n      <ul class=\"dropdown-menu\">\n        <li class=\"groupby year\"><a onclick=\"groupby('year')\">\n            Year</a>\n        </li>\n        <li class=\"groupby author\"><a onclick=\"groupby('author_short')\">\n            Author</a>\n        </li>\n        <li class=\"groupby type\"><a onclick=\"groupby('type')\">\n            Type</a>\n        </li>\n        <li class=\"groupby keyword\"><a onclick=\"groupby('keyword')\">\n            Keyword</a>\n        </li>\n        <li class=\"groupby downloads\"><a onclick=\"groupby('downloads')\">\n            Downloads</a>\n        </li>\n      </ul>\n      </li>\n\n\n      <li class=\"dropdown\" id=\"menu_dropdown\">\n      <a class=\"dropdown-toggle\"\n         data-toggle=\"dropdown\"\n         href=\"#\" alt=\"controls\">\n          <i class=\"fa fa-reorder\" alt=\"controls\"></i>\n          <b class=\"caret\"></b>\n      </a>\n      <ul class=\"dropdown-menu\">\n        <li>\n          <a onclick=\"toggleAll()\">\n            <i class=\"fa fa-chevron-down fa-fw\"></i> Expand/Collapse All\n          </a>\n        </li>\n        <li>\n          <a download=\"umbio\" href=\"data:text/bibtex;base64,@techreport{ices_working_2025,
	title = {Working {Group} on {Fisheries} {Benthic} {Impact} and {Trade}-offs ({WGFBIT}; outputs from 2024 meeting)},
	copyright = {Creative Commons Attribution 4.0 International},
	url = {https://ices-library.figshare.com/articles/report/Working_Group_on_Fisheries_Benthic_Impact_and_Trade-offs_WGFBIT_outputs_from_2024_meeting_/28351412},
	abstract = {\textbf{Correction (11/02/2025): Update to the list of Authors and to the list of Participants}The Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT) develops methods and assessments to evaluate fisheries’ benthic impact at a regional scale while considering trade-offs between fisheries and seabed health. This report summarizes progress on a European-wide assessment of bottom trawl impacts, presenting the first quantitative evaluation across the Baltic, Atlantic, Mediterranean, and Black Seas. Using indicators of seabed status—RBStot (biomass relative to fauna carrying capacity) and RBSsen (biomass of the 10\% most sensitive fauna relative to carrying capacity)—significant regional and habitat differences in bottom trawling impacts were identified. Methods to differentiate between good and degraded states were further refined, including probability-based approaches for seabed condition assessment.A roadmap was established to implement a Core Fishing Grounds Analysis (CFGA) across all EU marine regions within the 2024–2027 cycle. CFGs aim to balance sustainable fishing and environmental goals by protecting high-value fishing areas. Discussions addressed current limitations of CFGA and guidelines for defining scenarios in trade-off analyses. A preliminary exercise using Atlantic and Mediterranean data explored the effects of varying RBS values on surface area, landing value, fishing effort, and weight. Assuming RBS = 0.8 as the threshold for a "good" condition, the study assessed reductions in exploited areas and fishing efforts needed to meet EU marine targets (D6C5 Adverse Effects on Habitats).The BFIAT (Bottom Fishing Impact Assessment Tool) model was advanced to predict trawling-induced habitat changes and their impact on biological processes like bioturbation. Case studies in the Celtic Sea, Greek waters, Baltic Sea, and Kattegat utilized datasets linking macrofauna traits to biogeochemical processes under different fishing and hydrodynamic regimes. Outputs from BFIAT are integrated with models like OMEXDIA to evaluate sediment carbon processing and with 3D models (NEMO/SPM-IOW, NEMO-ERSEM) to analyze carbon dynamics and deposition. Future work will examine the impacts of fauna reduction, sediment mixing, and carbon decay on ecosystem processes.},
	language = {en},
	urldate = {2025-03-14},
	institution = {ICES Scientific Reports},
	author = {{ICES}},
	collaborator = {{WGFBIT}},
	year = {2025},
	doi = {10.17895/ICES.PUB.28351412},
	keywords = {Pressures, impacts, conservation, and management},
	pages = {6304207 Bytes},
}





@article{mudlaff_seasonal_2025,
	title = {Seasonal {Cycles} in a {Seaweed} {Holobiont}: {A} {Multiyear} {Time} {Series} {Reveals} {Repetitive} {Microbial} {Shifts} and {Core} {Taxa}},
	volume = {27},
	issn = {1462-2912, 1462-2920},
	shorttitle = {Seasonal {Cycles} in a {Seaweed} {Holobiont}},
	url = {https://sfamjournals.onlinelibrary.wiley.com/doi/10.1111/1462-2920.70062},
	doi = {10.1111/1462-2920.70062},
	abstract = {ABSTRACT 
             
              Seasonality is an important natural feature that drives cyclic environmental changes. Seaweed holobionts, inhabiting shallow waters such as rocky shores and mud flats, are subject to seasonal changes in particular, but little is known about the influence of seasonality on their microbial communities. In this study, we conducted a three‐year time series, sampling at two‐month intervals, to assess the seasonality of microbial epibiota in the seaweed holobiont 
              Gracilaria vermiculophylla 
              . Our results reveal pronounced seasonal shifts that are both taxonomic and functional, oscillating between late winter and early summer across consecutive years. While epibiota varied taxonomically between populations, they were functionally similar, indicating that seasonal variability drives functional changes, while spatial variability is more redundant. We also identified seasonal core microbiota that consistently (re)associated with the host at specific times, alongside a permanent core that is present year‐round, independent of season or geography. These findings highlight the dynamic yet resilient nature of seaweed holobionts and demonstrate that their epibiota undergo predictable changes. Therewith, this research offers important insights into the temporal dynamics of seaweed‐associated microbiota and demonstrates that the relationship between seaweed host and its epibiota is not static but naturally subject to an ongoing seasonal succession process.},
	language = {en},
	number = {3},
	urldate = {2025-03-13},
	journal = {Environmental Microbiology},
	author = {Mudlaff, Chantal Marie and Weinberger, Florian and Düsedau, Luisa and Ghotbi, Marjan and Künzel, Sven and Bonthond, Guido},
	month = mar,
	year = {2025},
	pages = {e70062},
}





@article{schnurawa_drone-based_2024,
	title = {Drone-based monitoring of intertidal blue mussel beds in the {Wadden} {Sea} – comparison of a threshold and two machine learning approaches},
	volume = {11},
	issn = {2296-7745},
	url = {https://www.frontiersin.org/articles/10.3389/fmars.2024.1381036/full},
	doi = {10.3389/fmars.2024.1381036},
	abstract = {In the Wadden Sea, intertidal mussel beds of the blue mussel ( 
              Mytilus edulis 
              ) and the Pacific oyster ( 
              Magallana gigas 
              ) form distinct epibenthic communities and local hotspots of high biomass and biodiversity. To detect and evaluate natural and anthropogenic processes, a ground-based monitoring program started over 25 years ago in the German Wadden Sea. In this study, we describe the potential of drones and machine learning approaches for a remote sensing-based integration into an existing monitoring program of intertidal mussel beds. A fixed wing drone was used to cover an area of up to 39ha in a single flight, with an overall time saving potential of 50\%. Applying machine learning approaches, a detailed extraction of the intertidal blue mussel bed coverage with an overall accuracy (OA) up to 95.6\% was reached, applying a Support Vector Machine (SVM). The application of a multispectral sensor improved the classification performance. Compared to ground-based monitoring, the drone-based method provided significantly more information on the area extension, coverage, and associated algae of the mussel beds. The results show that drones can provide a non-invasive way to survey large and difficult to access areas providing detailed maps of mussel beds and their internal structures.},
	urldate = {2025-03-13},
	journal = {Frontiers in Marine Science},
	author = {Schnurawa, Marc and Mueller, Jasmin S. and Schade, Hanna and Nehls, Georg},
	month = apr,
	year = {2024},
	pages = {1381036},
}





@misc{stratmann_dissolved_2024,
	title = {Dissolved organic matter fluxes and fatty acid composition from shallow-water and deep-water demo- and hexactinellid sponges from {New} {Zealand}},
	url = {http://biorxiv.org/lookup/doi/10.1101/2024.06.03.597081},
	doi = {10.1101/2024.06.03.597081},
	abstract = {Abstract 
           
            Sponges are an important component of shallow- and deep-water ecosystems enhancing eukaryotic biodiversity via diverse endo- and epibiota and by providing three dimensional habitats for benthic invertebrates and fishes. Sponge biodiversity is particularly high in the waters around New Zealand (Southwest Pacific), where we collected two shallow- and two deep-water sponge species ( 
            Tedania 
            sp., 
            Suberea meandrina 
            , 
            Farrea raoulensis 
            , 
            Artemisina 
            sp.) for 
            ex-situ 
            incubation experiments to detect whether these sponges may process dissolved organic matter. 
           
          We assessed the biochemical and phospholipid-derived fatty acids (PLFAs) and measured dissolved organic carbon (DOC) and total dissolved nitrogen (TDN) fluxes. Changes in fluorescent dissolved organic matter (FDOM) over time were analyzed and the results were linked to the bacterial communities of the sponge holobiont. 
           
            Dried sponge tissue consisted of 17.5 ± 3.75\% organic (org.) C and of 4.34 ± 1.02\% total nitrogen (TN) with a natural stable isotope composition of -19.0 ±0.25‰ for δ 
            13 
            org. C and of 10.2 ±2.43‰ for δ 
            15 
            TN. None of the DOC fluxes was significant and only the release of TDN by 
            Tedania 
            sp. was significantly different from 0 μmol TDN g org. C 
            -1 
            d 
            -1 
            . We detected the presence of four fluorophores in the FDOM pool: 2 tryptophan- and protein-like fluorophores (C1, C2), 1 humic-like fluorophore (C3), and 1 tyrosine-like fluorophore (C4). The maximum fluorescence intensity F 
            max 
            of C1 decreased significantly in 
            S. meandrina 
            incubations, whereas F 
            max 
            of C2 grew in the same incubations. F 
            max 
            of C3 increased in 
            Tedania 
            sp. incubations, in which F 
            max 
            of C4 decreased. In comparison, F 
            max 
            of C4 in 
            S. meandrina 
            rose. 
           
           
            The PLFA composition of sponge tissue was dominated by long-chain fatty acids, saturated fatty acids, and monosaturated fatty acids and most PLFAs were sponge- and bacteria-specific. The bacterial community of the demosponges 
            Artemisina 
            sp., 
            S. meandrina 
            and 
            Tedania 
            sp. consisted mostly of Proteobacteria and Chloroflexota, whereas the dominating bacteria phylum of the hexactinellid 
            F. raoulensis 
            was Proteobacteria. 
           
           
            We proposed that the holobionts of 
            S. meandrina 
            and 
            Tedania 
            sp. contain bacteria that are involved in the transformation and degradation of DOM. In 
            S. meandrina 
            , Chloroflexota and Poribacteria may degrade tryptophan-like fluorophores to a chemically modified tryptophan-like and protein-like fluorophore, while producing a tyrosine-like fluorophore. In 
            Tedania 
            sp., Chloroflexota may contribute to the release of significant amounts of TDN by producing humic-like fluorophores, while degrading tyrosine-like fluorophores. 
            Farrea raoulensis 
            may not take up DOM due to a lack of Poribacteria and Chloroflexota or may use colloidal instead of truly dissolved DOC.},
	language = {en},
	urldate = {2024-12-20},
	author = {Stratmann, Tanja and Miranda, Mario L. M. and De Kluijver, Anna and Busch, Kathrin and Kelly, Michelle and Mills, Sadie and Schupp, Peter J.},
	month = jun,
	year = {2024},
}





@misc{nietzer_coral_2024,
	title = {Coral larvae on demand: a novel method for an instant acquisition of healthy brooded larvae},
	copyright = {https://creativecommons.org/licenses/by/4.0/},
	shorttitle = {Coral larvae on demand},
	url = {https://www.researchsquare.com/article/rs-4616138/v1},
	doi = {10.21203/rs.3.rs-4616138/v1},
	abstract = {Abstract 
           
            Access to coral larvae is crucial for research on early life stages of corals, yet traditional methods for obtaining brooded larvae are labor-intensive and time-consuming. We present a novel method to efficiently collect viable brooded larvae within minutes from colonies of five different scleractinian coral species ( 
            Leptastrea purpurea 
            , 
            Leptastrea transversa 
            , 
            Tubastraea faulkneri 
            , 
            Pocillopora acuta 
            , 
            Favia fragum 
            ). By immersing the colonies in seawater containing 5–10 g/L potassium chloride for 5–7 minutes, we induced instant larval release. This method yielded a similar quantity of larvae compared to traditional methods. The larvae remained viable, surviving storage for several weeks and settling successfully. Our method is both faster and easier than traditional methods, suitable for application with aquarium-cultured corals or in field stations. The potassium chloride technique was effective for all tested coral species that tolerate elevated potassium ion concentrations without harm. However, it should not be applied to potassium-sensitive corals like 
            Euphyllia 
            . Coral reproduction, larval release, planulation, brooder, spawning, settlement cues},
	urldate = {2024-12-20},
	author = {Nietzer, Samuel and Moeller, Mareen and Fiegel, Laura and Schupp, Peter},
	month = aug,
	year = {2024},
}





@misc{ghotbi_greater_2024,
	title = {Greater host influence and promiscuity: {How} an invasive seaweed host has advantages over co-occurring natives},
	copyright = {http://creativecommons.org/licenses/by-nd/4.0/},
	shorttitle = {Greater host influence and promiscuity},
	url = {http://biorxiv.org/lookup/doi/10.1101/2024.12.02.626238},
	doi = {10.1101/2024.12.02.626238},
	abstract = {Abstract 
           
            The surface microbiome of seaweed hosts is a multi-domain biofilm regulated by host-microbe and microbe-microbe interactions. The extent to which hosts influence these interactions, and potentially affect their resilience and invasion success, remains unclear. We experimentally tested whether hosts with invasion history exert more influence over their biofilms than native hosts. Biofilm formation on proxy surfaces adjacent to one invasive ( 
            Gracilaria vermiculophylla 
            ) and two native ( 
            Fucus serratus, Fucus vesiculosus 
            ) co-occurring hosts was monitored and compared to mature epiphytic biofilms of the same hosts. Only 
            Gracilaria’s 
            proxy biofilms were significantly different in community composition compared to control surfaces. 
            Gracilaria 
            ’s proxy biofilms also showed the highest similarity to their adjacent algae sharing certain bacterial taxa that were absent in control treatments, indicating that colonization of the proxy surface was influenced by the host. 
            Gracilaria 
            and its proxy biofilm showed highest similarity in microbial network variables, suggesting a higher ability of the invader to influence connectivity and microbial associations within its biofilm. Meanwhile 
            Gracilaria 
            ’s mature biofilm also showed higher variability in its prokaryotic composition over experiments, which was also reflected in a less robust microbial network in both 
            Gracilaria 
            and its proxy biofilms. This suggests that in addition to stronger influence in the invasive host, it was also more promiscuous towards potential symbionts from the environment. Ultimately, through examining microbial interactions, in line with previous research we found that host influence and promiscuity may play an important role in seaweed hosts to acclimate to different environmental condition and successfully thrive in new ecosystems.},
	language = {en},
	urldate = {2024-12-20},
	author = {Ghotbi, Marjan and Bonthond, Guido and Ghotbi, Mitra and Künzel, Sven and Needham, David M and Weinberger, Florian},
	month = dec,
	year = {2024},
}





@incollection{todd_drivers_2024,
	address = {Boca Raton},
	edition = {1},
	title = {Drivers of {Coral} {Reef} {Benthic} {Changes} and {Implications} on {Ecosystem} {Functioning} and {Services}},
	isbn = {9781003477518},
	url = {https://www.taylorfrancis.com/books/9781003477518/chapters/10.1201/9781003477518-5},
	language = {en},
	urldate = {2024-12-20},
	booktitle = {Oceanography and {Marine} {Biology}},
	publisher = {CRC Press},
	author = {Reverter, Miriam and Helber, Stephanie B. and Rohde, Sven and Goeij, Jasper M. De and Schupp, Peter J.},
	collaborator = {Todd, P. A. and Russell, B.D.},
	month = sep,
	year = {2024},
	doi = {10.1201/9781003477518-5},
	pages = {215--247},
}





@article{bertram_mercury_2024,
	title = {Mercury concentrations in blood and back feathers are repeatable, heritable and correlated in a long-lived seabird},
	volume = {955},
	issn = {00489697},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0048969724070967},
	doi = {10.1016/j.scitotenv.2024.176939},
	language = {en},
	urldate = {2024-12-20},
	journal = {Science of The Total Environment},
	author = {Bertram, Justine and Moiron, Maria and Bichet, Coraline and Kürten, Nathalie and Schupp, Peter J. and Bouwhuis, Sandra},
	month = dec,
	year = {2024},
	pages = {176939},
}





@article{stratmann_nutrient_2024,
	title = {Nutrient fluxes, oxygen consumption and fatty acid composition from deep-water demo- and hexactinellid sponges from {New} {Zealand}},
	volume = {214},
	issn = {09670637},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0967063724001869},
	doi = {10.1016/j.dsr.2024.104416},
	language = {en},
	urldate = {2024-12-20},
	journal = {Deep Sea Research Part I: Oceanographic Research Papers},
	author = {Stratmann, Tanja and Busch, Kathrin and De Kluijver, Anna and Kelly, Michelle and Mills, Sadie and Rossel, Sven and Schupp, Peter J.},
	month = dec,
	year = {2024},
	pages = {104416},
}





@article{lipinska_rhodoexplorer_2023,
	title = {The {Rhodoexplorer} {Platform} for {Red} {Algal} {Genomics} and {Whole}-{Genome} {Assemblies} for {Several} \textit{{Gracilaria}} {Species}},
	volume = {15},
	copyright = {https://creativecommons.org/licenses/by/4.0/},
	issn = {1759-6653},
	url = {https://academic.oup.com/gbe/article/doi/10.1093/gbe/evad124/7229277},
	doi = {10.1093/gbe/evad124},
	abstract = {Abstract 
            Macroalgal (seaweed) genomic resources are generally lacking as compared with other eukaryotic taxa, and this is particularly true in the red algae (Rhodophyta). Understanding red algal genomes is critical to understanding eukaryotic evolution given that red algal genes are spread across eukaryotic lineages from secondary endosymbiosis and red algae diverged early in the Archaeplastids. The Gracilariales is a highly diverse and widely distributed order including species that can serve as ecosystem engineers in intertidal habitats and several notorious introduced species. The genus Gracilaria is cultivated worldwide, in part for its production of agar and other bioactive compounds with downstream pharmaceutical and industrial applications. This genus is also emerging as a model for algal evolutionary ecology. Here, we report new whole-genome assemblies for two species (Gracilaria chilensis and Gracilaria gracilis), a draft genome assembly of Gracilaria caudata, and genome annotation of the previously published Gracilaria vermiculophylla genome. To facilitate accessibility and comparative analysis, we integrated these data in a newly created web-based portal dedicated to red algal genomics (https://rhodoexplorer.sb-roscoff.fr). These genomes will provide a resource for understanding algal biology and, more broadly, eukaryotic evolution.},
	language = {en},
	number = {7},
	urldate = {2024-11-07},
	journal = {Genome Biology and Evolution},
	author = {Lipinska, Agnieszka P and Krueger-Hadfield, Stacy A and Godfroy, Olivier and Dittami, Simon M and Ayres-Ostrock, Lígia and Bonthond, Guido and Brillet-Guéguen, Loraine and Coelho, Susana and Corre, Erwan and Cossard, Guillaume and Destombe, Christophe and Epperlein, Paul and Faugeron, Sylvain and Ficko-Blean, Elizabeth and Beltrán, Jessica and Lavaut, Emma and Le Bars, Arthur and Marchi, Fabiana and Mauger, Stéphane and Michel, Gurvan and Potin, Philippe and Scornet, Delphine and Sotka, Erik E and Weinberger, Florian and Cabral De Oliveira, Mariana and Guillemin, Marie-Laure and Plastino, Estela M and Valero, Myriam},
	editor = {Castric, Vincent},
	month = jul,
	year = {2023},
	pages = {evad124},
}





@article{garaba_bio-optical_2023,
	title = {Bio-optical properties of the cyanobacterium \textit{{Nodularia} spumigena}},
	volume = {15},
	copyright = {https://creativecommons.org/licenses/by/4.0/},
	issn = {1866-3516},
	url = {https://essd.copernicus.org/articles/15/4163/2023/},
	doi = {10.5194/essd-15-4163-2023},
	abstract = {Abstract. In the last century, an increasing number of extreme weather events have been
experienced across the globe. These events have also been linked to changes
in water quality, especially due to heavy rains, flooding, or droughts. In
terms of blue economic activities, harmful algal bloom events can pose a major
threat, especially when they become widespread and last for several days. We
present and discuss advanced measurements of a bloom dominated by the
cyanobacterium Nodularia spumigena conducted by hyperspectral optical technologies via
experiments of opportunity. Absorption coefficients, absorbance and
fluorescence were measured in the laboratory, and these data are available at
https://doi.org/10.4121/21610995.v1
(Wollschläger et al., 2022), https://doi.org/10.4121/21822051.v1 (Miranda et al., 2023)
and https://doi.org/10.4121/21904632.v1 (Miranda and
Garaba, 2023). Data used to derive the above-water reflectance are available
from https://doi.org/10.4121/21814977.v1 (Garaba,
2023) and https://doi.org/10.4121/21814773.v1
(Garaba and Albinus, 2023). Additionally, hyperspectral
fluorescence measurements of the dissolved compounds in the water were carried out.
These hyperspectral measurements were conducted over a wide spectrum (200–2500 nm). Diagnostic optical features were determined using robust
statistical techniques. Water clarity was inferred from Secchi disc
measurements (https://doi.org/10.1594/PANGAEA.951239,
Garaba and Albinus, 2022). Identification of the cyanobacterium
was completed via visual analysis under a microscope. Full sequences of the 16S rRNA and rbcL genes were
obtained, revealing a very strong match to
N. spumigena; these data are available via GenBank: https://www.ncbi.nlm.nih.gov/nuccore/OP918142/
(Garaba and Bonthond, 2022b) and https://www.ncbi.nlm.nih.gov/nuccore/OP925098
(Garaba and Bonthond, 2022a). The chlorophyll-a
and phycocyanin levels determined are available from https://doi.org/10.4121/21792665.v1 (Rohde et al., 2023).
Our experiments of opportunity echo the importance of sustainable,
simplified, coordinated and continuous water quality monitoring as a way to
thrive with respect to the targets set in the United Nations Sustainable Development Goals (e.g. 6, 11, 12 and 14) or the European Union Framework Directives (e.g. the Water Framework Directive and
Marine Strategy Framework Directive).},
	language = {en},
	number = {9},
	urldate = {2024-11-07},
	journal = {Earth System Science Data},
	author = {Garaba, Shungudzemwoyo P. and Albinus, Michelle and Bonthond, Guido and Flöder, Sabine and Miranda, Mario L. M. and Rohde, Sven and Yong, Joanne Y. L. and Wollschläger, Jochen},
	month = sep,
	year = {2023},
	pages = {4163--4179},
}





@misc{mudlaff_seasonal_2024,
	title = {Seasonal cycles in a seaweed holobiont: {A} multiyear time series reveals repetitive microbial shifts and core taxa},
	copyright = {http://creativecommons.org/licenses/by/4.0/},
	shorttitle = {Seasonal cycles in a seaweed holobiont},
	url = {http://biorxiv.org/lookup/doi/10.1101/2024.10.23.619769},
	doi = {10.1101/2024.10.23.619769},
	abstract = {ABSTRACT 
          Seasonality is an important natural feature that drives cyclic environmental changes. Seaweed holobionts, inhabiting shallow waters such as rocky shores and mud flats, are subject to seasonal changes in particular, but little is known on the influence of seasonality on their microbial communities. 
           
            In this study, we conducted a bi-monthly, three-year time series to assess the seasonality of microbial epibiota in the seaweed holobiont 
            Gracilaria vermiculophylla 
            . Our results reveal pronounced seasonal shifts that are both taxonomic and functional, oscillating between late winter and early summer across consecutive years. While epibiota varied taxonomically between populations, they were functionally similar, indicating that seasonal variability drives functional changes, while spatial variability is more redundant. 
           
          We also identified seasonal core microbiota that consistently (re)associated with the host at specific times, alongside a permanent core that is present year-round, independent of season or geography. These findings highlight the dynamic yet resilient nature of seaweed holobionts and demonstrate that their epibiota undergo predictable changes. Therewith, the research offers important insights into the temporal dynamics of seaweed-associated microbiota, and demonstrates that the relationship between seaweed host and its epibiota is not static, but naturally subject to an ongoing seasonal succession process.},
	language = {en},
	urldate = {2024-11-07},
	author = {Mudlaff, Chantal Marie and Weinberger, Florian and Düsedau, Luisa and Ghotbi, Marjan and Künzel, Sven and Bonthond, Guido},
	month = oct,
	year = {2024},
}





@article{brefeld_acute_2023,
	title = {Acute {Toxicity} {Assays} with {Adult} {Coral} {Fragments}: {A} {Method} for {Standardization}},
	volume = {12},
	copyright = {https://creativecommons.org/licenses/by/4.0/},
	issn = {2305-6304},
	shorttitle = {Acute {Toxicity} {Assays} with {Adult} {Coral} {Fragments}},
	url = {https://www.mdpi.com/2305-6304/12/1/1},
	doi = {10.3390/toxics12010001},
	abstract = {Coral reefs are globally declining due to various anthropogenic stressors. Amongst those, chemical pollutants, such as pesticides from agricultural runoff, sewage or an overabundance of personal care products in coastal waters due to intense tourism, may be considered as a local stressor for reef-building corals. The extent to which such chemicals exhibit toxic effects towards corals at environmentally relevant concentrations is currently controversially discussed and existing studies are often based on varying and sometimes deficient test methods. To address this uncertainty, we adapted available methods into a reliable and comprehensive acute coral toxicity test method for the reef-building coral Montipora digitata. The toxicities of the four substances benzophenone-3 (BP-3), Diuron (DCMU), copper (Cu2+ as CuCl2, positive control) and dimethylformamide (DMF, solvent) were assessed in a 96 h semi-static test design. Endpoints such as maximum quantum yield, bleaching, tissue loss and mortality were evaluated with respect to their suitability for regulatory purposes. Overall, the endpoints bleaching and mortality yielded sensitive and robust results for the four tested substances. As the test method follows the principles of internationally standardized testing methods (ISO, OECD), it can be considered suitable for further validation and standardization. Once validated, a standardized test method will help to obtain reproducible toxicity results useful for marine hazard and risk assessment and regulatory decision making.},
	language = {en},
	number = {1},
	urldate = {2024-08-27},
	journal = {Toxics},
	author = {Brefeld, David and Di Mauro, Valentina and Kellermann, Matthias Y. and Nietzer, Samuel and Moeller, Mareen and Lütjens, Laura H. and Pawlowski, Sascha and Petersen-Thiery, Mechtild and Schupp, Peter J.},
	month = dec,
	year = {2023},
	pages = {1},
}





@article{bertram_sex-_2024,
	title = {Sex- and age-specific mercury accumulation in a long-lived seabird},
	volume = {927},
	issn = {00489697},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0048969724024732},
	doi = {10.1016/j.scitotenv.2024.172330},
	language = {en},
	urldate = {2024-08-27},
	journal = {Science of The Total Environment},
	author = {Bertram, Justine and Bichet, Coraline and Moiron, Maria and Schupp, Peter J. and Bouwhuis, Sandra},
	month = jun,
	year = {2024},
	pages = {172330},
}





@article{roik_trade-offs_2024,
	title = {Trade-offs in a reef-building coral after six years of thermal acclimation},
	volume = {949},
	issn = {00489697},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0048969724047387},
	doi = {10.1016/j.scitotenv.2024.174589},
	language = {en},
	urldate = {2024-08-27},
	journal = {Science of The Total Environment},
	author = {Roik, Anna and Wall, Marlene and Dobelmann, Melina and Nietzer, Samuel and Brefeld, David and Fiesinger, Anna and Reverter, Miriam and Schupp, Peter J. and Jackson, Matthew and Rutsch, Marie and Strahl, Julia},
	month = nov,
	year = {2024},
	pages = {174589},
}





@article{dewenter_abundance_2023,
	title = {Abundance, biomass and species richness of macrozoobenthos along an intertidal elevation gradient},
	volume = {13},
	issn = {2045-7758, 2045-7758},
	url = {https://onlinelibrary.wiley.com/doi/10.1002/ece3.10815},
	doi = {10.1002/ece3.10815},
	abstract = {Abstract 
             
              Ecology aims to comprehend species distribution and its interaction with environmental factors, from global to local scales. While global environmental changes affect marine biodiversity, understanding the drivers at smaller scales remains crucial. Tidal flats can be found on most of the world's coastlines and are particularly vulnerable to anthropogenic disturbances. They are important transient ecosystems between terrestrial and marine ecosystems, and their biodiversity provides important ecosystem services. Owing to this unique, terrestrial–marine transition, strong environmental gradients of elevation, sediment composition and food availability prevail. Here, we investigated which regional and local environmental factors drive the spatio‐temporal dynamics of macrozoobenthos communities on back‐barrier tidal flats in the East Frisian Wadden Sea. On the regional level, we found that species composition changed significantly from west to east on the East Frisian islands and that total abundance and species richness decreased from west to east. On the local abiotic level, we found that macrozoobenthos biomass decreased with higher elevation towards the salt marsh and that the total abundance of organisms in the sediment significantly increased with increasing mud content, while biodiversity and biomass were not changing significantly. In contrast to expectations, increasing Chl 
              a 
              availability as a measure of primary productivity did not result in changes in abundance, biomass or biodiversity, but extremely high total organic carbon (TOC) content was associated with a decrease in biomass and biodiversity. In conclusion, we found regional and local relationships that are similar to those observed in previous studies on macrozoobenthos in the Wadden Sea. Macrozoobenthos biomass, abundance and biodiversity are interrelated in a complex way with the physical, abiotic and biotic processes in and above the sediment.},
	language = {en},
	number = {12},
	urldate = {2024-01-12},
	journal = {Ecology and Evolution},
	author = {Dewenter, Jana and Yong, Joanne and Schupp, Peter J. and Lõhmus, Kertu and Kröncke, Ingrid and Moorthi, Stefanie and Pieck, Daniela and Kuczynski, Lucie and Rohde, Sven},
	month = dec,
	year = {2023},
	pages = {e10815},
}





@article{bonthond_benthic_2023,
	title = {Benthic microbial biogeographic trends in the {North} {Sea} are shaped by an interplay of environmental drivers and bottom trawling effort},
	volume = {3},
	issn = {2730-6151},
	url = {https://www.nature.com/articles/s43705-023-00336-3},
	doi = {10.1038/s43705-023-00336-3},
	abstract = {Abstract 
            Microbial composition and diversity in marine sediments are shaped by environmental, biological, and anthropogenic processes operating at different scales. However, our understanding of benthic microbial biogeography remains limited. Here, we used 16S rDNA amplicon sequencing to characterize benthic microbiota in the North Sea from the top centimeter of 339 sediment samples. We utilized spatially explicit statistical models, to disentangle the effects of the different predictors, including bottom trawling intensity, a prevalent industrial fishing practice which heavily impacts benthic ecosystems. Fitted models demonstrate how the geographic interplay of different environmental and anthropogenic drivers shapes the diversity, structure and potential metabolism of benthic microbial communities. Sediment properties were the primary determinants, with diversity increasing with sediment permeability but also with mud content, highlighting different underlying processes. Additionally, diversity and structure varied with total organic matter content, temperature, bottom shear stress and bottom trawling. Changes in diversity associated with bottom trawling intensity were accompanied by shifts in predicted energy metabolism. Specifically, with increasing trawling intensity, we observed a transition toward more aerobic heterotrophic and less denitrifying predicted metabolism. Our findings provide first insights into benthic microbial biogeographic patterns on a large spatial scale and illustrate how anthropogenic activity such as bottom trawling may influence the distribution and abundances of microbes and potential metabolism at macroecological scales.},
	language = {en},
	number = {1},
	urldate = {2024-01-11},
	journal = {ISME Communications},
	author = {Bonthond, Guido and Beermann, Jan and Gutow, Lars and Neumann, Andreas and Barboza, Francisco Rafael and Desiderato, Andrea and Fofonova, Vera and Helber, Stephanie B. and Khodami, Sahar and Kraan, Casper and Neumann, Hermann and Rohde, Sven and Schupp, Peter J.},
	month = dec,
	year = {2023},
	pages = {132},
}





@article{dohrmann_expanded_2023,
	title = {Expanded sampling of {New} {Zealand} glass sponges ({Porifera}: {Hexactinellida}) provides new insights into biodiversity, chemodiversity, and phylogeny of the class},
	volume = {11},
	issn = {2167-8359},
	shorttitle = {Expanded sampling of {New} {Zealand} glass sponges ({Porifera}},
	url = {https://peerj.com/articles/15017},
	doi = {10.7717/peerj.15017},
	abstract = {Glass sponges (Hexactinellida) constitute important parts of ecosystems on the deep-sea floor worldwide. However, they are still an understudied group in terms of their diversity and systematics. Here, we report on new specimens collected during RV 
              Sonne 
              expedition SO254 to the New Zealand region, which has recently emerged as a biodiversity hotspot for hexactinellids. Examination of the material revealed several species new to science or so far unknown from this area. While formal taxonomic descriptions of a fraction of these were published earlier, we here briefly report on the morphology of the remaining new species and use the collection to greatly expand the molecular phylogeny of the group as established with ribosomal DNA and cytochrome oxidase subunit I markers. In addition, we provide a chemical fingerprinting analysis on a subset of the specimens to investigate if the metabolome of glass sponges contains phylogenetic signal that could be used to supplement morphological and DNA-based approaches.},
	language = {en},
	urldate = {2024-01-11},
	journal = {PeerJ},
	author = {Dohrmann, Martin and Reiswig, Henry M. and Kelly, Michelle and Mills, Sadie and Schätzle, Simone and Reverter, Miriam and Niesse, Natascha and Rohde, Sven and Schupp, Peter and Wörheide, Gert},
	month = apr,
	year = {2023},
	pages = {e15017},
}





@article{mueller_mass_2023,
	title = {Mass mortality event of the giant barrel sponge \textit{{Xestospongia}} sp.: population dynamics and size distribution in {Koh} {Phangan}, {Gulf} of {Thailand}},
	volume = {11},
	issn = {2167-8359},
	shorttitle = {Mass mortality event of the giant barrel sponge \textit{{Xestospongia}} sp.},
	url = {https://peerj.com/articles/16561},
	doi = {10.7717/peerj.16561},
	abstract = {Marine sponges are prominent organisms of the benthic coral reef fauna, providing important ecosystem services. While there have been increasing reports that sponges are becoming one of the dominant benthic organisms in some locations and ecoregions ( 
              e.g 
              . Caribbean), they can be impacted by changing environmental conditions. This study presents the first documentation of a mass mortality event of the barrel sponge 
              Xestospongia 
              sp. in the lower Gulf of Thailand and its consequences on population dynamics and size distribution. Two anthropogenic impacted reefs (Haad Khom and Mae Haad) of the island Koh Phangan and two anthropogenic non-impacted reefs of the islands Koh Yippon and Hin Yippon within the Mu Ko Ang Thong Marine National Park were surveyed in the years 2015 and 2016. The results showed a strong shift in population densities at Koh Phangan. Fatal “bleaching” ending up in mass mortality was observed for these reefs in 2015. 
              Xestospongia 
              sp. abundance decreased from 2015 to 2016 by 80.6\% at Haad Khom and by 98.4\% at Mae Haad. Sponges of all sizes were affected, and mortality occurred regardless of the survey depth (4 and 6 m). However, 
              Xestospongia 
              population densities in the Marine Park were at a constant level during the surveys. The abundances in 2015 were 65\% higher at the Marine Park than at Koh Phangan and 92\% higher in 2016. The most likely causes of the mass mortality event was a local harmful algal bloom event, pathogens, undetected local higher water temperatures, or a combination of these factors, whereas sea surface temperature analyses showed no marine heatwave during the observed mass mortality event in 2015. Considering the ecological importance of sponges such as 
              Xestospongia 
              sp., long-term monitoring of reefs and their environmental parameters should be implemented to prevent such mass die-offs.},
	language = {en},
	urldate = {2024-01-11},
	journal = {PeerJ},
	author = {Mueller, Jasmin S. and Grammel, Paul-Jannis and Bill, Nicolas and Rohde, Sven and Schupp, Peter J.},
	month = dec,
	year = {2023},
	pages = {e16561},
}





@article{vargas_body-plan_2023,
	title = {Body-{Plan} {Reorganization} in a {Sponge} {Correlates} with {Microbiome} {Change}},
	volume = {40},
	issn = {0737-4038, 1537-1719},
	url = {https://academic.oup.com/mbe/article/doi/10.1093/molbev/msad138/7191912},
	doi = {10.1093/molbev/msad138},
	abstract = {Abstract 
            Mounting evidence suggests that animals and their associated bacteria interact via intricate molecular mechanisms, and it is hypothesized that disturbances to the microbiome influence animal development. Here, we show that the loss of a key photosymbiont (i.e., bleaching) upon shading correlates with a stark body-plan reorganization in the common aquarium cyanosponge Lendenfeldia chondrodes. The morphological changes observed in shaded sponges include the development of a thread-like morphology that contrasts with the flattened, foliose morphology of control specimens. The microanatomy of shaded sponges markedly differed from that of control sponges, with shaded specimens lacking a well-developed cortex and choanosome. Also, the palisade of polyvacuolar gland-like cells typical in control specimens was absent in shaded sponges. The morphological changes observed in shaded specimens are coupled with broad transcriptomic changes and include the modulation of signaling pathways involved in animal morphogenesis and immune response, such as the Wnt, transforming growth factor β (TGF-β), and TLR–ILR pathways. This study provides a genetic, physiological, and morphological assessment of the effect of microbiome changes on sponge postembryonic development and homeostasis. The correlated response of the sponge host to the collapse of the population of symbiotic cyanobacteria provides evidence for a coupling between the sponge transcriptomic state and the state of its microbiome. This coupling suggests that the ability of animals to interact with their microbiomes and respond to microbiome perturbations has deep evolutionary origins in this group.},
	language = {en},
	number = {6},
	urldate = {2024-01-11},
	journal = {Molecular Biology and Evolution},
	author = {Vargas, Sergio and Leiva, Laura and Eitel, Michael and Curdt, Franziska and Rohde, Sven and Arnold, Christopher and Nickel, Michael and Schupp, Peter and Orsi, William D and Adamska, Maja and Wörheide, Gert},
	editor = {Crandall, Keith},
	month = jun,
	year = {2023},
	pages = {msad138},
}





@article{di_mauro_ecotoxicological_2023,
	title = {Ecotoxicological {Effects} of {Four} {Commonly} {Used} {Organic} {Solvents} on the {Scleractinian} {Coral} {Montipora} digitata},
	volume = {11},
	copyright = {http://creativecommons.org/licenses/by/3.0/},
	issn = {2305-6304},
	url = {https://www.mdpi.com/2305-6304/11/4/367},
	doi = {10.3390/toxics11040367},
	abstract = {Organic solvents are often used in aquatic toxicity tests to facilitate the testing of hydrophobic or poorly water-soluble substances such as ultraviolet (UV) filters, pesticides, or polycyclic aromatic hydrocarbons (PAHs). Knowledge of intrinsic effects (i.e., measured as standardized and non-standardized endpoints) of such carrier solvents in non-standardized organisms (i.e., corals), is critical to regulatory processes. Therefore, we exposed the reef-building coral Montipora digitata to the most commonly used carrier solvents ethanol, methanol, dimethyl sulfoxide, and dimethylformamide in the range of 10–100 µL L−1 for 16 days. The effects on mortality, photobiological, morphological, and oxidative stress markers were evaluated. In our study, all solvents resulted in significant morphological and/or oxidative stress responses, but not in mortality. Moreover, ethanol led to a rapid increase in turbidity, thus questioning its suitability as a carrier solvent in aquatic studies in general. Based on our observations, we could rank the solvent effects as follows: dimethylformamide {\textless} dimethyl sulfoxide ≈ methanol ≤ ethanol, with dimethylformamide showing the least and ethanol the most pronounced effects. We conclude that the use of solvents in toxicity studies with corals, particularly by examining non-standardized (e.g., morphological, physiological) endpoints, should be taken with caution and requires further elaboration.},
	language = {en},
	number = {4},
	urldate = {2023-04-13},
	journal = {Toxics},
	author = {Di Mauro, Valentina and Kamyab, Elham and Kellermann, Matthias Y. and Moeller, Mareen and Nietzer, Samuel and Luetjens, Laura H. and Pawlowski, Sascha and Petersen-Thiery, Mechtild and Schupp, Peter J.},
	month = apr,
	year = {2023},
	keywords = {\textit{Montipora digitata}, UV-filter, biomarker, dimethyl sulfoxide, dimethylformamide, ecotoxicology, ethanol, methanol, sunscreen, toxicity},
	pages = {367},
}









@article{fiegel_detailed_2023,
	title = {Detailed visualization of settlement and early development in {Leptastrea} purpurea reveals distinct bio-optical features},
	volume = {10},
	issn = {2296-7745},
	url = {https://www.frontiersin.org/articles/10.3389/fmars.2023.984656/full},
	doi = {10.3389/fmars.2023.984656},
	abstract = {Sexually produced juvenile scleractinian corals play a key role in the adaptation process of coral reefs, as they are considered to possess an innate plasticity and thus can adjust to changing environmental parameters within a certain range. In this study we investigated in detail the early life stages of the brooding species 
              Leptastrea purpurea 
              to identify, categorize and visualize the critical steps of the complex transformation process from a swimming coral larva to a sessile coral recruit and later to a coral colony. For that, we performed settlement experiments using previously known cues: cycloprodigiosin (CYPRO) and crustose coralline algae (CCA) as well as novel cues: crude extracts of 
              Pseudoalteromonas espejiana 
              and 
              P. piscicida 
              to identify a general, cue-independent settlement pathway. We monitored the development of 
              L. purpurea 
              over 12 months using bright field and fluorescence microscopy. Also we identified the fluorescence signals of 
              L. purpurea 
              with confocal microscopy at four crucial development steps: (A) swimming larva, (B) metamorphosing larva, (C) coral recruit and (D) adult coral. Our methodological approach allowed us to observe an ontogenetic shift of fluorescence signals which provokes the hypothesis that certain fluorescence patterns might be connected to distinct sequential functions in the early life cycle of scleractinian corals. Our observations showed great similarities to the early development of other brooding and spawning corals, making 
              L. purpurea 
              a prospective candidate to be used as a model organism for coral research. Furthermore, our in-depth picture series provides a robust monitoring reference for coral nurseries or field applications and demonstrates the potential of fluorescence as an indicator to instantly determine the growth stage of a developing coral recruit.},
	urldate = {2023-03-28},
	journal = {Frontiers in Marine Science},
	author = {Fiegel, Laura J. and Kellermann, Matthias Y. and Nietzer, Samuel and Petersen, Lars-Erik and Smykala, Mike and Bickmeyer, Ulf and Schupp, Peter J.},
	month = mar,
	year = {2023},
	pages = {984656},
}





@article{petersen_photodegradation_2023,
	title = {Photodegradation of a bacterial pigment and resulting hydrogen peroxide release enable coral settlement},
	volume = {13},
	issn = {2045-2322},
	url = {https://www.nature.com/articles/s41598-023-30470-w},
	doi = {10.1038/s41598-023-30470-w},
	abstract = {Abstract 
             
              The global degradation of coral reefs is steadily increasing with ongoing climate change. Yet coral larvae settlement, a key mechanism of coral population rejuvenation and recovery, is largely understudied. Here, we show how the lipophilic, settlement-inducing bacterial pigment cycloprodigiosin (CYPRO) is actively harvested and subsequently enriched along the ectoderm of larvae of the scleractinian coral 
              Leptastrea purpura 
              . A light-dependent reaction transforms the CYPRO molecules through photolytic decomposition and provides a constant supply of hydrogen peroxide (H 
              2 
              O 
              2 
              ), leading to attachment on the substrate and metamorphosis into a coral recruit. Micromolar concentrations of H 
              2 
              O 
              2 
              in seawater also resulted in rapid metamorphosis, but without prior larval attachment. We propose that the morphogen CYPRO is responsible for initiating attachment while simultaneously acting as a molecular generator for the comprehensive metamorphosis of pelagic larvae. Ultimately, our approach opens a novel mechanistic dimension to the study of chemical signaling in coral settlement and provides unprecedented insights into the role of infochemicals in cross-kingdom interactions.},
	language = {en},
	number = {1},
	urldate = {2023-03-28},
	journal = {Scientific Reports},
	author = {Petersen, Lars-Erik and Kellermann, Matthias Y. and Fiegel, Laura J. and Nietzer, Samuel and Bickmeyer, Ulf and Abele, Doris and Schupp, Peter J.},
	month = mar,
	year = {2023},
	pages = {3562},
}





@article{bonthond_nonnative_2023,
	title = {Non‐native hosts of an invasive seaweed holobiont have more stable microbial communities compared to native hosts in response to thermal stress},
	volume = {13},
	issn = {2045-7758, 2045-7758},
	url = {https://onlinelibrary.wiley.com/doi/10.1002/ece3.9753},
	doi = {10.1002/ece3.9753},
	language = {en},
	number = {1},
	urldate = {2023-01-27},
	journal = {Ecology and Evolution},
	author = {Bonthond, Guido and Neu, Anna‐Katrin and Bayer, Till and Krueger‐Hadfield, Stacy A. and Künzel, Sven and Weinberger, Florian},
	month = jan,
	year = {2023},
}





@article{boman_diet_2019,
	title = {Diet and growth of juvenile queen conch {Lobatus} gigas ({Gastropoda}: {Strombidae}) in native, mixed and invasive seagrass habitats},
	volume = {621},
	issn = {0171-8630, 1616-1599},
	shorttitle = {Diet and growth of juvenile queen conch {Lobatus} gigas ({Gastropoda}},
	url = {https://www.int-res.com/abstracts/meps/v621/p143-154/},
	doi = {10.3354/meps12990},
	language = {en},
	urldate = {2022-11-10},
	journal = {Marine Ecology Progress Series},
	author = {Boman, Em and Bervoets, T and de Graaf, M and Dewenter, J and Maitz, A and Meijer Zu Schlochtern, Mp and Stapel, J and Smaal, Ac and Nagelkerke, Laj},
	month = jul,
	year = {2019},
	pages = {143--154},
}





@article{yong_spatial_2022,
	title = {Spatial and temporal patterns of microphytobenthos communities along the marine-terrestrial boundary in the {German} {Wadden} {Sea}},
	volume = {10},
	issn = {2296-701X},
	url = {https://www.frontiersin.org/articles/10.3389/fevo.2022.956092/full},
	doi = {10.3389/fevo.2022.956092},
	abstract = {Microphytobenthos (MPBs) are the main primary producers in shallow marine ecosystems, such as the Wadden Sea. We investigated the spatial and temporal dynamics of MPB communities across the marine-terrestrial boundary over three seasons (spring, summer, and fall) on three East Frisian Islands (Norderney, Spiekeroog, and Wangerooge) in the German Wadden Sea. Natural transects were compared with 12 experimental islands (salt marsh vegetated vs. initially bare islands) established on the tidal flats of Spiekeroog for studying dispersal-mediated community assembly. Sediment cores were taken along triplicate transects and on three elevation levels of the experimental islands, corresponding to the pioneer (pio) zone, the lower salt (LS) marsh, and the upper salt (US) marsh. On both the natural transects and the experimental islands, the highest MPB biomass was observed in the pio zone, where vegetation-driven sediment stabilization and high-mud content could have promoted MPB biomass in this marine-terrestrial transition zone. On the experimental islands, MPB biomass and diversity significantly decreased with elevation regardless of the season, indicating that the rarely submerged upper salt marsh level supported minimal MPB growth. The MPB biomass was also higher on initially vegetated than on bare islands, which was the most pronounced on the US level. On the tidal flat transects, the MPB biomass significantly increased with elevation up to the pio zone before decreasing again in the LS marsh. Temperature, sediment water content, and grain size significantly affected transect MPB biomass. MPB diversity, on the other hand, was not related to elevation but was rather determined by temperature, mean grain size, and mud content. Our study suggests that extending MPB studies into the “terrestrial” domain of salt marshes enhances our understanding of the microalgae–plant interaction in this important boundary zone.},
	urldate = {2022-11-10},
	journal = {Frontiers in Ecology and Evolution},
	author = {Yong, Joanne and Moick, Melissa and Dewenter, Jana and Hillebrand, Helmut and Kröncke, Ingrid and Lõhmus, Kertu and Pieck, Daniela and Rohde, Sven and Moorthi, Stefanie},
	month = sep,
	year = {2022},
	pages = {956092},
}





@article{steube_differential_2003,
	title = {Differential effects of staurosporine and its analogues on chemokine release by promyelocytic leukemia cell line {NB}-4},
	volume = {27},
	issn = {01452126},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S014521260300047X},
	doi = {10.1016/S0145-2126(03)00047-X},
	language = {en},
	number = {10},
	urldate = {2022-11-09},
	journal = {Leukemia Research},
	author = {Steube, Klaus G. and Meyer, Corinna and Schupp, Peter and Proksch, Peter and Drexler, Hans G.},
	month = oct,
	year = {2003},
	pages = {957--963},
}





@article{newman_new_2002,
	title = {A new species of pseudocerotid flatworm ({Platyhelminthes}, {Polycladida}) from the {Indo}-{Pacific}},
	volume = {34},
	issn = {0026-279X},
	number = {2},
	journal = {Micronesica},
	author = {Newman, LESLIE J and Schupp, Peter},
	year = {2002},
	pages = {177--184},
}





@article{proksch_detection_2003,
	title = {Detection of pharmacologically active natural products using ecology. {Selected} examples from {Indopacific} marine invertebrates and sponge-derived fungi},
	volume = {75},
	issn = {1365-3075, 0033-4545},
	url = {https://www.degruyter.com/document/doi/10.1351/pac200375020343/html},
	doi = {10.1351/pac200375020343},
	abstract = {Abstract
            This review article presents our group's recent research findings with regard to bioactive natural products from marine sponges and tunicates, as well as from sponge derived fungi. The organisms discussed originate in the Indopacific region, which has an exceptionally rich marine biodiversity. Major topics that are covered in our review include the chemical ecology of sponges, focusing on defense against fishes, as well as the isolation and identification of new bioactive constituents from sponges and tunicates. Sponge derived fungi are introduced as an emerging source for new bioactive metabolites, reflecting the currently growing interest in natural products from marine microorganisms.},
	language = {en},
	number = {2-3},
	urldate = {2022-11-09},
	journal = {Pure and Applied Chemistry},
	author = {Proksch, P. and Ebel, R. and Edrada, R. A. and Schupp, P. and Lin, W. H. and {Sudarsono} and Wray, V. and Steube, K.},
	month = jan,
	year = {2003},
	pages = {343--352},
}





@article{schupp_eudistomins_2003,
	title = {Eudistomins {W} and {X}, {Two} {New} β-{Carbolines} from the {Micronesian} {Tunicate} \textit{{Eudistoma}} sp.},
	volume = {66},
	issn = {0163-3864, 1520-6025},
	url = {https://pubs.acs.org/doi/10.1021/np020315n},
	doi = {10.1021/np020315n},
	language = {en},
	number = {2},
	urldate = {2022-11-09},
	journal = {Journal of Natural Products},
	author = {Schupp, Peter and Poehner, Timo and Edrada, RuAngelie and Ebel, Rainer and Berg, Albrecht and Wray, Victor and Proksch, Peter},
	month = feb,
	year = {2003},
	pages = {272--275},
}





@article{taylor_host_2004,
	title = {Host specificity in marine sponge-associated bacteria, and potential implications for marine microbial diversity: {Host} specificity and diversity in marine bacteria},
	volume = {6},
	issn = {14622912},
	shorttitle = {Host specificity in marine sponge-associated bacteria, and potential implications for marine microbial diversity},
	url = {http://doi.wiley.com/10.1046/j.1462-2920.2003.00545.x},
	doi = {10.1046/j.1462-2920.2003.00545.x},
	language = {en},
	number = {2},
	urldate = {2022-11-09},
	journal = {Environmental Microbiology},
	author = {Taylor, Michael W. and Schupp, Peter J. and Dahllöf, Ingela and Kjelleberg, Staffan and Steinberg, Peter D.},
	month = feb,
	year = {2004},
	pages = {121--130},
}





@article{taylor_evidence_2004,
	title = {Evidence for {Acyl} {Homoserine} {Lactone} {Signal} {Production} in {Bacteria} {Associated} with {Marine} {Sponges}},
	volume = {70},
	issn = {0099-2240, 1098-5336},
	url = {https://journals.asm.org/doi/10.1128/AEM.70.7.4387-4389.2004},
	doi = {10.1128/AEM.70.7.4387-4389.2004},
	abstract = {ABSTRACT
            We report for the first time the production of acyl homoserine lactones (AHLs) by bacteria associated with marine sponges. Given the involvement of AHLs in bacterial colonization of many higher organisms, we speculate that such quorum sensing signals could play a part in interactions between sponges and the dense bacterial communities living within them.},
	language = {en},
	number = {7},
	urldate = {2022-11-09},
	journal = {Applied and Environmental Microbiology},
	author = {Taylor, Michael W. and Schupp, Peter J. and Baillie, Harriet J. and Charlton, Timothy S. and de Nys, Rocky and Kjelleberg, Staffan and Steinberg, Peter D.},
	month = jul,
	year = {2004},
	pages = {4387--4389},
}





@article{lopez-legentil_chemical_2006,
	title = {Chemical and physical defenses against predators in {Cystodytes} ({Ascidiacea})},
	volume = {332},
	issn = {00220981},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0022098105004971},
	doi = {10.1016/j.jembe.2005.11.002},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Journal of Experimental Marine Biology and Ecology},
	author = {López-Legentil, Susanna and Turon, Xavier and Schupp, Peter},
	month = may,
	year = {2006},
	pages = {27--36},
}





@article{taylor_biogeography_2005,
	title = {Biogeography of bacteria associated with the marine sponge {Cymbastela} concentrica},
	volume = {7},
	issn = {1462-2912, 1462-2920},
	url = {https://onlinelibrary.wiley.com/doi/10.1111/j.1462-2920.2004.00711.x},
	doi = {10.1111/j.1462-2920.2004.00711.x},
	language = {en},
	number = {3},
	urldate = {2022-11-09},
	journal = {Environmental Microbiology},
	author = {Taylor, Michael W. and Schupp, Peter J. and de Nys, Rocky and Kjelleberg, Staffan and Steinberg, Peter D.},
	month = mar,
	year = {2005},
	pages = {419--433},
}





@article{schupp_use_2005,
	title = {Use of solid-phase extraction to enable enhanced detection of acyl homoserine lactones ({AHLs}) in environmental samples},
	volume = {383},
	issn = {1618-2642, 1618-2650},
	url = {http://link.springer.com/10.1007/s00216-005-3387-x},
	doi = {10.1007/s00216-005-3387-x},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Analytical and Bioanalytical Chemistry},
	author = {Schupp, Peter J. and Charlton, Timothy S. and Taylor, Michael W. and Kjelleberg, Staffan and Steinberg, Peter D.},
	month = sep,
	year = {2005},
	pages = {132--137},
}





@incollection{thoms_chemical_2007,
	title = {Chemical defense strategies in sponges: a review},
	volume = {28},
	isbn = {85-7427-023-7 978-85-7427-023-4},
	booktitle = {Porifera research: biodiversity, {Innovation} and sustainability},
	author = {Thoms, Carsten and Schupp, Peter J and Custódio, MR and Lôbo-Hajdu, G and Hajdu, E and Muricy, G},
	year = {2007},
	note = {Publisher: Série Livros},
	pages = {627--637},
}





@article{ortlepp_antifouling_2007,
	title = {Antifouling {Activity} of {Bromotyrosine}-{Derived} {Sponge} {Metabolites} and {Synthetic} {Analogues}},
	volume = {9},
	issn = {1436-2228, 1436-2236},
	url = {http://link.springer.com/10.1007/s10126-007-9029-x},
	doi = {10.1007/s10126-007-9029-x},
	language = {en},
	number = {6},
	urldate = {2022-11-09},
	journal = {Marine Biotechnology},
	author = {Ortlepp, Sofia and Sjögren, Martin and Dahlström, Mia and Weber, Horst and Ebel, Rainer and Edrada, RuAngelie and Thoms, Carsten and Schupp, Peter and Bohlin, Lars and Proksch, Peter},
	month = nov,
	year = {2007},
	pages = {776--785},
}





@article{van_alstyne_distribution_2006,
	title = {The distribution of dimethylsulfoniopropionate in tropical {Pacific} coral reef invertebrates},
	volume = {25},
	issn = {0722-4028, 1432-0975},
	url = {https://link.springer.com/10.1007/s00338-006-0114-9},
	doi = {10.1007/s00338-006-0114-9},
	language = {en},
	number = {3},
	urldate = {2022-11-09},
	journal = {Coral Reefs},
	author = {Van Alstyne, Kathryn L. and Schupp, Peter and Slattery, Marc},
	month = aug,
	year = {2006},
	pages = {321--327},
}





@article{thoms_activated_2008,
	title = {Activated {Chemical} {Defense} in {Marine} {Sponges}—a {Case} {Study} on {Aplysinella} rhax},
	volume = {34},
	issn = {0098-0331, 1573-1561},
	url = {http://link.springer.com/10.1007/s10886-008-9518-z},
	doi = {10.1007/s10886-008-9518-z},
	language = {en},
	number = {9},
	urldate = {2022-11-09},
	journal = {Journal of Chemical Ecology},
	author = {Thoms, Carsten and Schupp, Peter J.},
	month = sep,
	year = {2008},
	pages = {1242--1252},
}





@article{greve_apralactone_2008,
	title = {Apralactone {A} and a {New} {Stereochemical} {Class} of {Curvularins} from the {Marine} {Fungus} \textit{{Curvularia}} sp.},
	volume = {2008},
	issn = {1434193X, 10990690},
	url = {https://onlinelibrary.wiley.com/doi/10.1002/ejoc.200800522},
	doi = {10.1002/ejoc.200800522},
	language = {en},
	number = {30},
	urldate = {2022-11-09},
	journal = {European Journal of Organic Chemistry},
	author = {Greve, Hendrik and Schupp, Peter J. and Eguereva, Ekaterina and Kehraus, Stefan and Kelter, Gerhard and Maier, Armin and Fiebig, Heinz-Herbert and König, Gabriele M.},
	month = oct,
	year = {2008},
	pages = {5085--5092},
}





@article{thoms_rapid_2008,
	title = {Rapid tissue reduction and recovery in the sponge {Aplysinella} sp.},
	volume = {156},
	issn = {0025-3162, 1432-1793},
	url = {http://link.springer.com/10.1007/s00227-008-1071-3},
	doi = {10.1007/s00227-008-1071-3},
	language = {en},
	number = {2},
	urldate = {2022-11-09},
	journal = {Marine Biology},
	author = {Thoms, Carsten and Hentschel, Ute and Schmitt, Susanne and Schupp, Peter J.},
	month = dec,
	year = {2008},
	pages = {141--153},
}





@article{manzo_chemistry_2007,
	title = {Chemistry of {Glossodoris} {Nudibranchs}: {Specific} {Occurrence} of 12-{Keto} {Scalaranes}},
	volume = {33},
	issn = {0098-0331, 1573-1561},
	shorttitle = {Chemistry of {Glossodoris} {Nudibranchs}},
	url = {http://link.springer.com/10.1007/s10886-007-9387-x},
	doi = {10.1007/s10886-007-9387-x},
	language = {en},
	number = {12},
	urldate = {2022-11-09},
	journal = {Journal of Chemical Ecology},
	author = {Manzo, Emiliano and Gavagnin, Margherita and Somerville, Michael J. and Mao, Shui-Chun and Ciavatta, M. Letizia and Mollo, Ernesto and Schupp, Peter J. and Garson, Mary J. and Guo, Yue-Wei and Cimino, Guido},
	month = dec,
	year = {2007},
	pages = {2325--2336},
}





@article{matthew_apratoxin_2008,
	title = {Apratoxin {E}, a {Cytotoxic} {Peptolide} from a {Guamanian} {Collection} of the {Marine} {Cyanobacterium} \textit{{Lyngbya} bouillonii}},
	volume = {71},
	issn = {0163-3864, 1520-6025},
	url = {https://pubs.acs.org/doi/10.1021/np700717s},
	doi = {10.1021/np700717s},
	language = {en},
	number = {6},
	urldate = {2022-11-09},
	journal = {Journal of Natural Products},
	author = {Matthew, Susan and Schupp, Peter J. and Luesch, Hendrik},
	month = jun,
	year = {2008},
	pages = {1113--1116},
}





@article{kitamura_luminaolide_2009,
	title = {Luminaolide, a novel metamorphosis-enhancing macrodiolide for scleractinian coral larvae from crustose coralline algae},
	volume = {50},
	issn = {00404039},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0040403909017870},
	doi = {10.1016/j.tetlet.2009.09.065},
	language = {en},
	number = {47},
	urldate = {2022-11-09},
	journal = {Tetrahedron Letters},
	author = {Kitamura, Makoto and Schupp, Peter J. and Nakano, Yoshikatsu and Uemura, Daisuke},
	month = nov,
	year = {2009},
	pages = {6606--6609},
}





@article{matz_marine_2008,
	title = {Marine {Biofilm} {Bacteria} {Evade} {Eukaryotic} {Predation} by {Targeted} {Chemical} {Defense}},
	volume = {3},
	issn = {1932-6203},
	url = {https://dx.plos.org/10.1371/journal.pone.0002744},
	doi = {10.1371/journal.pone.0002744},
	language = {en},
	number = {7},
	urldate = {2022-11-09},
	journal = {PLoS ONE},
	author = {Matz, Carsten and Webb, Jeremy S. and Schupp, Peter J. and Phang, Shui Yen and Penesyan, Anahit and Egan, Suhelen and Steinberg, Peter and Kjelleberg, Staffan},
	editor = {McClain, Craig R.},
	month = jul,
	year = {2008},
	pages = {e2744},
}





@article{greve_ten-membered_2008,
	title = {Ten-{Membered} {Lactones} from the {Marine}-{Derived} {Fungus} \textit{{Curvularia}} sp.},
	volume = {71},
	issn = {0163-3864, 1520-6025},
	url = {https://pubs.acs.org/doi/10.1021/np8003326},
	doi = {10.1021/np8003326},
	language = {en},
	number = {9},
	urldate = {2022-11-09},
	journal = {Journal of Natural Products},
	author = {Greve, Hendrik and Schupp, Peter J. and Eguereva, Ekaterina and Kehraus, Stefan and König, Gabriele M.},
	month = sep,
	year = {2008},
	pages = {1651--1653},
}





@article{brunner_chitin-based_2009,
	title = {Chitin-based scaffolds are an integral part of the skeleton of the marine demosponge {Ianthella} basta},
	volume = {168},
	issn = {10478477},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S1047847709001695},
	doi = {10.1016/j.jsb.2009.06.018},
	language = {en},
	number = {3},
	urldate = {2022-11-09},
	journal = {Journal of Structural Biology},
	author = {Brunner, E. and Ehrlich, H. and Schupp, P. and Hedrich, R. and Hunoldt, S. and Kammer, M. and Machill, S. and Paasch, S. and Bazhenov, V.V. and Kurek, D.V. and Arnold, T. and Brockmann, S. and Ruhnow, M. and Born, R.},
	month = dec,
	year = {2009},
	pages = {539--547},
}





@article{schupp_cancer_2009,
	title = {Cancer {Chemopreventive} and {Anticancer} {Evaluation} of {Extracts} and {Fractions} from {Marine} {Macro}- and {Microorganisms} {Collected} from {Twilight} {Zone} {Waters} around {Guam} $^{\textrm{[1]}}$},
	volume = {4},
	issn = {1934-578X, 1555-9475},
	url = {http://journals.sagepub.com/doi/10.1177/1934578X0900401222},
	doi = {10.1177/1934578X0900401222},
	abstract = {The cancer chemopreventive and cytotoxic properties of 50 extracts derived from Twilight Zone (50–150 m) sponges, gorgonians and associated bacteria, together with 15 extracts from shallow water hard corals, as well as 16 fractions derived from the methanol solubles of the Twilight Zone sponge Suberea sp, were assessed in a series of bioassays. These assays included: Induction of quinone reductase (QR), inhibition of TNF-α activated nuclear factor kappa B (NFκB), inhibition of aromatase, interaction with retinoid X receptor (RXR), inhibition of nitric oxide (NO) synthase, inhibition 2,2-diphenyl-1-picrylhydrazyl radical scavenging (DPPH), and inhibition of HL-60 and MCF-7 cell proliferation. The results of these assays showed that at least 10 extracts and five fractions inhibited NFκB by greater than 60\%, two extracts and two fractions inhibited DPPH by more than 50\%, nine extracts and two fractions affected the survival of HL-60 cells, no extracts or fractions affected RXR, three extracts and six fractions affected quinone reductase (QR), three extracts and 12 fractions significantly inhibited aromatase, four extracts and five fractions inhibited nitric oxide synthase, and one extract and no fractions inhibited the growth of MCF-7 cells by more than 95\%. These data revealed the tested samples to have many and varied activities, making them, as shown with the extract of the Suberea species, useful starting points for further fractionation and purification. Moreover, the large number of samples demonstrating activity in only one or sometimes two assays accentuates the potential of the Twilight Zone, as a largely unexplored habitat, for the discovery of selectively bioactive compounds. The overall high hit rate in many of the employed assays is considered to be a significant finding in terms of “normal” hit rates associated with similar samples from shallower depths.},
	language = {en},
	number = {12},
	urldate = {2022-11-09},
	journal = {Natural Product Communications},
	author = {Schupp, Peter J. and Kohlert-Schupp, Claudia and Whitefield, Susanna and Engemann, Anna and Rohde, Sven and Hemscheidt, Thomas and Pezzuto, John M. and Kondratyuk, Tamara P. and Park, Eun-Jung and Marler, Laura and Rostama, Bahman and Wright, Anthony D.},
	month = dec,
	year = {2009},
	pages = {1934578X0900401},
}





@article{manzo_aromatic_2009,
	title = {Aromatic {Cyclic} {Peroxides} and {Related} {Keto}-{Compounds} from the \textit{{Plakortis}} sp. {Component} of a {Sponge} {Consortium}},
	volume = {72},
	issn = {0163-3864, 1520-6025},
	url = {https://pubs.acs.org/doi/10.1021/np900310j},
	doi = {10.1021/np900310j},
	language = {en},
	number = {8},
	urldate = {2022-11-09},
	journal = {Journal of Natural Products},
	author = {Manzo, Emiliano and Ciavatta, M. Letizia and Melck, Dominique and Schupp, Peter and de Voogd, Nicole and Gavagnin, Margherita},
	month = aug,
	year = {2009},
	pages = {1547--1551},
}





@article{schupp_structure_2009,
	title = {Structure of {Pseudocerosine}, an {Indolic} {Azafulvene} {Alkaloid} from the {Flatworm} \textit{{Pseudoceros} indicus}},
	volume = {11},
	issn = {1523-7060, 1523-7052},
	url = {https://pubs.acs.org/doi/10.1021/ol8027785},
	doi = {10.1021/ol8027785},
	language = {en},
	number = {5},
	urldate = {2022-11-09},
	journal = {Organic Letters},
	author = {Schupp, Peter J. and Kohlert-Schupp, Claudia and Yoshida, Wesley Y. and Hemscheidt, Thomas K.},
	month = mar,
	year = {2009},
	pages = {1111--1114},
}





@article{ehrlich_three-dimensional_2010,
	title = {Three-dimensional chitin-based scaffolds from {Verongida} sponges ({Demospongiae}: {Porifera}). {Part} {I}. {Isolation} and identification of chitin},
	volume = {47},
	issn = {01418130},
	shorttitle = {Three-dimensional chitin-based scaffolds from {Verongida} sponges ({Demospongiae}},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0141813010001613},
	doi = {10.1016/j.ijbiomac.2010.05.007},
	language = {en},
	number = {2},
	urldate = {2022-11-09},
	journal = {International Journal of Biological Macromolecules},
	author = {Ehrlich, H. and Ilan, M. and Maldonado, M. and Muricy, G. and Bavestrello, G. and Kljajic, Z. and Carballo, J.L. and Schiaparelli, S. and Ereskovsky, A. and Schupp, P. and Born, R. and Worch, H. and Bazhenov, V.V. and Kurek, D. and Varlamov, V. and Vyalikh, D. and Kummer, K. and Sivkov, V.V. and Molodtsov, S.L. and Meissner, H. and Richter, G. and Steck, E. and Richter, W. and Hunoldt, S. and Kammer, M. and Paasch, S. and Krasokhin, V. and Patzke, G. and Brunner, E.},
	month = aug,
	year = {2010},
	pages = {132--140},
}





@article{ehrlich_three-dimensional_2010,
	title = {Three-dimensional chitin-based scaffolds from {Verongida} sponges ({Demospongiae}: {Porifera}). {Part} {II}: {Biomimetic} potential and applications},
	volume = {47},
	issn = {01418130},
	shorttitle = {Three-dimensional chitin-based scaffolds from {Verongida} sponges ({Demospongiae}},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0141813010001637},
	doi = {10.1016/j.ijbiomac.2010.05.009},
	language = {en},
	number = {2},
	urldate = {2022-11-09},
	journal = {International Journal of Biological Macromolecules},
	author = {Ehrlich, H. and Steck, E. and Ilan, M. and Maldonado, M. and Muricy, G. and Bavestrello, G. and Kljajic, Z. and Carballo, J.L. and Schiaparelli, S. and Ereskovsky, A. and Schupp, P. and Born, R. and Worch, H. and Bazhenov, V.V. and Kurek, D. and Varlamov, V. and Vyalikh, D. and Kummer, K. and Sivkov, V.V. and Molodtsov, S.L. and Meissner, H. and Richter, G. and Hunoldt, S. and Kammer, M. and Paasch, S. and Krasokhin, V. and Patzke, G. and Brunner, E. and Richter, W.},
	month = aug,
	year = {2010},
	pages = {141--145},
}





@article{sharp_bacterial_2010,
	title = {Bacterial {Acquisition} in {Juveniles} of {Several} {Broadcast} {Spawning} {Coral} {Species}},
	volume = {5},
	issn = {1932-6203},
	url = {https://dx.plos.org/10.1371/journal.pone.0010898},
	doi = {10.1371/journal.pone.0010898},
	language = {en},
	number = {5},
	urldate = {2022-11-09},
	journal = {PLoS ONE},
	author = {Sharp, Koty H. and Ritchie, Kim B. and Schupp, Peter J. and Ritson-Williams, Raphael and Paul, Valerie J.},
	editor = {Vollmer, Steve},
	month = may,
	year = {2010},
	pages = {e10898},
}





@article{rubio_depsipeptides_2010,
	title = {Depsipeptides from a {Guamanian} marine cyanobacterium, {Lyngbya} bouillonii, with selective inhibition of serine proteases},
	volume = {51},
	issn = {00404039},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0040403910018393},
	doi = {10.1016/j.tetlet.2010.10.062},
	language = {en},
	number = {51},
	urldate = {2022-11-09},
	journal = {Tetrahedron Letters},
	author = {Rubio, Brent K. and Parrish, Stephen M. and Yoshida, Wesley and Schupp, Peter J. and Schils, Tom and Williams, Philip G.},
	month = dec,
	year = {2010},
	pages = {6718--6721},
}





@article{matthew_cytotoxic_2010,
	title = {Cytotoxic {Halogenated} {Macrolides} and {Modified} {Peptides} from the {Apratoxin}-{Producing} {Marine} {Cyanobacterium} \textit{{Lyngbya} bouillonii} from {Guam}},
	volume = {73},
	issn = {0163-3864, 1520-6025},
	url = {https://pubs.acs.org/doi/10.1021/np1004032},
	doi = {10.1021/np1004032},
	language = {en},
	number = {9},
	urldate = {2022-11-09},
	journal = {Journal of Natural Products},
	author = {Matthew, Susan and Salvador, Lilibeth A. and Schupp, Peter J. and Paul, Valerie J. and Luesch, Hendrik},
	month = sep,
	year = {2010},
	pages = {1544--1552},
}





@incollection{maldonado_growth_2011,
	address = {Dordrecht},
	title = {Growth and regeneration of the elephant ear sponge {Ianthella} basta ({Porifera})},
	isbn = {978-94-007-4687-9 978-94-007-4688-6},
	url = {http://link.springer.com/10.1007/978-94-007-4688-6_18},
	language = {en},
	urldate = {2022-11-09},
	booktitle = {Ancient {Animals}, {New} {Challenges}},
	publisher = {Springer Netherlands},
	author = {Rohde, Sven and Schupp, Peter J.},
	editor = {Maldonado, Manuel and Turon, Xavier and Becerro, Mikel and Jesús Uriz, Maria},
	year = {2011},
	doi = {10.1007/978-94-007-4688-6_18},
	pages = {219--226},
}





@article{rohde_allocation_2011,
	title = {Allocation of chemical and structural defenses in the sponge {Melophlus} sarasinorum},
	volume = {399},
	issn = {00220981},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0022098111000256},
	doi = {10.1016/j.jembe.2011.01.012},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Journal of Experimental Marine Biology and Ecology},
	author = {Rohde, Sven and Schupp, Peter J.},
	month = mar,
	year = {2011},
	pages = {76--83},
}





@article{schmitt_assessing_2012,
	title = {Assessing the complex sponge microbiota: core, variable and species-specific bacterial communities in marine sponges},
	volume = {6},
	issn = {1751-7362, 1751-7370},
	shorttitle = {Assessing the complex sponge microbiota},
	url = {http://www.nature.com/articles/ismej2011116},
	doi = {10.1038/ismej.2011.116},
	language = {en},
	number = {3},
	urldate = {2022-11-09},
	journal = {The ISME Journal},
	author = {Schmitt, Susanne and Tsai, Peter and Bell, James and Fromont, Jane and Ilan, Micha and Lindquist, Niels and Perez, Thierry and Rodrigo, Allen and Schupp, Peter J and Vacelet, Jean and Webster, Nicole and Hentschel, Ute and Taylor, Michael W},
	month = mar,
	year = {2012},
	pages = {564--576},
}





@inproceedings{chua_effects_2012,
	title = {Effects of ocean acidification on metamorphosis: brooding and spawning larvae},
	author = {Chua, Chia-Miin and Schupp, Peter and Leggat, William and Baird, Andrew},
	year = {2012},
}





@article{simister_temporal_2013,
	title = {Temporal molecular and isotopic analysis of active bacterial communities in two {New} {Zealand} sponges},
	volume = {85},
	issn = {01686496},
	url = {https://academic.oup.com/femsec/article-lookup/doi/10.1111/1574-6941.12109},
	doi = {10.1111/1574-6941.12109},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {FEMS Microbiology Ecology},
	author = {Simister, Rachel and Taylor, Michael W. and Rogers, Karyne M. and Schupp, Peter J. and Deines, Peter},
	month = jul,
	year = {2013},
	pages = {195--205},
}





@article{rohde_spatial_2012,
	title = {Spatial {Variability} in {Secondary} {Metabolites} of the {Indo}-{Pacific} {Sponge} {Stylissa} massa},
	volume = {38},
	issn = {0098-0331, 1573-1561},
	url = {http://link.springer.com/10.1007/s10886-012-0124-8},
	doi = {10.1007/s10886-012-0124-8},
	language = {en},
	number = {5},
	urldate = {2022-11-09},
	journal = {Journal of Chemical Ecology},
	author = {Rohde, Sven and Gochfeld, Deborah J. and Ankisetty, Sridevi and Avula, Bharathi and Schupp, Peter J. and Slattery, Marc},
	month = may,
	year = {2012},
	pages = {463--475},
}





@article{wright_twilight_2012,
	title = {Twilight {Zone} {Sponges} from {Guam} {Yield} {Theonellin} {Isocyanate} and {Psammaplysins} {I} and {J}},
	volume = {75},
	issn = {0163-3864, 1520-6025},
	url = {https://pubs.acs.org/doi/10.1021/np200939d},
	doi = {10.1021/np200939d},
	language = {en},
	number = {3},
	urldate = {2022-11-09},
	journal = {Journal of Natural Products},
	author = {Wright, Anthony D. and Schupp, Peter J. and Schrör, Jan-Philipp and Engemann, Anna and Rohde, Sven and Kelman, Dovi and de Voogd, Nicole and Carroll, Anthony and Motti, Cherie A.},
	month = mar,
	year = {2012},
	pages = {502--506},
}





@article{caballes_interspecific_2012,
	title = {Interspecific transmission and recovery of {TCBS}-induced disease between {Acanthaster} planci and {Linckia} guildingi},
	volume = {100},
	issn = {0177-5103, 1616-1580},
	url = {http://www.int-res.com/abstracts/dao/v100/n3/p263-267/},
	doi = {10.3354/dao02480},
	language = {en},
	number = {3},
	urldate = {2022-11-09},
	journal = {Diseases of Aquatic Organisms},
	author = {Caballes, Cf and Schupp, Pj and Pratchett, Ms and Rivera-Posada, Ja},
	month = sep,
	year = {2012},
	pages = {263--267},
}





@article{maru_relative_2013,
	title = {Relative configuration of luminaolide},
	volume = {54},
	issn = {00404039},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0040403913009349},
	doi = {10.1016/j.tetlet.2013.05.143},
	language = {en},
	number = {33},
	urldate = {2022-11-09},
	journal = {Tetrahedron Letters},
	author = {Maru, Norihito and Inuzuka, Toshiyasu and Yamamoto, Keita and Kitamura, Makoto and Schupp, Peter J. and Yamada, Kaoru and Uemura, Daisuke},
	month = aug,
	year = {2013},
	pages = {4385--4387},
}





@article{wysokowski_preparation_2013,
	title = {Preparation of chitin–silica composites by in vitro silicification of two-dimensional {Ianthella} basta demosponge chitinous scaffolds under modified {Stöber} conditions},
	volume = {33},
	issn = {09284931},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0928493113003184},
	doi = {10.1016/j.msec.2013.05.030},
	language = {en},
	number = {7},
	urldate = {2022-11-09},
	journal = {Materials Science and Engineering: C},
	author = {Wysokowski, Marcin and Behm, Thomas and Born, René and Bazhenov, Vasilii V. and Meißner, Heike and Richter, Gert and Szwarc-Rzepka, Karolina and Makarova, Anna and Vyalikh, Denis and Schupp, Peter and Jesionowski, Teofil and Ehrlich, Hermann},
	month = oct,
	year = {2013},
	pages = {3935--3941},
}





@article{gloeckner_hma-lma_2014,
	title = {The {HMA}-{LMA} {Dichotomy} {Revisited}: an {Electron} {Microscopical} {Survey} of 56 {Sponge} {Species}},
	volume = {227},
	issn = {0006-3185, 1939-8697},
	shorttitle = {The {HMA}-{LMA} {Dichotomy} {Revisited}},
	url = {https://www.journals.uchicago.edu/doi/10.1086/BBLv227n1p78},
	doi = {10.1086/BBLv227n1p78},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {The Biological Bulletin},
	author = {Gloeckner, Volker and Wehrl, Markus and Moitinho-Silva, Lucas and Gernert, Christine and Schupp, Peter and Pawlik, Joseph R. and Lindquist, Niels L. and Erpenbeck, Dirk and Wörheide, Gert and Hentschel, Ute},
	month = aug,
	year = {2014},
	pages = {78--88},
}





@article{steinert_application_2014,
	title = {Application of {Diffusion} {Growth} {Chambers} for the {Cultivation} of {Marine} {Sponge}-{Associated} {Bacteria}},
	volume = {16},
	issn = {1436-2228, 1436-2236},
	url = {http://link.springer.com/10.1007/s10126-014-9575-y},
	doi = {10.1007/s10126-014-9575-y},
	language = {en},
	number = {5},
	urldate = {2022-11-09},
	journal = {Marine Biotechnology},
	author = {Steinert, Georg and Whitfield, Susanna and Taylor, Michael W. and Thoms, Carsten and Schupp, Peter J.},
	month = oct,
	year = {2014},
	pages = {594--603},
}





@article{steinert_diversity_2015,
	title = {Diversity of {Actinobacteria} {Associated} with the {Marine} {Ascidian} {Eudistoma} toealensis},
	volume = {17},
	issn = {1436-2228, 1436-2236},
	url = {http://link.springer.com/10.1007/s10126-015-9622-3},
	doi = {10.1007/s10126-015-9622-3},
	language = {en},
	number = {4},
	urldate = {2022-11-09},
	journal = {Marine Biotechnology},
	author = {Steinert, Georg and Taylor, Michael W. and Schupp, Peter J.},
	month = aug,
	year = {2015},
	pages = {377--385},
}





@article{tebben_chemical_2015,
	title = {Chemical mediation of coral larval settlement by crustose coralline algae},
	volume = {5},
	issn = {2045-2322},
	url = {http://www.nature.com/articles/srep10803},
	doi = {10.1038/srep10803},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Scientific Reports},
	author = {Tebben, J. and Motti, C. A and Siboni, Nahshon and Tapiolas, D. M. and Negri, A. P. and Schupp, P. J. and Kitamura, Makoto and Hatta, Masayuki and Steinberg, P. D. and Harder, T.},
	month = sep,
	year = {2015},
	pages = {10803},
}





@article{rohde_prevalence_2015,
	title = {Prevalence and {Mechanisms} of {Dynamic} {Chemical} {Defenses} in {Tropical} {Sponges}},
	volume = {10},
	issn = {1932-6203},
	url = {https://dx.plos.org/10.1371/journal.pone.0132236},
	doi = {10.1371/journal.pone.0132236},
	language = {en},
	number = {7},
	urldate = {2022-11-09},
	journal = {PLOS ONE},
	author = {Rohde, Sven and Nietzer, Samuel and Schupp, Peter J.},
	editor = {Bell, James},
	month = jul,
	year = {2015},
	pages = {e0132236},
}





@article{thomas_diversity_2016,
	title = {Diversity, structure and convergent evolution of the global sponge microbiome},
	volume = {7},
	issn = {2041-1723},
	url = {http://www.nature.com/articles/ncomms11870},
	doi = {10.1038/ncomms11870},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Nature Communications},
	author = {Thomas, Torsten and Moitinho-Silva, Lucas and Lurgi, Miguel and Björk, Johannes R. and Easson, Cole and Astudillo-García, Carmen and Olson, Julie B. and Erwin, Patrick M. and López-Legentil, Susanna and Luter, Heidi and Chaves-Fonnegra, Andia and Costa, Rodrigo and Schupp, Peter J. and Steindler, Laura and Erpenbeck, Dirk and Gilbert, Jack and Knight, Rob and Ackermann, Gail and Victor Lopez, Jose and Taylor, Michael W. and Thacker, Robert W. and Montoya, Jose M. and Hentschel, Ute and Webster, Nicole S.},
	month = sep,
	year = {2016},
	pages = {11870},
}





@article{schwartz_understanding_2016,
	title = {Understanding the invasion success of {Sargassum} muticum: herbivore preferences for native and invasive {Sargassum} spp},
	volume = {163},
	issn = {0025-3162, 1432-1793},
	shorttitle = {Understanding the invasion success of {Sargassum} muticum},
	url = {http://link.springer.com/10.1007/s00227-016-2953-4},
	doi = {10.1007/s00227-016-2953-4},
	language = {en},
	number = {9},
	urldate = {2022-11-09},
	journal = {Marine Biology},
	author = {Schwartz, Nicole and Rohde, Sven and Hiromori, Shimabukuro and Schupp, Peter J.},
	month = sep,
	year = {2016},
	pages = {181},
}





@article{markert_first_2016,
	title = {First record of the non-native {Pacific} bryozoan {Smittoidea} prolifica {Osburn}, 1952 at the {German} {North} {Sea} coast},
	volume = {46},
	issn = {1867-1616, 1867-1624},
	url = {http://link.springer.com/10.1007/s12526-015-0415-8},
	doi = {10.1007/s12526-015-0415-8},
	language = {en},
	number = {3},
	urldate = {2022-11-09},
	journal = {Marine Biodiversity},
	author = {Markert, Alexandra and Matsuyama, Kei and Rohde, Sven and Schupp, Peter and Wehrmann, Achim},
	month = sep,
	year = {2016},
	pages = {717--723},
}





@article{meyer_impact_2016,
	title = {Impact of explantation techniques on the microbiota of the marine sponge {Ecionemia} alata},
	volume = {484},
	issn = {00220981},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0022098116301241},
	doi = {10.1016/j.jembe.2016.08.003},
	language = {en},
	urldate = {2022-11-09},
	journal = {Journal of Experimental Marine Biology and Ecology},
	author = {Meyer, Kyle M. and Deines, Peter and Schupp, Peter J. and Taylor, Michael W.},
	month = nov,
	year = {2016},
	pages = {11--15},
}





@article{bogdanov_defensive_2016,
	title = {Defensive {Diterpene} from the {Aeolidoidean} \textit{{Phyllodesmium} longicirrum}},
	volume = {79},
	issn = {0163-3864, 1520-6025},
	url = {https://pubs.acs.org/doi/10.1021/acs.jnatprod.5b00860},
	doi = {10.1021/acs.jnatprod.5b00860},
	language = {en},
	number = {3},
	urldate = {2022-11-09},
	journal = {Journal of Natural Products},
	author = {Bogdanov, Alexander and Hertzer, Cora and Kehraus, Stefan and Nietzer, Samuel and Rohde, Sven and Schupp, Peter J. and Wägele, Heike and König, Gabriele M.},
	month = mar,
	year = {2016},
	pages = {611--615},
}





@article{steinert_four_2016,
	title = {In four shallow and mesophotic tropical reef sponges from {Guam} the microbial community largely depends on host identity},
	volume = {4},
	issn = {2167-8359},
	url = {https://peerj.com/articles/1936},
	doi = {10.7717/peerj.1936},
	abstract = {Sponges (phylum Porifera) are important members of almost all aquatic ecosystems, and are renowned for hosting often dense and diverse microbial communities. While the specificity of the sponge microbiota seems to be closely related to host phylogeny, the environmental factors that could shape differences within local sponge-specific communities remain less understood. On tropical coral reefs, sponge habitats can span from shallow areas to deeper, mesophotic sites. These habitats differ in terms of environmental factors such as light, temperature, and food availability, as well as anthropogenic impact. In order to study the host specificity and potential influence of varying habitats on the sponge microbiota within a local area, four tropical reef sponges,
              Rhabdastrella globostellata
              ,
              Callyspongia
              sp.,
              Rhaphoxya
              sp., and
              Acanthella cavernosa
              , were collected from exposed shallow reef slopes and a deep reef drop-off. Based on 16S rRNA gene pyrosequencing profiles, beta diversity analyses revealed that each sponge species possessed a specific microbiota that was significantly different to those of the other species and exhibited attributes that are characteristic of high- and/or low-microbial-abundance sponges. These findings emphasize the influence of host identity on the associated microbiota. Dominant sponge- and seawater-associated bacterial phyla were Chloroflexi, Cyanobacteria, and Proteobacteria. Comparison of individual sponge taxa and seawater samples between shallow and deep reef sites revealed no significant variation in alpha diversity estimates, while differences in microbial beta diversity (variation in community composition) were significant for
              Callyspongia
              sp. sponges and seawater samples. Overall, the sponge-associated microbiota is significantly shaped by host identity across all samples, while the effect of habitat differentiation seems to be less predominant in tropical reef sponges.},
	language = {en},
	urldate = {2022-11-09},
	journal = {PeerJ},
	author = {Steinert, Georg and Taylor, Michael W. and Deines, Peter and Simister, Rachel L. and de Voogd, Nicole J. and Hoggard, Michael and Schupp, Peter J.},
	month = apr,
	year = {2016},
	pages = {e1936},
}





@article{tusso_genetic_2016,
	title = {Genetic structure of the crown-of-thorns seastar in the {Pacific} {Ocean}, with focus on {Guam}},
	volume = {4},
	issn = {2167-8359},
	url = {https://peerj.com/articles/1970},
	doi = {10.7717/peerj.1970},
	abstract = {Population outbreaks of the corallivorous crown-of-thorns seastar (COTS),
              Acanthaster ‘planci’ L.
              , are among the most important biological disturbances of tropical coral reefs. Over the past 50 years, several devastating outbreaks have been documented around Guam, an island in the western Pacific Ocean. Previous analyses have shown that in the Pacific Ocean, COTS larval dispersal may be geographically restricted to certain regions. Here, we assess the genetic structure of Pacific COTS populations and compared samples from around Guam with a number of distant localities in the Pacific Ocean, and focused on determining the degree of genetic structure among populations previously considered to be isolated. Using microsatellites, we document substantial genetic structure between 14 localities from different geographical regions in the Pacific Ocean. Populations from the 14 locations sampled were found to be structured in three significantly differentiated groups: (1) all locations immediately around Guam, as well as Kingman Reef and Swains Island; (2) Japan, Philippines, GBR and Vanuatu; and (3) Johnston Atoll, which was significantly different from all other localities. The lack of genetic differentiation between Guam and extremely distant populations from Kingman Reef and Swains Island suggests potential long-distance dispersal of COTS in the Pacific.},
	language = {en},
	urldate = {2022-11-09},
	journal = {PeerJ},
	author = {Tusso, Sergio and Morcinek, Kerstin and Vogler, Catherine and Schupp, Peter J. and Caballes, Ciemon F. and Vargas, Sergio and Wörheide, Gert},
	month = may,
	year = {2016},
	pages = {e1970},
}





@article{seebens_predicting_2016,
	title = {Predicting the spread of marine species introduced by global shipping},
	volume = {113},
	issn = {0027-8424, 1091-6490},
	url = {https://pnas.org/doi/full/10.1073/pnas.1524427113},
	doi = {10.1073/pnas.1524427113},
	abstract = {Significance
            Predicting the arrival of alien species remains a big challenge, which is assumed to be a consequence of the complexity of the invasion process. Here, we demonstrate that spreading of alien marine species can be predicted by a simple model using only global shipping intensities, environmental variables, and species occurrence data. We provide species lists of the next potentially invading species in a local habitat or species causing harmful algal blooms with their associated probability of invasion. This will help to improve mitigation strategies to reduce the further introduction of alien species. Although this study focuses on marine algae, the model approach can be easily adopted to other taxonomic groups and their respective drivers of invasion.
          , 
            The human-mediated translocation of species poses a distinct threat to nature, human health, and economy. Although existing models calculate the invasion probability of any species, frameworks for species-specific forecasts are still missing. Here, we developed a model approach using global ship movements and environmental conditions to simulate the successive global spread of marine alien species that allows predicting the identity of those species likely to arrive next in a given habitat. In a first step, we simulated the historical stepping-stone spreading dynamics of 40 marine alien species and compared predicted and observed alien species ranges. With an accuracy of 77\%, the model correctly predicted the presence/absence of an alien species in an ecoregion. Spreading dynamics followed a common pattern with an initial invasion of most suitable habitats worldwide and a subsequent spread into neighboring habitats. In a second step, we used the reported distribution of 97 marine algal species with a known invasion history, and six species causing harmful algal blooms, to determine the ecoregions most likely to be invaded next under climate warming. Cluster analysis revealed that species can be classified according to three characteristic spreading profiles: emerging species, high-risk species, and widespread species. For the North Sea, the model predictions could be confirmed because two of the predicted high-risk species have recently invaded the North Sea. This study highlights that even simple models considering only shipping intensities and habitat matches are able to correctly predict the identity of the next invading marine species.},
	language = {en},
	number = {20},
	urldate = {2022-11-09},
	journal = {Proceedings of the National Academy of Sciences},
	author = {Seebens, Hanno and Schwartz, Nicole and Schupp, Peter J. and Blasius, Bernd},
	month = may,
	year = {2016},
	pages = {5646--5651},
}





@article{moeller_low_2017,
	title = {Low sediment loads affect survival of coral recruits: the first weeks are crucial},
	volume = {36},
	issn = {0722-4028, 1432-0975},
	shorttitle = {Low sediment loads affect survival of coral recruits},
	url = {http://link.springer.com/10.1007/s00338-016-1513-1},
	doi = {10.1007/s00338-016-1513-1},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Coral Reefs},
	author = {Moeller, Mareen and Nietzer, Samuel and Schils, Tom and Schupp, Peter J.},
	month = mar,
	year = {2017},
	pages = {39--49},
}





@article{madduppa_persistent_2017,
	title = {Persistent outbreaks of the “black disease” sponge {Terpios} hoshinota in {Indonesian} coral reefs},
	volume = {47},
	issn = {1867-1616, 1867-1624},
	url = {http://link.springer.com/10.1007/s12526-015-0426-5},
	doi = {10.1007/s12526-015-0426-5},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Marine Biodiversity},
	author = {Madduppa, Hawis and Schupp, Peter J. and Faisal, Muhammad Reza and Sastria, Mustami Yuda and Thoms, Carsten},
	month = mar,
	year = {2017},
	pages = {149--151},
}





@article{helber_anti-predatory_2017,
	title = {Anti-predatory effects of organic extracts of 10 common reef sponges from {Zanzibar}},
	volume = {790},
	issn = {0018-8158, 1573-5117},
	url = {http://link.springer.com/10.1007/s10750-016-3036-8},
	doi = {10.1007/s10750-016-3036-8},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Hydrobiologia},
	author = {Helber, S. B. and de Voogd, N. J. and Muhando, C. A. and Rohde, S. and Schupp, P. J.},
	month = apr,
	year = {2017},
	pages = {247--258},
}





@article{rohde_only_2017,
	title = {Only half of the truth: {Managing} invasive alien species by rapid assessment},
	volume = {146},
	issn = {09645691},
	shorttitle = {Only half of the truth},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0964569116303155},
	doi = {10.1016/j.ocecoaman.2017.05.013},
	language = {en},
	urldate = {2022-11-09},
	journal = {Ocean \& Coastal Management},
	author = {Rohde, Sven and Schupp, Peter J. and Markert, Alexandra and Wehrmann, Achim},
	month = sep,
	year = {2017},
	pages = {26--35},
}





@article{petrenko_chitin_2017,
	title = {Chitin of poriferan origin and the bioelectrometallurgy of copper/copper oxide},
	volume = {104},
	issn = {01418130},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0141813016326915},
	doi = {10.1016/j.ijbiomac.2017.01.084},
	language = {en},
	urldate = {2022-11-09},
	journal = {International Journal of Biological Macromolecules},
	author = {Petrenko, Iaroslav and Bazhenov, Vasilii V. and Galli, Roberta and Wysokowski, Marcin and Fromont, Jane and Schupp, Peter J. and Stelling, Allison L. and Niederschlag, Elke and Stöker, Hartmut and Kutsova, Valentina Z. and Jesionowski, Teofil and Ehrlich, Hermann},
	month = nov,
	year = {2017},
	pages = {1626--1632},
}





@article{erpenbeck_diversity_2017,
	title = {Diversity of two widespread {Indo}-{Pacific} demosponge species revisited},
	volume = {47},
	issn = {1867-1616, 1867-1624},
	url = {http://link.springer.com/10.1007/s12526-017-0783-3},
	doi = {10.1007/s12526-017-0783-3},
	language = {en},
	number = {4},
	urldate = {2022-11-09},
	journal = {Marine Biodiversity},
	author = {Erpenbeck, Dirk and Aryasari, Ratih and Benning, Sarah and Debitus, Cécile and Kaltenbacher, Emilie and Al-Aidaroos, Ali M. and Schupp, Peter and Hall, Kathryn and Hooper, John N. A. and Voigt, Oliver and de Voogd, Nicole J. and Wörheide, Gert},
	month = dec,
	year = {2017},
	pages = {1035--1043},
}





@article{mutsenko_novel_2017,
	title = {Novel chitin scaffolds derived from marine sponge {Ianthella} basta for tissue engineering approaches based on human mesenchymal stromal cells: {Biocompatibility} and cryopreservation},
	volume = {104},
	issn = {01418130},
	shorttitle = {Novel chitin scaffolds derived from marine sponge {Ianthella} basta for tissue engineering approaches based on human mesenchymal stromal cells},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0141813016326605},
	doi = {10.1016/j.ijbiomac.2017.03.161},
	language = {en},
	urldate = {2022-11-09},
	journal = {International Journal of Biological Macromolecules},
	author = {Mutsenko, Vitalii V. and Gryshkov, Oleksandr and Lauterboeck, Lothar and Rogulska, Olena and Tarusin, Dmitriy N. and Bazhenov, Vasilii V. and Schütz, Kathleen and Brüggemeier, Sophie and Gossla, Elke and Akkineni, Ashwini R. and Meißner, Heike and Lode, Anja and Meschke, Stephan and Fromont, Jane and Stelling, Allison L. and Tabachnik, Konstantin R. and Gelinsky, Michael and Nikulin, Sergey and Rodin, Sergey and Tonevitsky, Alexander G. and Petrenko, Alexander Y. and Glasmacher, Birgit and Schupp, Peter J. and Ehrlich, Hermann},
	month = nov,
	year = {2017},
	pages = {1955--1965},
}





@article{steinert_host-specific_2017,
	title = {Host-specific assembly of sponge-associated prokaryotes at high taxonomic ranks},
	volume = {7},
	issn = {2045-2322},
	url = {http://www.nature.com/articles/s41598-017-02656-6},
	doi = {10.1038/s41598-017-02656-6},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Scientific Reports},
	author = {Steinert, Georg and Rohde, Sven and Janussen, Dorte and Blaurock, Claudia and Schupp, Peter J.},
	month = dec,
	year = {2017},
	pages = {2542},
}





@article{schwartz_comparison_2017,
	title = {Comparison of antifouling properties of native and invasive \textit{{Sargassum}} ({Fucales}, {Phaeophyceae}) species},
	volume = {52},
	issn = {0967-0262, 1469-4433},
	url = {https://www.tandfonline.com/doi/full/10.1080/09670262.2016.1231345},
	doi = {10.1080/09670262.2016.1231345},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {European Journal of Phycology},
	author = {Schwartz, Nicole and Dobretsov, Sergey and Rohde, Sven and Schupp, Peter J.},
	month = jan,
	year = {2017},
	pages = {116--131},
}





@article{ueberlein_determination_2017,
	title = {Determination of the {Halogenated} {Skeleton} {Constituents} of the {Marine} {Demosponge} {Ianthella} basta},
	volume = {15},
	issn = {1660-3397},
	url = {http://www.mdpi.com/1660-3397/15/2/34},
	doi = {10.3390/md15020034},
	language = {en},
	number = {2},
	urldate = {2022-11-09},
	journal = {Marine Drugs},
	author = {Ueberlein, Susanne and Machill, Susanne and Schupp, Peter and Brunner, Eike},
	month = feb,
	year = {2017},
	pages = {34},
}





@article{bogdanov_secondary_2017,
	title = {Secondary metabolome and its defensive role in the aeolidoidean \textit{{Phyllodesmium} longicirrum} , ({Gastropoda}, {Heterobranchia}, {Nudibranchia})},
	volume = {13},
	issn = {1860-5397},
	url = {https://www.beilstein-journals.org/bjoc/articles/13/50},
	doi = {10.3762/bjoc.13.50},
	abstract = {Phyllodesmium longicirrum
              is the largest aeolidoidean species known to date, and extremely rich in terpenoid chemistry. Herein we report the isolation of a total of 19 secondary metabolites from a single specimen of this species, i.e., steroids
              1–4
              , cembranoid diterpenes
              5–13
              , complex biscembranoids
              14
              and
              15
              , and the chatancin-type diterpenes
              16–19
              . These compounds resemble those from soft corals of the genus
              Sarcophyton
              , of which to date, however, only
              S. trocheliophorum
              is described as a food source for
              P. longicirrum
              . Fish feeding deterrent activity was determined using the tropical puffer fish
              Canthigaster solandri
              , and showed activity for (2
              S
              )-isosarcophytoxide (
              10
              ), cembranoid bisepoxide
              12
              and 4-oxochatancin (
              16
              ). Determining the metabolome of
              P. longicirrum
              and its bioactivity, makes it evident that this seemingly vulnerable soft bodied animal is well protected from fish by its chemical arsenal.},
	language = {en},
	urldate = {2022-11-09},
	journal = {Beilstein Journal of Organic Chemistry},
	author = {Bogdanov, Alexander and Hertzer, Cora and Kehraus, Stefan and Nietzer, Samuel and Rohde, Sven and Schupp, Peter J and Wägele, Heike and König, Gabriele M},
	month = mar,
	year = {2017},
	pages = {502--519},
}





@article{moitinho-silva_sponge_2017,
	title = {The sponge microbiome project},
	volume = {6},
	issn = {2047-217X},
	url = {https://academic.oup.com/gigascience/article/doi/10.1093/gigascience/gix077/4082886},
	doi = {10.1093/gigascience/gix077},
	language = {en},
	number = {10},
	urldate = {2022-11-09},
	journal = {GigaScience},
	author = {Moitinho-Silva, Lucas and Nielsen, Shaun and Amir, Amnon and Gonzalez, Antonio and Ackermann, Gail L and Cerrano, Carlo and Astudillo-Garcia, Carmen and Easson, Cole and Sipkema, Detmer and Liu, Fang and Steinert, Georg and Kotoulas, Giorgos and McCormack, Grace P and Feng, Guofang and Bell, James J and Vicente, Jan and Björk, Johannes R and Montoya, Jose M and Olson, Julie B and Reveillaud, Julie and Steindler, Laura and Pineda, Mari-Carmen and Marra, Maria V and Ilan, Micha and Taylor, Michael W and Polymenakou, Paraskevi and Erwin, Patrick M and Schupp, Peter J and Simister, Rachel L and Knight, Rob and Thacker, Robert W and Costa, Rodrigo and Hill, Russell T and Lopez-Legentil, Susanna and Dailianis, Thanos and Ravasi, Timothy and Hentschel, Ute and Li, Zhiyong and Webster, Nicole S and Thomas, Torsten},
	month = oct,
	year = {2017},
}





@article{versluis_comparative_2018,
	title = {Comparative {Genomics} {Highlights} {Symbiotic} {Capacities} and {High} {Metabolic} {Flexibility} of the {Marine} {Genus} {Pseudovibrio}},
	volume = {10},
	issn = {1759-6653},
	url = {http://academic.oup.com/gbe/article/10/1/125/4793240},
	doi = {10.1093/gbe/evx271},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Genome Biology and Evolution},
	author = {Versluis, Dennis and Nijsse, Bart and Naim, Mohd Azrul and Koehorst, Jasper J and Wiese, Jutta and Imhoff, Johannes F and Schaap, Peter J and van Passel, Mark W J and Smidt, Hauke and Sipkema, Detmer},
	month = jan,
	year = {2018},
	pages = {125--142},
}





@article{helber_sponge_2018,
	title = {Sponge chemical defenses are a possible mechanism for increasing sponge abundance on reefs in {Zanzibar}},
	volume = {13},
	issn = {1932-6203},
	url = {https://dx.plos.org/10.1371/journal.pone.0197617},
	doi = {10.1371/journal.pone.0197617},
	language = {en},
	number = {6},
	urldate = {2022-11-09},
	journal = {PLOS ONE},
	author = {Helber, Stephanie B. and Hoeijmakers, Dieuwke J. J. and Muhando, Christopher A. and Rohde, Sven and Schupp, Peter J.},
	editor = {Pronzato, Roberto},
	month = jun,
	year = {2018},
	pages = {e0197617},
}





@article{lange_role_2019,
	title = {The role of invasive marine plants for macrofauna nutrition in the {Wadden} {Sea}},
	volume = {512},
	issn = {00220981},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0022098118302843},
	doi = {10.1016/j.jembe.2018.12.005},
	language = {en},
	urldate = {2022-11-09},
	journal = {Journal of Experimental Marine Biology and Ecology},
	author = {Lange, Gesine and Schmitt, Jennifer A. and Kröncke, Ingrid and Moorthi, Stefanie D. and Rohde, Sven and Scheu, Stefan and Schupp, Peter J.},
	month = mar,
	year = {2019},
	pages = {1--11},
}





@article{moeller_neuroactive_2019,
	title = {Neuroactive compounds induce larval settlement in the scleractinian coral {Leptastrea} purpurea},
	volume = {9},
	issn = {2045-2322},
	url = {http://www.nature.com/articles/s41598-019-38794-2},
	doi = {10.1038/s41598-019-38794-2},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Scientific Reports},
	author = {Moeller, Mareen and Nietzer, Samuel and Schupp, Peter J.},
	month = dec,
	year = {2019},
	pages = {2291},
}





@article{kuhnhold_acclimation_2019,
	title = {Acclimation capability inferred by metabolic performance in two sea cucumber species from different latitudes},
	volume = {84},
	issn = {03064565},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0306456519302116},
	doi = {10.1016/j.jtherbio.2019.07.019},
	language = {en},
	urldate = {2022-11-09},
	journal = {Journal of Thermal Biology},
	author = {Kühnhold, Holger and Novais, Sara C. and Alves, Luis M.F. and Kamyab, Elham and Lemos, Marco F.L. and Slater, Matthew J. and Kunzmann, Andreas},
	month = aug,
	year = {2019},
	keywords = {Energy metabolism, Eurytherms, Stenotherms, Temperature stress},
	pages = {407--413},
}





@article{tawfike_new_2019,
	title = {New bioactive metabolites from the elicited marine sponge-derived bacterium {Actinokineospora} spheciospongiae sp. nov.},
	volume = {9},
	issn = {2191-0855},
	url = {https://amb-express.springeropen.com/articles/10.1186/s13568-018-0730-0},
	doi = {10.1186/s13568-018-0730-0},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {AMB Express},
	author = {Tawfike, Ahmed and Attia, Eman Zekry and Desoukey, Samar Yehia and Hajjar, Dina and Makki, Arwa A. and Schupp, Peter J. and Edrada-Ebel, RuAngelie and Abdelmohsen, Usama Ramadan},
	month = dec,
	year = {2019},
	pages = {12},
}





@article{helber_sponges_2019,
	title = {Sponges from {Zanzibar} host diverse prokaryotic communities with potential for natural product synthesis},
	volume = {95},
	issn = {1574-6941},
	url = {https://academic.oup.com/femsec/article/doi/10.1093/femsec/fiz026/5369420},
	doi = {10.1093/femsec/fiz026},
	language = {en},
	number = {4},
	urldate = {2022-11-09},
	journal = {FEMS Microbiology Ecology},
	author = {Helber, Stephanie B and Steinert, Georg and Wu, Yu-Chen and Rohde, Sven and Hentschel, Ute and Muhando, Christopher A and Schupp, Peter J},
	month = apr,
	year = {2019},
}





@article{klinger_express_2019,
	title = {Express {Method} for {Isolation} of {Ready}-to-{Use} {3D} {Chitin} {Scaffolds} from {Aplysina} archeri ({Aplysineidae}: {Verongiida}) {Demosponge}},
	volume = {17},
	issn = {1660-3397},
	shorttitle = {Express {Method} for {Isolation} of {Ready}-to-{Use} {3D} {Chitin} {Scaffolds} from {Aplysina} archeri ({Aplysineidae}},
	url = {http://www.mdpi.com/1660-3397/17/2/131},
	doi = {10.3390/md17020131},
	abstract = {Sponges are a valuable source of natural compounds and biomaterials for many biotechnological applications. Marine sponges belonging to the order Verongiida are known to contain both chitin and biologically active bromotyrosines. Aplysina archeri (Aplysineidae: Verongiida) is well known to contain bromotyrosines with relevant bioactivity against human and animal diseases. The aim of this study was to develop an express method for the production of naturally prefabricated 3D chitin and bromotyrosine-containing extracts simultaneously. This new method is based on microwave irradiation (MWI) together with stepwise treatment using 1\% sodium hydroxide, 20\% acetic acid, and 30\% hydrogen peroxide. This approach, which takes up to 1 h, made it possible to isolate chitin from the tube-like skeleton of A. archeri and to demonstrate the presence of this biopolymer in this sponge for the first time. Additionally, this procedure does not deacetylate chitin to chitosan and enables the recovery of ready-to-use 3D chitin scaffolds without destruction of the unique tube-like fibrous interconnected structure of the isolated biomaterial. Furthermore, these mechanically stressed fibers still have the capacity for saturation with water, methylene blue dye, crude oil, and blood, which is necessary for the application of such renewable 3D chitinous centimeter-sized scaffolds in diverse technological and biomedical fields.},
	language = {en},
	number = {2},
	urldate = {2022-11-09},
	journal = {Marine Drugs},
	author = {Klinger, Christine and Żółtowska-Aksamitowska, Sonia and Wysokowski, Marcin and Tsurkan, Mikhail V. and Galli, Roberta and Petrenko, Iaroslav and Machałowski, Tomasz and Ereskovsky, Alexander and Martinović, Rajko and Muzychka, Lyubov and Smolii, Oleg B. and Bechmann, Nicole and Ivanenko, Viatcheslav and Schupp, Peter J. and Jesionowski, Teofil and Giovine, Marco and Joseph, Yvonne and Bornstein, Stefan R. and Voronkina, Alona and Ehrlich, Hermann},
	month = feb,
	year = {2019},
	pages = {131},
}





@article{steinert_prokaryotic_2019,
	title = {Prokaryotic {Diversity} and {Community} {Patterns} in {Antarctic} {Continental} {Shelf} {Sponges}},
	volume = {6},
	issn = {2296-7745},
	url = {https://www.frontiersin.org/article/10.3389/fmars.2019.00297/full},
	doi = {10.3389/fmars.2019.00297},
	urldate = {2022-11-09},
	journal = {Frontiers in Marine Science},
	author = {Steinert, Georg and Wemheuer, Bernd and Janussen, Dorte and Erpenbeck, Dirk and Daniel, Rolf and Simon, Meinhard and Brinkhoff, Thorsten and Schupp, Peter J.},
	month = jun,
	year = {2019},
	pages = {297},
}





@incollection{jungblut_secondary_2020,
	address = {Cham},
	title = {Secondary {Metabolites} of {Marine} {Microbes}: {From} {Natural} {Products} {Chemistry} to {Chemical} {Ecology}},
	isbn = {978-3-030-20388-7 978-3-030-20389-4},
	shorttitle = {Secondary {Metabolites} of {Marine} {Microbes}},
	url = {http://link.springer.com/10.1007/978-3-030-20389-4_8},
	language = {en},
	urldate = {2022-11-09},
	booktitle = {{YOUMARES} 9 - {The} {Oceans}: {Our} {Research}, {Our} {Future}},
	publisher = {Springer International Publishing},
	author = {Petersen, Lars-Erik and Kellermann, Matthias Y. and Schupp, Peter J.},
	editor = {Jungblut, Simon and Liebich, Viola and Bode-Dalby, Maya},
	year = {2020},
	doi = {10.1007/978-3-030-20389-4_8},
	pages = {159--180},
}





@article{wibowo_biotechnological_2019,
	title = {Biotechnological {Potential} of {Bacteria} {Isolated} from the {Sea} {Cucumber} {Holothuria} leucospilota and {Stichopus} vastus from {Lampung}, {Indonesia}},
	volume = {17},
	issn = {1660-3397},
	url = {https://www.mdpi.com/1660-3397/17/11/635},
	doi = {10.3390/md17110635},
	abstract = {In order to minimize re-discovery of already known anti-infective compounds, we focused our screening approach on understudied, almost untapped marine environments including marine invertebrates and their associated bacteria. Therefore, two sea cucumber species, Holothuria leucospilota and Stichopus vastus, were collected from Lampung (Indonesia), and 127 bacterial strains were identified by partial 16S rRNA-gene sequencing analysis and compared with the NCBI database. In addition, the overall bacterial diversity from tissue samples of the sea cucumbers H. leucospilota and S. vastus was analyzed using the cultivation-independent Illumina MiSEQ analysis. Selected bacterial isolates were grown to high densities and the extracted biomass was tested against a selection of bacteria and fungi as well as the hepatitis C virus (HCV). Identification of putative bioactive bacterial-derived compounds were performed by analyzing the accurate mass of the precursor/parent ions (MS1) as well as product/daughter ions (MS2) using high resolution mass spectrometry (HRMS) analysis of all active fractions. With this attempt we were able to identify 23 putatively known and two previously unidentified precursor ions. Moreover, through 16S rRNA-gene sequencing we were able to identify putatively novel bacterial species from the phyla Actinobacteria, Proteobacteria and also Firmicutes. Our findings suggest that sea cucumbers like H. leucospilota and S. vastus are promising sources for the isolation of novel bacterial species that produce compounds with potentially high biotechnological potential.},
	language = {en},
	number = {11},
	urldate = {2022-11-09},
	journal = {Marine Drugs},
	author = {Wibowo, Joko T. and Kellermann, Matthias Y. and Versluis, Dennis and Putra, Masteria Y. and Murniasih, Tutik and Mohr, Kathrin I. and Wink, Joachim and Engelmann, Michael and Praditya, Dimas F. and Steinmann, Eike and Schupp, Peter J.},
	month = nov,
	year = {2019},
	pages = {635},
}





@incollection{jungblut_chemical_2020,
	address = {Cham},
	title = {Chemical {Biodiversity} and {Bioactivities} of {Saponins} in {Echinodermata} with an {Emphasis} on {Sea} {Cucumbers} ({Holothuroidea})},
	isbn = {978-3-030-20388-7 978-3-030-20389-4},
	url = {http://link.springer.com/10.1007/978-3-030-20389-4_7},
	language = {en},
	urldate = {2022-11-09},
	booktitle = {{YOUMARES} 9 - {The} {Oceans}: {Our} {Research}, {Our} {Future}},
	publisher = {Springer International Publishing},
	author = {Kamyab, Elham and Kellermann, Matthias Y. and Kunzmann, Andreas and Schupp, Peter J.},
	editor = {Jungblut, Simon and Liebich, Viola and Bode-Dalby, Maya},
	year = {2020},
	doi = {10.1007/978-3-030-20389-4_7},
	pages = {121--157},
}





@article{mueller_shading_2020,
	title = {Shading by marine litter impairs the health of the two {Indo}-{Pacific} scleractinian corals {Porites} rus and {Pavona} cactus},
	volume = {158},
	issn = {0025326X},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0025326X20305476},
	doi = {10.1016/j.marpolbul.2020.111429},
	language = {en},
	urldate = {2022-11-09},
	journal = {Marine Pollution Bulletin},
	author = {Mueller, Jasmin S. and Schupp, Peter J.},
	month = sep,
	year = {2020},
	pages = {111429},
}





@article{kamyab_anti-fouling_2020,
	title = {Anti-{Fouling} {Effects} of {Saponin}-{Containing} {Crude} {Extracts} from {Tropical} {Indo}-{Pacific} {Sea} {Cucumbers}},
	volume = {18},
	issn = {1660-3397},
	url = {https://www.mdpi.com/1660-3397/18/4/181},
	doi = {10.3390/md18040181},
	abstract = {Sea cucumbers are bottom dwelling invertebrates, which are mostly found on subtropical and tropical sea grass beds, sandy reef flats, or reef slopes. Although constantly exposed to fouling communities in these habitats, many species are surprisingly free of invertebrate epibionts and microfouling algae such as diatoms. In our study, we investigated the anti-fouling (AF) activities of different crude extracts of tropical Indo-Pacific sea cucumber species against the fouling diatom Cylindrotheca closterium. Nine sea cucumber species from three genera (i.e., Holothuria, Bohadschia, Actinopyga) were selected and extracted to assess their AF activities. To verify whether the sea cucumber characteristic triterpene glycosides were responsible for the observed potent AF activities, we tested purified fractions enriched in saponins isolated from Bohadschia argus, representing one of the most active anti-fouling extracts. Saponins were quantified by vanillin-sulfuric acid colorimetric assays and identified by LC-MS and LC-MS/MS analyses. We were able to demonstrate that AF activities in sea cucumber extracts were species-specific, and growth inhibition as well as attachment of the diatom to surfaces is dependent on the saponin concentration (i.e., Actinopyga contained the highest quantities), as well as on the molecular composition and structure of the present saponins (i.e., Bivittoside D derivative was the most bioactive compound). In conclusion, the here performed AF assay represents a promising and fast method for selecting the most promising bioactive organism as well as for identifying novel compounds with potent AF activities for the discovery of potentially novel pharmacologically active natural products.},
	language = {en},
	number = {4},
	urldate = {2022-11-09},
	journal = {Marine Drugs},
	author = {Kamyab, Elham and Goebeler, Norman and Kellermann, Matthias Y. and Rohde, Sven and Reverter, Miriam and Striebel, Maren and Schupp, Peter J.},
	month = mar,
	year = {2020},
	pages = {181},
}





@article{steinert_compositional_2020,
	title = {Compositional and {Quantitative} {Insights} {Into} {Bacterial} and {Archaeal} {Communities} of {South} {Pacific} {Deep}-{Sea} {Sponges} ({Demospongiae} and {Hexactinellida})},
	volume = {11},
	issn = {1664-302X},
	url = {https://www.frontiersin.org/article/10.3389/fmicb.2020.00716/full},
	doi = {10.3389/fmicb.2020.00716},
	urldate = {2022-11-09},
	journal = {Frontiers in Microbiology},
	author = {Steinert, Georg and Busch, Kathrin and Bayer, Kristina and Kodami, Sahar and Arbizu, Pedro Martinez and Kelly, Michelle and Mills, Sadie and Erpenbeck, Dirk and Dohrmann, Martin and Wörheide, Gert and Hentschel, Ute and Schupp, Peter J.},
	month = apr,
	year = {2020},
	pages = {716},
}





@article{reverter_metabolomics_2020,
	title = {Metabolomics and {Marine} {Biotechnology}: {Coupling} {Metabolite} {Profiling} and {Organism} {Biology} for the {Discovery} of {New} {Compounds}},
	volume = {7},
	issn = {2296-7745},
	shorttitle = {Metabolomics and {Marine} {Biotechnology}},
	url = {https://www.frontiersin.org/articles/10.3389/fmars.2020.613471/full},
	doi = {10.3389/fmars.2020.613471},
	abstract = {The high diversity of marine natural products represents promising opportunities for drug discovery, an important area in marine biotechnology. Within this context, high-throughput techniques such as metabolomics are extremely useful in unveiling unexplored chemical diversity at much faster rates than classical bioassay-guided approaches. Metabolomics approaches enable studying large sets of metabolites, even if they are produced at low concentrations. Although, metabolite identification remains the main metabolomics bottleneck, bioinformatic tools such as molecular networks can lead to the annotation of unknown metabolites and discovery of new compounds. A metabolomic approach in drug discovery has two major advantages: it enables analyses of multiple samples, allowing fast dereplication of already known compounds and provides a unique opportunity to relate metabolite profiles to organisms’ biology. Understanding the ecological and biological factors behind a certain metabolite production can be extremely useful in enhancing compound yields, optimizing compound extraction or in selecting bioactive compounds. Metazoan-associated microbiota are often responsible for metabolite synthesis, however, classical approaches only allow studying metabolites produced from cultivatable microbiota, which often differ from the compounds produced within the host. Therefore, coupling holobiome metabolomics with microbiome analysis can bring new insights to the role of microbiota in compound production. The ultimate potential of metabolomics is its coupling with other “omics” (i.e., transcriptomics and metagenomics). Although, such approaches are still challenging, especially in non-model species where genomes have not been annotated, this innovative approach is extremely valuable in elucidating gene clusters associated with biosynthetic pathways and will certainly become increasingly important in marine drug discovery.},
	urldate = {2022-11-09},
	journal = {Frontiers in Marine Science},
	author = {Reverter, Miriam and Rohde, Sven and Parchemin, Christelle and Tapissier-Bontemps, Nathalie and Schupp, Peter J.},
	month = dec,
	year = {2020},
	pages = {613471},
}





@article{pawlowski_uv_2021,
	title = {{UV} filters used in sunscreens—{A} lack in current coral protection?},
	volume = {17},
	issn = {1551-3777, 1551-3793},
	url = {https://onlinelibrary.wiley.com/doi/10.1002/ieam.4454},
	doi = {10.1002/ieam.4454},
	language = {en},
	number = {5},
	urldate = {2022-11-09},
	journal = {Integrated Environmental Assessment and Management},
	author = {Pawlowski, Sascha and Moeller, Mareen and Miller, Ingo B. and Kellermann, Matthias Y. and Schupp, Peter J. and Petersen‐Thiery, Mechtild},
	month = sep,
	year = {2021},
	pages = {926--939},
}





@article{kamyab_chemical_2020,
	title = {Chemical {Defense} {Mechanisms} and {Ecological} {Implications} of {Indo}-{Pacific} {Holothurians}},
	volume = {25},
	issn = {1420-3049},
	url = {https://www.mdpi.com/1420-3049/25/20/4808},
	doi = {10.3390/molecules25204808},
	abstract = {Sea cucumbers are slow-moving organisms that use morphological, but also a diverse combination of chemical defenses to improve their overall fitness and chances of survival. Since chemical defense compounds are also of great pharmaceutical interest, we pinpoint the importance of biological screenings that are a relatively fast, informative and inexpensive way to identify the most bioactive organisms prior to further costly and elaborate pharmacological screenings. In this study, we investigated the presence and absence of chemical defenses of 14 different sea cucumber species from three families (Holothuriidae, Stichopodidae and Synaptidae) against ecological factors such as predation and pathogenic attacks. We used the different sea cucumber crude extracts as well as purified fractions and pure saponin compounds in a portfolio of ecological activity tests including fish feeding assays, cytotoxicity tests and antimicrobial assays against environmental pathogenic and non-pathogenic bacteria. Furthermore, we quantified and correlated the concentrations of sea cucumber characteristic saponin compounds as effective chemical defensive compounds in all 14 crude extracts by using the vanillin–sulfuric acid test. The initial results revealed that among all tested sea cucumber species that were defended against at least one ecological threat (predation and/or bacterial attack), Bohadschiaargus, Stichopuscholoronotus and Holothuria fuscopunctata were the three most promising bioactive sea cucumber species. Therefore, following further fractionation and purification attempts, we also tested saponin-containing butanol fractions of the latter, as well as two purified saponin species from B. argus. We could demonstrate that both, the amount of saponin compounds and their structure likely play a significant role in the chemical defense strategy of the sea cucumbers. Our study concludes that the chemical and morphological defense mechanisms (and combinations thereof) differ among the ecological strategies of the investigated holothurian species in order to increase their general fitness and level of survival. Finally, our observations and experiments on the chemical ecology of marine organisms can not only lead to a better understanding of their ecology and environmental roles but also can help in the better selection of bioactive organisms/compounds for the discovery of novel, pharmacologically active secondary metabolites in the near future.},
	language = {en},
	number = {20},
	urldate = {2022-11-09},
	journal = {Molecules},
	author = {Kamyab, Elham and Rohde, Sven and Kellermann, Matthias Y. and Schupp, Peter J.},
	month = oct,
	year = {2020},
	pages = {4808},
}





@article{bonthond_role_2021,
	title = {The role of host promiscuity in the invasion process of a seaweed holobiont},
	volume = {15},
	copyright = {Creative Commons Attribution 4.0 International License (CC-BY)},
	issn = {1751-7362, 1751-7370},
	url = {http://www.nature.com/articles/s41396-020-00878-7},
	doi = {10.1038/s41396-020-00878-7},
	abstract = {Invasive species are co-introduced with microbiota from their native range and also interact with microbiota found in the novel environment to which they are introduced. Host ﬂexibility toward microbiota, or host promiscuity, is an important trait underlying terrestrial plant invasions. To test whether host promiscuity may be important in macroalgal invasions, we experimentally simulated an invasion in a common garden setting, using the widespread invasive macroalga Agarophyton vermiculophyllum as a model invasive seaweed holobiont. After disturbing the microbiota of individuals from native and non-native populations with antibiotics, we monitored the microbial succession trajectories in the presence of a new source of microbes. Microbial communities were strongly impacted by the treatment and changed compositionally and in terms of diversity but recovered functionally by the end of the experiment in most respects. Beta-diversity in disturbed holobionts strongly decreased, indicating that different populations conﬁgure more similar –or more common– microbial communities when exposed to the same conditions. This decline in beta-diversity occurred not only more rapidly, but was also more pronounced in non-native populations, while individuals from native populations retained communities more similar to those observed in the ﬁeld. This study demonstrates that microbial communities of non-native A. vermiculophyllum are more ﬂexibly adjusted to the environment and suggests that an intraspeciﬁc increase in host promiscuity has promoted the invasion process of A. vermiculophyllum. This phenomenon may be important among invasive macroalgal holobionts in general.},
	language = {en},
	number = {6},
	urldate = {2022-11-09},
	journal = {The ISME Journal},
	author = {Bonthond, Guido and Bayer, Till and Krueger-Hadfield, Stacy A. and Stärck, Nadja and Wang, Gaoge and Nakaoka, Masahiro and Künzel, Sven and Weinberger, Florian},
	month = jun,
	year = {2021},
	pages = {1668--1679},
}





@article{kruegerhadfield_intraspecific_2021,
	title = {Intraspecific diversity and genetic structure in the widespread macroalga \textit{{Agarophyton} vermiculophyllum}},
	volume = {57},
	issn = {0022-3646, 1529-8817},
	url = {https://onlinelibrary.wiley.com/doi/10.1111/jpy.13195},
	doi = {10.1111/jpy.13195},
	language = {en},
	number = {5},
	urldate = {2022-11-03},
	journal = {Journal of Phycology},
	author = {Krueger‐Hadfield, Stacy A. and Byers, James E. and Bonthond, Guido and Terada, Ryuta and Weinberger, Florian and Sotka, Erik E.},
	editor = {Graham, Michael},
	month = oct,
	year = {2021},
	pages = {1403--1410},
}





@article{bonthond_draft_2021,
	title = {Draft genome and description of {Waterburya} agarophytonicola gen. nov. sp. nov. ({Pleurocapsales}, {Cyanobacteria}): a seaweed symbiont},
	volume = {114},
	issn = {0003-6072, 1572-9699},
	shorttitle = {Draft genome and description of {Waterburya} agarophytonicola gen. nov. sp. nov. ({Pleurocapsales}, {Cyanobacteria})},
	url = {https://link.springer.com/10.1007/s10482-021-01672-x},
	doi = {10.1007/s10482-021-01672-x},
	abstract = {Abstract
            
              This work introduces
              Waterburya agarophytonicola
              Bonthond and Shalygin gen. nov., sp. nov, a baeocyte producing cyanobacterium that was isolated from the rhodophyte
              Agarophyton vermiculophyllum
              (Ohmi) Gurgel et al., an invasive seaweed that has spread across the northern hemisphere. The new species genome reveals a diverse repertoire of chemotaxis and adhesion related genes, including genes coding for type IV pili assembly proteins and a high number of genes coding for filamentous hemagglutinin family (FHA) proteins. Among a genetic basis for the synthesis of siderophores, carotenoids and numerous vitamins,
              W. agarophytonicola
              is potentially capable of producing cobalamin (vitamin B
              12
              ), for which
              A
              .
              vermiculophyllum
              is an auxotroph. With a taxonomic description of the genus and species and a draft genome, this study provides as a basis for future research, to uncover the nature of this geographically independent association between seaweed and cyanobiont.},
	language = {en},
	number = {12},
	urldate = {2022-11-03},
	journal = {Antonie van Leeuwenhoek},
	author = {Bonthond, Guido and Shalygin, Sergei and Bayer, Till and Weinberger, Florian},
	month = dec,
	year = {2021},
	pages = {2189--2203},
}





@article{reverter_high_2021,
	title = {High taxonomic resolution surveys and trait-based analyses reveal multiple benthic regimes in {North} {Sulawesi} ({Indonesia})},
	volume = {11},
	issn = {2045-2322},
	url = {https://www.nature.com/articles/s41598-021-95905-8},
	doi = {10.1038/s41598-021-95905-8},
	abstract = {Abstract
            As coral reef communities change and reorganise in response to increasing disturbances, there is a growing need for understanding species regimes and their contribution to ecosystem processes. Using a case study on coral reefs at the epicentre of tropical marine biodiversity (North Sulawesi, Indonesia), we explored how application of different biodiversity approaches (i.e., use of major taxonomic categories, high taxonomic resolution categories and trait-based approaches) affects the detection of distinct fish and benthic communities. Our results show that using major categories fails to identify distinct coral reef regimes. We also show that monitoring of only scleractinian coral communities is insufficient to detect different benthic regimes, especially communities dominated by non-coral organisms, and that all types of benthic organisms need to be considered. We have implemented the use of a trait-based approach to study the functional diversity of whole coral reef benthic assemblages, which allowed us to detect five different community regimes, only one of which was dominated by scleractinian corals. Furthermore, by the parallel study of benthic and fish communities we provide new insights into key processes and functions that might dominate or be compromised in the different community regimes.},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Scientific Reports},
	author = {Reverter, Miriam and Jackson, Matthew and Rohde, Sven and Moeller, Mareen and Bara, Robert and Lasut, Markus T. and Segre Reinach, Marco and Schupp, Peter J.},
	month = dec,
	year = {2021},
	pages = {16554},
}





@article{miller_toxic_2021,
	title = {Toxic effects of {UV} filters from sunscreens on coral reefs revisited: regulatory aspects for “reef safe” products},
	volume = {33},
	issn = {2190-4707, 2190-4715},
	shorttitle = {Toxic effects of {UV} filters from sunscreens on coral reefs revisited},
	url = {https://enveurope.springeropen.com/articles/10.1186/s12302-021-00515-w},
	doi = {10.1186/s12302-021-00515-w},
	abstract = {Abstract
            
              Background
              Tropical coral reefs have been recognized for their significant ecological and economical value. However, increasing anthropogenic disturbances have led to progressively declining coral reef ecosystems on a global scale. More recently, several studies implicated UV filters used in sunscreen products to negatively affect corals and possibly contribute to regional trends in coral decline. Following a public debate, bans were implemented on several organic UV filters and sunscreen products in different locations including Hawaii, the U.S. Virgin Islands and Palau. This included banning the widely used oxybenzone and octinoxate, while promoting the use of inorganic filters such as zinc oxide even although their toxicity towards aquatic organisms had been documented previously. The bans of organic UV filters were based on preliminary scientific studies that showed several weaknesses as there is to this point no standardized testing scheme for scleractinian corals. Despite the lack of sound scientific proof, the latter controversial bans have already resulted in the emergence of a new sunscreen market for products claimed to be ‘reef safe’ (or similar). Thus, a market analysis of ‘reef safe’ sunscreen products was conducted to assess relevant environmental safety aspects of approved UV filters, especially for coral reefs. Further, a scientifically sound decision-making process in a regulatory context is proposed.
            
            
              Results
              Our market analysis revealed that about 80\% of surveyed sunscreens contained inorganic UV filters and that there is a variety of unregulated claims being used in the marketing of ‘reef safe’ products with ‘reef friendly’ being the most frequently used term. Predominantly, four organic UV filters are used in ‘reef safe’ sunscreens in the absence of the banned filters oxybenzone and octinoxate. Analysis of safe threshold concentrations for marine water retrieved from existing REACH registration dossiers could currently also safeguard corals.
            
            
              Conclusion
              There is a substantial discrepancy of treatments of organic versus inorganic UV filters in politics as well as in the ‘reef safe’ sunscreen market, which to this point is not scientifically justified. Thus, a risk-based approach with equal consideration of organic and inorganic UV filters is recommended for future regulatory measures as well as a clear definition and regulation of the ‘reef safe’ terminology.},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Environmental Sciences Europe},
	author = {Miller, Ingo B. and Pawlowski, Sascha and Kellermann, Matthias Y. and Petersen-Thiery, Mechtild and Moeller, Mareen and Nietzer, Samuel and Schupp, Peter J.},
	month = dec,
	year = {2021},
	pages = {74},
}





@article{wibowo_anti-infective_2021,
	title = {Anti-{Infective} and {Antiviral} {Activity} of {Valinomycin} and {Its} {Analogues} from a {Sea} {Cucumber}-{Associated} {Bacterium}, {Streptomyces} sp. {SV} 21},
	volume = {19},
	issn = {1660-3397},
	url = {https://www.mdpi.com/1660-3397/19/2/81},
	doi = {10.3390/md19020081},
	abstract = {The manuscript investigated the isolation, characterization and anti-infective potential of valinomycin (3), streptodepsipeptide P11A (2), streptodepsipeptide P11B (1), and one novel valinomycin analogue, streptodepsipeptide SV21 (4), which were all produced by the Gram-positive strain Streptomycescavourensis SV 21. Although the exact molecular weight and major molecular fragments were recently reported for compound 4, its structure elucidation was not based on compound isolation and spectroscopic techniques. We successfully isolated and elucidated the structure based on the MS2 fragmentation pathways as well as 1H and 13C NMR spectra and found that the previously reported structure of compound 4 differs from our analysis. Our findings showed the importance of isolation and structure elucidation of bacterial compounds in the era of fast omics technologies. The here performed anti-infective assays showed moderate to potent activity against fungi, multi drug resistant (MDR) bacteria and infectivity of the Hepatitis C Virus (HCV). While compounds 2, 3 and 4 revealed potent antiviral activity, the observed minor cytotoxicity needs further investigation. Furthermore, the here performed anti-infective assays disclosed that the symmetry of the valinomycin molecule is most important for its bioactivity, a fact that has not been reported so far.},
	language = {en},
	number = {2},
	urldate = {2022-11-08},
	journal = {Marine Drugs},
	author = {Wibowo, Joko T. and Kellermann, Matthias Y. and Köck, Matthias and Putra, Masteria Y. and Murniasih, Tutik and Mohr, Kathrin I. and Wink, Joachim and Praditya, Dimas F. and Steinmann, Eike and Schupp, Peter J.},
	month = feb,
	year = {2021},
	pages = {81},
}





@article{doering_towards_2021,
	title = {Towards enhancing coral heat tolerance: a “microbiome transplantation” treatment using inoculations of homogenized coral tissues},
	volume = {9},
	issn = {2049-2618},
	shorttitle = {Towards enhancing coral heat tolerance},
	url = {https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-021-01053-6},
	doi = {10.1186/s40168-021-01053-6},
	abstract = {Abstract
            
              Background
              
                Microbiome manipulation could enhance heat tolerance and help corals survive the pressures of ocean warming. We conducted coral microbiome transplantation (CMT) experiments using the reef-building corals,
                Pocillopora
                and
                Porites
                , and investigated whether this technique can benefit coral heat resistance while modifying the bacterial microbiome. Initially, heat-tolerant donors were identified in the wild. We then used fresh homogenates made from coral donor tissues to inoculate conspecific, heat-susceptible recipients and documented their bleaching responses and microbiomes by 16S rRNA gene metabarcoding.
              
            
            
              Results
              
                Recipients of both coral species bleached at lower rates compared to the control group when exposed to short-term heat stress (34 °C). One hundred twelve (
                Pocillopora
                sp.) and sixteen (
                Porites
                sp.) donor-specific bacterial species were identified in the microbiomes of recipients indicating transmission of bacteria. The amplicon sequence variants of the majority of these transmitted bacteria belonged to known, putatively symbiotic bacterial taxa of corals and were linked to the observed beneficial effect on the coral stress response. Microbiome dynamics in our experiments support the notion that microbiome community evenness and dominance of one or few bacterial species, rather than host-species identity, were drivers for microbiome stability in a holobiont context.
              
            
            
              Conclusions
              Our results suggest that coral recipients likely favor the uptake of putative bacterial symbionts, recommending to include these taxonomic groups in future coral probiotics screening efforts. Our study suggests a scenario where these donor-specific bacterial symbionts might have been more efficient in supporting the recipients to resist heat stress compared to the native symbionts present in the control group. These findings urgently call for further experimental investigation of the mechanisms of action underlying the beneficial effect of CMT and for field-based long-term studies testing the persistence of the effect.},
	language = {en},
	number = {1},
	urldate = {2022-11-08},
	journal = {Microbiome},
	author = {Doering, Talisa and Wall, Marlene and Putchim, Lalita and Rattanawongwan, Tipwimon and Schroeder, Roman and Hentschel, Ute and Roik, Anna},
	month = dec,
	year = {2021},
	pages = {102},
}





@article{risdian_streptomyces_2021,
	title = {Streptomyces bathyalis sp. nov., an actinobacterium isolated from the sponge in a deep sea},
	volume = {114},
	issn = {0003-6072, 1572-9699},
	url = {http://link.springer.com/10.1007/s10482-021-01528-4},
	doi = {10.1007/s10482-021-01528-4},
	abstract = {Abstract
            
              A novel actinobacterium, designated ASO4wet
              T
              , was isolated from the unidentified sponge (SO4) in the deep sea collected of the North Atlantic Ocean. Study of 16S rRNA gene sequences indicated that strain ASO4wet
              T
              is a member of the genus
              Streptomyces
              and showed the closest similarities to
              Streptomyces karpasiensis
              K413
              T
              (98.87 \%),
              Streptomyces glycovorans
              YIM M 10366
              T
              (98.38 \%), and
              Streptomyces abyssalis
              YIM M 10400
              T
              (97.53 \%). Strain ASO4wet
              T
              contained MK-9(H8) as the predominant menaquinone and the major fatty acids are iso-C
              16:0
              , anteiso-C
              15:0
              , and iso-C
              15:0
              . Polyphasic taxonomy was carried out between strain ASO4wet
              T
              and its phylogenetically closely related
              Streptomyces
              strains, which further elucidated their relatedness and revealed that strain ASO4wet
              T
              could be distinguished from currently known
              Streptomyces
              species. Strain ASO4wet
              T
              clearly represents a novel species in genus
              Streptomyces
              . We propose the name
              Streptomyces bathyalis
              sp. nov., with the type strain ASO4wet
              T
              (= DSM 106605
              T
               = NCCB 100657
              T
              ). Analysis of the whole-genome sequence of
              S. bathyalis
              revealed that genome size is 7,377,472 bp with 6332 coding sequences.},
	language = {en},
	number = {4},
	urldate = {2022-11-09},
	journal = {Antonie van Leeuwenhoek},
	author = {Risdian, Chandra and Landwehr, Wiebke and Rohde, Manfred and Schumann, Peter and Hahnke, Richard L. and Spröer, Cathrin and Bunk, Boyke and Kämpfer, Peter and Schupp, Peter J. and Wink, Joachim},
	month = apr,
	year = {2021},
	pages = {425--435},
}





@article{moeller_challenges_2021,
	title = {Challenges in {Current} {Coral} {Reef} {Protection} – {Possible} {Impacts} of {UV} {Filters} {Used} in {Sunscreens}, a {Critical} {Review}},
	volume = {8},
	issn = {2296-7745},
	url = {https://www.frontiersin.org/articles/10.3389/fmars.2021.665548/full},
	doi = {10.3389/fmars.2021.665548},
	abstract = {Coral reefs are highly endangered ecosystems. The identification and quantification of potential stress factors are essential to protect them. UV filters from sunscreens that are introduced to coral reef areas are considered as one of these stressors and their impact on corals needs to be further investigated. Even though UV filters are functionally similar, their structural features are very diverse. Their impact on limnic organisms have also been shown to be highly variable ranging from no or low to high toxicity. It is therefore to be expected that their effect on corals also differs significantly and that each compound has to be evaluated individually. The demand for conclusive benchmarks and guidelines from policy makers and the public over the past years shows the necessity for an objective literature review on the effects of various UV filters on scleractinian corals. Here, we review the present literature, summarize the data on the different UV filters and discuss the different approaches, advantages and limitations of the studies. However, the methods used in the latter studies vary greatly. They differ in many aspects such as species and life stage used, field and laboratory approaches, with exposure times ranging from hours to weeks. Some studies include analytics and measure the actual test concentration, others only provide nominal concentrations. The lack of standardized methods renders comparisons between studies futile. Additionally, most UV filters have only been investigated in a single or a few studies of different quality. Reliable thresholds are therefore impossible to draw on the basis of currently available studies. Nevertheless, certain UV filters repeatedly showed comparable toxicity in both freshwater and marine species tested. Yet, existing differences in results from coral tests emphasize the need for a standardized testing method comparable to those established for other aquatic organisms in order to allow for a more conclusive assessment. In this review, we describe what a scientifically sound testing proposal should include in order to obtain reliable and reproducible data, which ultimately should result in an internationally organized standardized ring test trial. Such standardized toxicity tests would enable validation of coral toxicity data related to UV filters, but also testing of other types of compounds that are known to be introduced and effect coral reefs, thus helping to identify significant stressors and enabling objective policy decisions.},
	urldate = {2022-11-09},
	journal = {Frontiers in Marine Science},
	author = {Moeller, Mareen and Pawlowski, Sascha and Petersen-Thiery, Mechtild and Miller, Ingo B. and Nietzer, Samuel and Heisel-Sure, Yannik and Kellermann, Matthias Y. and Schupp, Peter J.},
	month = apr,
	year = {2021},
	pages = {665548},
}





@article{galitz_soft_2021,
	title = {A {Soft} {Spot} for {Chemistry}–{Current} {Taxonomic} and {Evolutionary} {Implications} of {Sponge} {Secondary} {Metabolite} {Distribution}},
	volume = {19},
	issn = {1660-3397},
	url = {https://www.mdpi.com/1660-3397/19/8/448},
	doi = {10.3390/md19080448},
	abstract = {Marine sponges are the most prolific marine sources for discovery of novel bioactive compounds. Sponge secondary metabolites are sought-after for their potential in pharmaceutical applications, and in the past, they were also used as taxonomic markers alongside the difficult and homoplasy-prone sponge morphology for species delineation (chemotaxonomy). The understanding of phylogenetic distribution and distinctiveness of metabolites to sponge lineages is pivotal to reveal pathways and evolution of compound production in sponges. This benefits the discovery rate and yield of bioprospecting for novel marine natural products by identifying lineages with high potential of being new sources of valuable sponge compounds. In this review, we summarize the current biochemical data on sponges and compare the metabolite distribution against a sponge phylogeny. We assess compound specificity to lineages, potential convergences, and suitability as diagnostic phylogenetic markers. Our study finds compound distribution corroborating current (molecular) phylogenetic hypotheses, which include yet unaccepted polyphyly of several demosponge orders and families. Likewise, several compounds and compound groups display a high degree of lineage specificity, which suggests homologous biosynthetic pathways among their taxa, which identifies yet unstudied species of this lineage as promising bioprospecting targets.},
	language = {en},
	number = {8},
	urldate = {2022-11-09},
	journal = {Marine Drugs},
	author = {Galitz, Adrian and Nakao, Yoichi and Schupp, Peter J. and Wörheide, Gert and Erpenbeck, Dirk},
	month = aug,
	year = {2021},
	pages = {448},
}





@article{faisal_ecological_2021,
	title = {Ecological and {Pharmacological} {Activities} of {Polybrominated} {Diphenyl} {Ethers} ({PBDEs}) from the {Indonesian} {Marine} {Sponge} {Lamellodysidea} herbacea},
	volume = {19},
	issn = {1660-3397},
	url = {https://www.mdpi.com/1660-3397/19/11/611},
	doi = {10.3390/md19110611},
	abstract = {Two known Polybrominated Diphenyl Ethers (PBDEs), 3,4,5-tribromo-2-(2′,4′-dibromophenoxy)phenol (1d) and 3,4,5,6-tetrabromo-2-(2′,4′-dibromophenoxy)phenol (2b), were isolated from the Indonesian marine sponge Lamellodysidea herbacea. The structure was confirmed using 13C chemical shift average deviation and was compared to the predicted structures and recorded chemical shifts in previous studies. We found a wide range of bioactivities from the organic crude extract, such as (1) a strong deterrence against the generalist pufferfish Canthigaster solandri, (2) potent inhibition against environmental and human pathogenic bacterial and fungal strains, and (3) the inhibition of the Hepatitis C Virus (HCV). The addition of a bromine atom into the A-ring of compound 2b resulted in higher fish feeding deterrence compared to compound 1d. On the contrary, compound 2b showed only more potent inhibition against the Gram-negative bacteria Rhodotorula glutinis (MIC 2.1 μg/mL), while compound 1d showed more powerful inhibition against the other human pathogenic bacteria and fungi. The first report of a chemical defense by compounds 1d and 2b against fish feeding and environmental relevant bacteria, especially pathogenic bacteria, might be one reason for the widespread occurrence of the shallow water sponge Lamellodysidea herbacea in Indonesia and the Indo-Pacific.},
	language = {en},
	number = {11},
	urldate = {2022-11-09},
	journal = {Marine Drugs},
	author = {Faisal, Muhammad R. and Kellermann, Matthias Y. and Rohde, Sven and Putra, Masteria Y. and Murniasih, Tutik and Risdian, Chandra and Mohr, Kathrin I. and Wink, Joachim and Praditya, Dimas F. and Steinmann, Eike and Köck, Matthias and Schupp, Peter J.},
	month = oct,
	year = {2021},
	pages = {611},
}





@article{petersen_photosensitivity_2021,
	title = {Photosensitivity of the {Bacterial} {Pigment} {Cycloprodigiosin} {Enables} {Settlement} in {Coral} {Larvae}—{Light} as an {Understudied} {Environmental} {Factor}},
	volume = {8},
	issn = {2296-7745},
	url = {https://www.frontiersin.org/articles/10.3389/fmars.2021.749070/full},
	doi = {10.3389/fmars.2021.749070},
	abstract = {The survival of coral reefs largely depends among other factors on the recruitment of a new generation of coral individuals that are more adapted to a rapidly changing climate and other anthropogenic stressors (e.g., pollution, sedimentation). Therefore, a better understanding of the coral settlement process, the molecules involved as well as crucial environmental drivers that control settlement success are needed. In this study, we identified a novel settlement inducer for the brooding scleractinian coral
              Leptastrea purpurea
              and highlight the importance of light for the settlement process. Crude extract of the red-pigmented bacterium
              Pseudoalteromonas rubra
              reliably triggered attachment and metamorphosis in
              L. purpurea
              larvae in less than 24 h. Prodigiosin (II) and the two derivatives, cycloprodigiosin (I) and 2-methyl-3-hexyl prodiginine (III) were isolated and structurally elucidated from the crude extract of
              P. rubra.
              We demonstrated that the photosensitive pigment cycloprodigiosin (I) was the responsible compound for attachment and metamorphosis in
              L. purpurea
              larvae. Under the tested light regimes (i.e., darkness, constant light and a dark-light alternation), cycloprodigiosin (I) triggered approximately 90\% settlement at a concentration of 0.2 μg mL
              –1
              under a 12 h alternating dark-light cycle, mimicking the light-flooded coral reef environment. Our findings enable for the first time a mechanistic understanding of the light-dependent larva to polyp transformation by discovering the novel bacterial settlement cue cycloprodigiosin and its photosensitivity as a determining factor for coral settlement.},
	urldate = {2022-11-09},
	journal = {Frontiers in Marine Science},
	author = {Petersen, Lars-Erik and Kellermann, Matthias Y. and Nietzer, Samuel and Schupp, Peter J.},
	month = oct,
	year = {2021},
	pages = {749070},
}





@article{reiswig_rossellid_2021,
	title = {Rossellid glass sponges ({Porifera}, {Hexactinellida}) from {New} {Zealand} waters, with description of one new genus and six new species},
	volume = {1060},
	issn = {1313-2970, 1313-2989},
	url = {https://zookeys.pensoft.net/article/63307/},
	doi = {10.3897/zookeys.1060.63307},
	abstract = {New Zealand’s surrounding deep waters have become known as a diversity hotspot for glass sponges (Porifera: Hexactinellida) in recent years, and description and collection efforts are continuing. Here we report on eight rossellids (Hexasterophora: Lyssacinosida: Rossellidae) collected during the 2017 RV Sonne cruise SO254 by ROV Kiel 6000 as part of Project PoribacNewZ of the University of Oldenburg, Germany. The material includes six species new to science, two of which are assigned to a so far undescribed genus; we further re-describe two previously known species. The known extant rossellid diversity from the New Zealand region is thus almost doubled, from nine species in five genera to 17 species in eight genera. The specimens described here are only a small fraction of hexactinellids collected on cruise SO254. Unfortunately, the first author passed away while working on this collection, only being able to complete the nine descriptions reported here. The paper concludes with an obituary to him, the world-leading expert on glass sponge taxonomy who will be greatly missed.},
	urldate = {2022-11-09},
	journal = {ZooKeys},
	author = {Reiswig, Henry M. and Dohrmann, Martin and Kelly, Michelle and Mills, Sadie and Schupp, Peter J. and Wörheide, Gert},
	month = sep,
	year = {2021},
	pages = {33--84},
}





@article{bonthond_fungal_2022,
	title = {Fungal endophytes vary by species, tissue type, and life cycle stage in intertidal macroalgae},
	volume = {58},
	copyright = {Creative Commons Attribution 4.0 International License (CC-BY)},
	issn = {0022-3646, 1529-8817},
	url = {https://onlinelibrary.wiley.com/doi/10.1111/jpy.13237},
	doi = {10.1111/jpy.13237},
	language = {en},
	number = {2},
	urldate = {2022-11-09},
	journal = {Journal of Phycology},
	author = {Bonthond, Guido and Barilo, Anastasiia and Allen, Ro J. and Cunliffe, Michael and Krueger‐Hadfield, Stacy A.},
	editor = {Lane, C.},
	month = apr,
	year = {2022},
	pages = {330--342},
}





@article{wibowo_characterization_2022,
	title = {Characterization of an {Insoluble} and {Soluble} {Form} of {Melanin} {Produced} by {Streptomyces} cavourensis {SV} 21, a {Sea} {Cucumber} {Associated} {Bacterium}},
	volume = {20},
	issn = {1660-3397},
	url = {https://www.mdpi.com/1660-3397/20/1/54},
	doi = {10.3390/md20010054},
	abstract = {Melanin is a widely distributed and striking dark-colored pigment produced by countless living organisms. Although a wide range of bioactivities have been recognized, there are still major constraints in using melanin for biotechnological applications such as its fragmentary known chemical structure and its insolubility in inorganic and organic solvents. In this study, a bacterial culture of Streptomyces cavourensis SV 21 produced two distinct forms of melanin: (1) a particulate, insoluble form as well as (2) a rarely observed water-soluble form. The here presented novel, acid-free purification protocol of purified particulate melanin (PPM) and purified dissolved melanin (PDM) represents the basis for an in-depth comparison of their physicochemical and biological properties, which were compared to the traditional acid-based precipitation of melanin (AM) and to a synthetic melanin standard (SM). Our data show that the differences in solubility between PDM and PPM in aqueous solutions may be a result of different adjoining cation species, since the soluble PDM polymer is largely composed of Mg2+ ions and the insoluble PPM is dominated by Ca2+ ions. Furthermore, AM shared most properties with SM, which is likely attributed to a similar, acid-based production protocol. The here presented gentler approach of purifying melanin facilitates a new perspective of an intact form of soluble and insoluble melanin that is less chemical altered and thus closer to its original biological form.},
	language = {en},
	number = {1},
	urldate = {2022-11-09},
	journal = {Marine Drugs},
	author = {Wibowo, Joko Tri and Kellermann, Matthias Y. and Petersen, Lars-Erik and Alfiansah, Yustian R. and Lattyak, Colleen and Schupp, Peter J.},
	month = jan,
	year = {2022},
	pages = {54},
}





@article{pira_zooshikella_2021,
	title = {Zooshikella harenae sp. nov., {Isolated} from {Pacific} {Oyster} {Crassostrea} gigas, and {Establishment} of {Zooshikella} ganghwensis subsp. marina subsp. nov. and {Zooshikella} ganghwensis subsp. ganghwensis subsp. nov.},
	volume = {13},
	issn = {1424-2818},
	url = {https://www.mdpi.com/1424-2818/13/12/641},
	doi = {10.3390/d13120641},
	abstract = {Here, we describe the polyphasic taxonomy of a novel isolated strain WH53T from the genus Zooshikella isolated from the sand sediment located between the lumen of the Crassostrea gigas From Germany. Phylogenetic analysis determined that the strain WH53T had a high similarity to Zooshikella ganghwensis JC2044T (99.57\%) and Zooshikella marina LMG 28823T (99.36\%). Strain WH53T contained ubiquinone-9 (Q-9) as the predominant menaquinone, and the major fatty acids were C16:0, C16:1ω7c, and C18:1ω7c. Diphosphatidylglycerol, phosphatidylglycerol, phosphatidylethanolamine, amino phospholipids, and unidentified phospholipids were identified as their polar lipid composition. The DNA G+C content and genome size of strain WH53T were 40.08 mol\% and 5,914,969 bp, respectively. Digital DNA–DNA hybridisation (dDDH) for strain WH53T against Z. ganghwensis JC2044T and Z. marina LMG 28823T showed low relatedness values of 26.3\% and 26.1\%, respectively. The extract of strain WH53T exhibited antimicrobial property. Strain WH53T represents a novel species in the genus Zooshikella. We propose the name of Zooshikella harenae sp. nov., with the type strain WH53T (= DSM 111628T = NCCB 100808T). Furthermore, the dDDH, average nucleotide identity (ANI), percentage of conserved proteins (POCP), and amino acid identity (AAI) value between Z. marina LGM 28823T and Z. ganghwensis DSM 15267T were 79.9\%, 97.84\%, 76.08\%, and 87.01\%, respectively, suggesting that both of them should be reclassified as Z. ganghwensis subsp. marina subsp. nov. and Z. ganghwensis subsp. ganghwensis DSM 15267 subsp. nov.},
	language = {en},
	number = {12},
	urldate = {2022-11-09},
	journal = {Diversity},
	author = {Pira, Hani and Risdian, Chandra and Kämpfer, Peter and Müsken, Mathias and Schupp, Peter J. and Wink, Joachim},
	month = dec,
	year = {2021},
	pages = {641},
}





@article{mueller_comprehensive_2022,
	title = {A comprehensive approach to assess marine macro litter pollution and its impacts on corals in the {Bangka} {Strait}, {North} {Sulawesi}, {Indonesia}},
	volume = {175},
	issn = {0025326X},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0025326X22000510},
	doi = {10.1016/j.marpolbul.2022.113369},
	language = {en},
	urldate = {2022-11-08},
	journal = {Marine Pollution Bulletin},
	author = {Mueller, Jasmin S. and Bill, Nicolas and Reinach, Marco S. and Lasut, Markus T. and Freund, Holger and Schupp, Peter J.},
	month = feb,
	year = {2022},
	pages = {113369},
}





@article{pira_pacificimonas_2022,
	title = {Pacificimonas pallium sp. nov., an {Isolated} {Bacterium} from the {Mantle} of {Pacific} {Oyster} {Crassostrea} gigas in {Germany}, and {Prediction} of {One}-{Carbon} {Metabolism}},
	volume = {14},
	issn = {1424-2818},
	url = {https://www.mdpi.com/1424-2818/14/3/181},
	doi = {10.3390/d14030181},
	abstract = {A yellow bacterium from marine agar, strain WHA3T, was isolated from the mantel of the Pacific oysters Crassostrea gigas in the Wilhelmshaven Sea in northern Germany. Based on the 16S rRNA gene sequence, strain WHA3T had a high similarity to Pacificimonas flava JLT2015T (95.80\%) and 94.79\% to Pacificimonas aurantium JLT2012T. Furthermore, the dDDH and ANI value analysis between WHA3T and other closest type strains were lower than 70\% and 95\%, respectively. The percentage of conserved proteins (POCP) and the average amino acid identity (AAI) value against Pacificimonas flava JLT2015T and Pacificimonas aurantium JLT2012T represented in the ranges of higher than 50\% and 60\%, respectively. Strain WHA3T contained ubiquinone-10 (Q-10) as the predominant quinone, and the major fatty acids were C16:1 ω7c and C18:1 ω7c. Granules of polyhydroxyalkanoates (PHAs) were absent. The main polar lipids were diphosphatidylglycerol, phosphatidylethanolamine, phosphatidylglycerol, several sphingoglycolipids, an unknown phospholipid, an unknown glycolipid, and an unknown polar lipid. The polyamines contained spermidine and spermine. The DNA G + C content of strain WHA3T was 61.69\%. An analysis of the whole-genome sequence in the frame of genome mining strain WHA3T predicted the presence of genomes for one-carbon metabolism, TonB-dependent transporters, vitamin B12 transporter, iron siderophore receptor protein, and other genes, some of which play important roles against restricted nutrient sources. The extract of strain WHA3T moderately inhibited the growth of Candida albicans DSM 1665. The polyphasic taxonomic analysis results suggested that strain WHA3T could be separated from its closest type strains. Strain WHA3T represents a novel species in the genus Pacificimonas, for which we propose the name Pacificimonaspallium sp. nov., with the type strain WHA3T (= DSM 111825T = NCCB 100832T).},
	language = {en},
	number = {3},
	urldate = {2022-11-08},
	journal = {Diversity},
	author = {Pira, Hani and Risdian, Chandra and Müsken, Mathias and Schupp, Peter J. and Wink, Joachim},
	month = feb,
	year = {2022},
	pages = {181},
}





@article{reverter_coral_2022,
	title = {Coral reef benthic community changes in the {Anthropocene}: {Biogeographic} heterogeneity, overlooked configurations, and methodology},
	volume = {28},
	issn = {1354-1013, 1365-2486},
	shorttitle = {Coral reef benthic community changes in the {Anthropocene}},
	url = {https://onlinelibrary.wiley.com/doi/10.1111/gcb.16034},
	doi = {10.1111/gcb.16034},
	language = {en},
	number = {6},
	urldate = {2022-11-08},
	journal = {Global Change Biology},
	author = {Reverter, Miriam and Helber, Stephanie B. and Rohde, Sven and Goeij, Jasper M. and Schupp, Peter J.},
	month = mar,
	year = {2022},
	pages = {1956--1971},
}





@article{curdt_light_2022,
	title = {Light {Availability} {Affects} the {Symbiosis} of {Sponge} {Specific} {Cyanobacteria} and the {Common} {Blue} {Aquarium} {Sponge} ({Lendenfeldia} chondrodes)},
	volume = {12},
	issn = {2076-2615},
	url = {https://www.mdpi.com/2076-2615/12/10/1283},
	doi = {10.3390/ani12101283},
	abstract = {Bacterial symbionts in marine sponges play a decisive role in the biological and ecological functioning of their hosts. Although this topic has been the focus of numerous studies, data from experiments under controlled conditions are rare. To analyze the ongoing metabolic processes, we investigated the symbiosis of the sponge specific cyanobacterium Synechococcus spongiarum and its sponge host Lendenfeldia chondrodes under varying light conditions in a defined aquarium setting for 68 days. Sponge clonal pieces were kept at four different light intensities, ranging from no light to higher intensities that were assumed to trigger light stress. Growth as a measure of host performance and photosynthetic yield as a proxy of symbiont photosynthetic activity were measured throughout the experiment. The lack of light prevented sponge growth and induced the expulsion of all cyanobacteria and related pigments by the end of the experiment. Higher light conditions allowed rapid sponge growth and high cyanobacteria densities. In addition, photosynthetically active radiation above a certain level triggered an increase in cyanobacteria’s lutein levels, a UV absorbing protein, thus protecting itself and the host’s cells from UV radiation damage. Thus, L. chondrodes seems to benefit strongly from hosting the cyanbacterium S. spongiarum and the relationship should be considered obligatory mutualistic.},
	language = {en},
	number = {10},
	urldate = {2022-11-08},
	journal = {Animals},
	author = {Curdt, Franziska and Schupp, Peter J. and Rohde, Sven},
	month = may,
	year = {2022},
	pages = {1283},
}





@article{chen_prevalence_2022,
	title = {Prevalence, complete genome, and metabolic potentials of a phylogenetically novel cyanobacterial symbiont in the coral‐killing sponge, \textit{{Terpios} hoshinota}},
	volume = {24},
	issn = {1462-2912, 1462-2920},
	url = {https://onlinelibrary.wiley.com/doi/10.1111/1462-2920.15824},
	doi = {10.1111/1462-2920.15824},
	language = {en},
	number = {3},
	urldate = {2022-11-08},
	journal = {Environmental Microbiology},
	author = {Chen, Yu‐Hsiang and Chen, Hsing‐Ju and Yang, Cheng‐Yu and Shiu, Jia‐Ho and Hoh, Daphne Z. and Chiang, Pei‐Wen and Chow, Wenhua Savanna and Chen, Chaolun Allen and Shih, Tin‐Han and Lin, Szu‐Hsien and Yang, Chi‐Ming and Reimer, James Davis and Hirose, Euichi and Iskandar, Budhi Hascaryo and Huang, Hui and Schupp, Peter J. and Tan, Chun Hong James and Yamashiro, Hideyuki and Liao, Ming‐Hui and Tang, Sen‐Lin},
	month = mar,
	year = {2022},
	pages = {1308--1325},
}





@article{miller_towards_2022,
	title = {Towards the {Development} of {Standardized} {Bioassays} for {Corals}: {Acute} {Toxicity} of the {UV} {Filter} {Benzophenone}-3 to {Scleractinian} {Coral} {Larvae}},
	volume = {10},
	issn = {2305-6304},
	shorttitle = {Towards the {Development} of {Standardized} {Bioassays} for {Corals}},
	url = {https://www.mdpi.com/2305-6304/10/5/244},
	doi = {10.3390/toxics10050244},
	abstract = {Coral reefs have been declining globally at a historically unprecedented rate. Ultraviolet (UV) filters used in sunscreens may contribute to this decline at local scales, which has already led to bans on various organic UV filters in some regions. However, the underlying studies for these bans demonstrated significant flaws in the experimental design due to a lack of validated and standardized testing methods for corals. This study aimed to investigate options for the development of a standard acute toxicity test for the larval stage of scleractinian corals. Planula larvae of two brooding (Leptastrea purpurea and Tubastraea faulkneri) and two spawning (Acropora digitifera and A. millepora) species were exposed to the organic UV filter benzophenone-3 (BP3) for 48 h under static conditions. We observed interspecific variations in toxicity, with A. digitifera being the most sensitive (LC50 = 0.75 µg L−1) and T. faulkneri the least sensitive (LC50 = 2951.24 µg L−1) species. Inhibition of settlement was found to be a useful endpoint leading to an EC50 of 1.84 µg L−1 in L. purpurea larvae. Although the analytical challenges of measuring lipophilic substances in small volume test setups remain, the here applied test design and selected endpoints are suitable for further validation and subsequent standardization.},
	language = {en},
	number = {5},
	urldate = {2022-11-09},
	journal = {Toxics},
	author = {Miller, Ingo B. and Moeller, Mareen and Kellermann, Matthias Y. and Nietzer, Samuel and Di Mauro, Valentina and Kamyab, Elham and Pawlowski, Sascha and Petersen-Thiery, Mechtild and Schupp, Peter J.},
	month = may,
	year = {2022},
	pages = {244},
}





@article{chow_population_2022,
	title = {Population genetics and demography of the coral-killing cyanobacteriosponge, \textit{{Terpios} hoshinota,} in the {Indo}-{West} {Pacific}},
	volume = {10},
	issn = {2167-8359},
	url = {https://peerj.com/articles/13451},
	doi = {10.7717/peerj.13451},
	abstract = {The first occurrence of the cyanobacteriosponge
              Terpios hoshinota
              was reported from coral reefs in Guam in 1973, but was only formally described in 1993. Since then, the invasive behavior of this encrusting, coral-killing sponge has been observed in many coral reefs in the West Pacific. From 2015, its occurrence has expanded westward to the Indian Ocean. Although many studies have investigated the morphology, ecology, and symbiotic cyanobacteria of this sponge, little is known of its population genetics and demography. In this study, a mitochondrial cytochrome oxidase I (COI) fragment and nuclear ribosomal internal transcribed spacer 2 (ITS2) were sequenced to reveal the genetic variation of
              T. hoshinota
              collected from 11 marine ecoregions throughout the Indo-West Pacific. Both of the statistical parsimony networks based on the COI and nuclear ITS2 were dominated by a common haplotype. Pairwise
              F
              ST
              and Isolation-by-distance by Mantel test of ITS2 showed moderate gene flow existed among most populations in the marine ecoregions of West Pacific, Coral Triangle, and Eastern Indian Ocean, but with a restricted gene flow between these regions and Maldives in the Central Indian Ocean. Demographic analyses of most
              T. hoshinota
              populations were consistent with the mutation-drift equilibrium, except for the Sulawesi Sea and Maldives, which showed bottlenecks following recent expansion. Our results suggest that while long-range dispersal might explain the capability of
              T. hoshinota
              to spread in the IWP, stable population demography might account for the long-term persistence of
              T. hoshinota
              outbreaks on local reefs.},
	language = {en},
	urldate = {2022-11-08},
	journal = {PeerJ},
	author = {Chow, Savanna Wenhua and Keshavmurthy, Shashank and Reimer, James Davis and de Voogd, Nicole and Huang, Hui and Wang, Jih-Terng and Tang, Sen-Lin and Schupp, Peter J. and Tan, Chun Hong and Liew, Hock-Chark and Soong, Keryea and Subhan, Beginer and Madduppa, Hawis and Chen, Chaolun Allen},
	month = may,
	year = {2022},
	pages = {e13451},
}





@article{tareen_exploring_2022,
	title = {Exploring the {Antibiotic} {Production} {Potential} of {Heterotrophic} {Bacterial} {Communities} {Isolated} from the {Marine} {Sponges} {Crateromorpha} meyeri, {Pseudaxinella} reticulata, {Farrea} similaris, and {Caulophacus} arcticus through {Synergistic} {Metabolomic} and {Genomic} {Analyses}},
	volume = {20},
	issn = {1660-3397},
	url = {https://www.mdpi.com/1660-3397/20/7/463},
	doi = {10.3390/md20070463},
	abstract = {The discovery of novel secondary metabolites is actively being pursued in new ecosystems. Sponge-associated bacteria have been in the limelight in recent years on account of their ability to produce bioactive compounds. In this study, heterotrophic bacteria associated with four sponge species were isolated, taxonomically identified, and subjected to screening for the production of bioactive entities against a panel of nine microorganisms, including Gram-positive and negative bacteria, as well as yeast and fungi. Of the 105 isolated strains, 66\% were represented by Proteobacteria, 16\% by Bacteriodetes, 7\% by Actinobacteria, and 11\% by Firmicutes. Bioactivity screening revealed that 40\% of the total isolated strains showed antimicrobial activity against one or more of the target microorganisms tested. Further, active extracts from selective species were narrowed down by bioassay-guided fractionation and subsequently identified by HR-ESI-MS analyses to locate the active peaks. Presumably responsible compounds for the observed bioactivities were identified as pentadecenoic acid, oleic acid, and palmitoleic acid. One isolate, Qipengyuania pacifica NZ-96T, based on 16S rRNA novelty, was subjected to comparative metabolic reconstruction analysis with its closest phylogenetic neighbors, revealing 79 unique functional roles in the novel isolate. In addition, genome mining of Qipengyuania pacifica NZ-96T revealed three biosynthetic gene clusters responsible for the biosynthesis of terpene, beta lactone, lasso peptide, and hserlactone secondary metabolites. Our results demonstrate the ability to target the sponge microbiome as a potential source of novel microbial life with biotechnological potential.},
	language = {en},
	number = {7},
	urldate = {2022-11-08},
	journal = {Marine Drugs},
	author = {Tareen, Sanaullah and Schupp, Peter J. and Iqbal, Naveed and Wink, Joachim},
	month = jul,
	year = {2022},
	pages = {463},
}





@article{hildebrand_transformation_2022,
	title = {Transformation of dissolved organic matter by two {Indo}-{Pacific} sponges},
	issn = {0024-3590, 1939-5590},
	shorttitle = {Transformation of dissolved organic matter by two {Indo}-{Pacific} sponges},
	url = {https://onlinelibrary.wiley.com/doi/10.1002/lno.12214},
	doi = {10.1002/lno.12214},
	language = {en},
	urldate = {2022-11-08},
	journal = {Limnology and Oceanography},
	author = {Hildebrand, Tabea and Osterholz, Helena and Bunse, Carina and Grotheer, Hendrik and Dittmar, Thorsten and Schupp, Peter J.},
	month = sep,
	year = {2022},
	pages = {lno.12214},
}





@article{peixoto_harnessing_2022,
	title = {Harnessing the microbiome to prevent global biodiversity loss},
	volume = {7},
	issn = {2058-5276},
	url = {https://www.nature.com/articles/s41564-022-01173-1},
	doi = {10.1038/s41564-022-01173-1},
	language = {en},
	number = {11},
	urldate = {2022-11-08},
	journal = {Nature Microbiology},
	author = {Peixoto, Raquel S. and Voolstra, Christian R. and Sweet, Michael and Duarte, Carlos M. and Carvalho, Susana and Villela, Helena and Lunshof, Jeantine E. and Gram, Lone and Woodhams, Douglas C. and Walter, Jens and Roik, Anna and Hentschel, Ute and Thurber, Rebecca Vega and Daisley, Brendan and Ushijima, Blake and Daffonchio, Daniele and Costa, Rodrigo and Keller-Costa, Tina and Bowman, Jeff S. and Rosado, Alexandre S. and Reid, Gregor and Mason, Christopher E. and Walke, Jenifer B. and Thomas, Torsten and Berg, Gabriele},
	month = jul,
	year = {2022},
	pages = {1726--1735},
}





@article{bertram_mercury_2022,
	title = {Mercury contamination level is repeatable and predicted by wintering area in a long-distance migratory seabird},
	volume = {313},
	issn = {02697491},
	url = {https://linkinghub.elsevier.com/retrieve/pii/S0269749122013215},
	doi = {10.1016/j.envpol.2022.120107},
	language = {en},
	urldate = {2022-11-08},
	journal = {Environmental Pollution},
	author = {Bertram, Justine and Kürten, Nathalie and Bichet, Coraline and Schupp, Peter J. and Bouwhuis, Sandra},
	month = nov,
	year = {2022},
	pages = {120107},
}





@article{roik_roadmap_2022,
	title = {A roadmap to understanding diversity and function of coral reef-associated fungi},
	volume = {46},
	issn = {1574-6976},
	url = {https://academic.oup.com/femsre/article/doi/10.1093/femsre/fuac028/6615459},
	doi = {10.1093/femsre/fuac028},
	abstract = {Abstract
            Tropical coral reefs are hotspots of marine productivity, owing to the association of reef-building corals with endosymbiotic algae and metabolically diverse bacterial communities. However, the functional importance of fungi, well-known for their contribution to shaping terrestrial ecosystems and global nutrient cycles, remains underexplored on coral reefs. We here conceptualize how fungal functional traits may have facilitated the spread, diversification, and ecological adaptation of marine fungi on coral reefs. We propose that functions of reef-associated fungi may be diverse and go beyond their hitherto described roles of pathogens and bioeroders, including but not limited to reef-scale biogeochemical cycles and the structuring of coral-associated and environmental microbiomes via chemical mediation. Recent technological and conceptual advances will allow the elucidation of the physiological, ecological, and chemical contributions of understudied marine fungi to coral holobiont and reef ecosystem functioning and health and may help provide an outlook for reef management actions.},
	language = {en},
	number = {6},
	urldate = {2022-11-08},
	journal = {FEMS Microbiology Reviews},
	author = {Roik, Anna and Reverter, Miriam and Pogoreutz, Claudia},
	month = nov,
	year = {2022},
	pages = {fuac028},
}
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outputs from 2024 meeting).\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  ICES\n</span>\n\n  \n\n</span>\n\n  Technical Report ICES Scientific Reports,  2025.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://ices-library.figshare.com/articles/report/Working_Group_on_Fisheries_Benthic_Impact_and_Trade-offs_WGFBIT_outputs_from_2024_meeting_/28351412\"\n     onclick=\"log_download('ices-workinggrouponfisheriesbenthicimpactandtradeoffswgfbitoutputsfrom2024meeting-2025', 'https://ices-library.figshare.com/articles/report/Working_Group_on_Fisheries_Benthic_Impact_and_Trade-offs_WGFBIT_outputs_from_2024_meeting_/28351412', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT; outputs from 2024 meeting) [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.17895/ICES.PUB.28351412\"\n     onclick=\"log_download('ices-workinggrouponfisheriesbenthicimpactandtradeoffswgfbitoutputsfrom2024meeting-2025', 'http://doi.org/10.17895/ICES.PUB.28351412', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/ices-workinggrouponfisheriesbenthicimpactandtradeoffswgfbitoutputsfrom2024meeting-2025\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('ices-workinggrouponfisheriesbenthicimpactandtradeoffswgfbitoutputsfrom2024meeting-2025')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@techreport{ices_working_2025,\n\ttitle = {Working {Group} on {Fisheries} {Benthic} {Impact} and {Trade}-offs ({WGFBIT}; outputs from 2024 meeting)},\n\tcopyright = {Creative Commons Attribution 4.0 International},\n\turl = {https://ices-library.figshare.com/articles/report/Working_Group_on_Fisheries_Benthic_Impact_and_Trade-offs_WGFBIT_outputs_from_2024_meeting_/28351412},\n\tabstract = {\\textbf{Correction (11/02/2025): Update to the list of Authors and to the list of Participants}The Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT) develops methods and assessments to evaluate fisheries’ benthic impact at a regional scale while considering trade-offs between fisheries and seabed health. This report summarizes progress on a European-wide assessment of bottom trawl impacts, presenting the first quantitative evaluation across the Baltic, Atlantic, Mediterranean, and Black Seas. Using indicators of seabed status—RBStot (biomass relative to fauna carrying capacity) and RBSsen (biomass of the 10\\% most sensitive fauna relative to carrying capacity)—significant regional and habitat differences in bottom trawling impacts were identified. Methods to differentiate between good and degraded states were further refined, including probability-based approaches for seabed condition assessment.A roadmap was established to implement a Core Fishing Grounds Analysis (CFGA) across all EU marine regions within the 2024–2027 cycle. CFGs aim to balance sustainable fishing and environmental goals by protecting high-value fishing areas. Discussions addressed current limitations of CFGA and guidelines for defining scenarios in trade-off analyses. A preliminary exercise using Atlantic and Mediterranean data explored the effects of varying RBS values on surface area, landing value, fishing effort, and weight. Assuming RBS = 0.8 as the threshold for a &quot;good&quot; condition, the study assessed reductions in exploited areas and fishing efforts needed to meet EU marine targets (D6C5 Adverse Effects on Habitats).The BFIAT (Bottom Fishing Impact Assessment Tool) model was advanced to predict trawling-induced habitat changes and their impact on biological processes like bioturbation. Case studies in the Celtic Sea, Greek waters, Baltic Sea, and Kattegat utilized datasets linking macrofauna traits to biogeochemical processes under different fishing and hydrodynamic regimes. Outputs from BFIAT are integrated with models like OMEXDIA to evaluate sediment carbon processing and with 3D models (NEMO/SPM-IOW, NEMO-ERSEM) to analyze carbon dynamics and deposition. Future work will examine the impacts of fauna reduction, sediment mixing, and carbon decay on ecosystem processes.},\n\tlanguage = {en},\n\turldate = {2025-03-14},\n\tinstitution = {ICES Scientific Reports},\n\tauthor = {{ICES}},\n\tcollaborator = {{WGFBIT}},\n\tyear = {2025},\n\tdoi = {10.17895/ICES.PUB.28351412},\n\tkeywords = {Pressures, impacts, conservation, and management},\n\tpages = {6304207 Bytes},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  \\textbfCorrection (11/02/2025): Update to the list of Authors and to the list of ParticipantsThe Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT) develops methods and assessments to evaluate fisheries’ benthic impact at a regional scale while considering trade-offs between fisheries and seabed health. This report summarizes progress on a European-wide assessment of bottom trawl impacts, presenting the first quantitative evaluation across the Baltic, Atlantic, Mediterranean, and Black Seas. Using indicators of seabed status—RBStot (biomass relative to fauna carrying capacity) and RBSsen (biomass of the 10% most sensitive fauna relative to carrying capacity)—significant regional and habitat differences in bottom trawling impacts were identified. Methods to differentiate between good and degraded states were further refined, including probability-based approaches for seabed condition assessment.A roadmap was established to implement a Core Fishing Grounds Analysis (CFGA) across all EU marine regions within the 2024–2027 cycle. CFGs aim to balance sustainable fishing and environmental goals by protecting high-value fishing areas. Discussions addressed current limitations of CFGA and guidelines for defining scenarios in trade-off analyses. A preliminary exercise using Atlantic and Mediterranean data explored the effects of varying RBS values on surface area, landing value, fishing effort, and weight. Assuming RBS = 0.8 as the threshold for a \"good\" condition, the study assessed reductions in exploited areas and fishing efforts needed to meet EU marine targets (D6C5 Adverse Effects on Habitats).The BFIAT (Bottom Fishing Impact Assessment Tool) model was advanced to predict trawling-induced habitat changes and their impact on biological processes like bioturbation. Case studies in the Celtic Sea, Greek waters, Baltic Sea, and Kattegat utilized datasets linking macrofauna traits to biogeochemical processes under different fishing and hydrodynamic regimes. Outputs from BFIAT are integrated with models like OMEXDIA to evaluate sediment carbon processing and with 3D models (NEMO/SPM-IOW, NEMO-ERSEM) to analyze carbon dynamics and deposition. Future work will examine the impacts of fauna reduction, sediment mixing, and carbon decay on ecosystem processes.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2025\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://sfamjournals.onlinelibrary.wiley.com/doi/10.1111/1462-2920.70062\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2025', 'https://sfamjournals.onlinelibrary.wiley.com/doi/10.1111/1462-2920.70062', event);\">\n    Seasonal Cycles in a Seaweed Holobiont: A Multiyear Time Series Reveals Repetitive Microbial Shifts and Core Taxa.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Mudlaff, C. M., Weinberger, F., Düsedau, L., Ghotbi, M., Künzel, S.,  &amp; Bonthond, G.\n</span>\n\n  \n\n</span>\n\n  <i>Environmental Microbiology</i>, 27(3): e70062. March 2025.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://sfamjournals.onlinelibrary.wiley.com/doi/10.1111/1462-2920.70062\"\n     onclick=\"log_download('mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2025', 'https://sfamjournals.onlinelibrary.wiley.com/doi/10.1111/1462-2920.70062', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Seasonal Cycles in a Seaweed Holobiont: A Multiyear Time Series Reveals Repetitive Microbial Shifts and Core Taxa [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1111/1462-2920.70062\"\n     onclick=\"log_download('mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2025', 'http://doi.org/10.1111/1462-2920.70062', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2025\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2025')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{mudlaff_seasonal_2025,\n\ttitle = {Seasonal {Cycles} in a {Seaweed} {Holobiont}: {A} {Multiyear} {Time} {Series} {Reveals} {Repetitive} {Microbial} {Shifts} and {Core} {Taxa}},\n\tvolume = {27},\n\tissn = {1462-2912, 1462-2920},\n\tshorttitle = {Seasonal {Cycles} in a {Seaweed} {Holobiont}},\n\turl = {https://sfamjournals.onlinelibrary.wiley.com/doi/10.1111/1462-2920.70062},\n\tdoi = {10.1111/1462-2920.70062},\n\tabstract = {ABSTRACT \n             \n              Seasonality is an important natural feature that drives cyclic environmental changes. Seaweed holobionts, inhabiting shallow waters such as rocky shores and mud flats, are subject to seasonal changes in particular, but little is known about the influence of seasonality on their microbial communities. In this study, we conducted a three‐year time series, sampling at two‐month intervals, to assess the seasonality of microbial epibiota in the seaweed holobiont \n              Gracilaria vermiculophylla \n              . Our results reveal pronounced seasonal shifts that are both taxonomic and functional, oscillating between late winter and early summer across consecutive years. While epibiota varied taxonomically between populations, they were functionally similar, indicating that seasonal variability drives functional changes, while spatial variability is more redundant. We also identified seasonal core microbiota that consistently (re)associated with the host at specific times, alongside a permanent core that is present year‐round, independent of season or geography. These findings highlight the dynamic yet resilient nature of seaweed holobionts and demonstrate that their epibiota undergo predictable changes. Therewith, this research offers important insights into the temporal dynamics of seaweed‐associated microbiota and demonstrates that the relationship between seaweed host and its epibiota is not static but naturally subject to an ongoing seasonal succession process.},\n\tlanguage = {en},\n\tnumber = {3},\n\turldate = {2025-03-13},\n\tjournal = {Environmental Microbiology},\n\tauthor = {Mudlaff, Chantal Marie and Weinberger, Florian and Düsedau, Luisa and Ghotbi, Marjan and Künzel, Sven and Bonthond, Guido},\n\tmonth = mar,\n\tyear = {2025},\n\tpages = {e70062},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  ABSTRACT Seasonality is an important natural feature that drives cyclic environmental changes. Seaweed holobionts, inhabiting shallow waters such as rocky shores and mud flats, are subject to seasonal changes in particular, but little is known about the influence of seasonality on their microbial communities. In this study, we conducted a three‐year time series, sampling at two‐month intervals, to assess the seasonality of microbial epibiota in the seaweed holobiont Gracilaria vermiculophylla . Our results reveal pronounced seasonal shifts that are both taxonomic and functional, oscillating between late winter and early summer across consecutive years. While epibiota varied taxonomically between populations, they were functionally similar, indicating that seasonal variability drives functional changes, while spatial variability is more redundant. We also identified seasonal core microbiota that consistently (re)associated with the host at specific times, alongside a permanent core that is present year‐round, independent of season or geography. These findings highlight the dynamic yet resilient nature of seaweed holobionts and demonstrate that their epibiota undergo predictable changes. Therewith, this research offers important insights into the temporal dynamics of seaweed‐associated microbiota and demonstrates that the relationship between seaweed host and its epibiota is not static but naturally subject to an ongoing seasonal succession process.\n</div>\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2024\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2024')\"\n      onkeypress=\"toggleGroup('group_2024')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2024</span>\n      <span class=\"bibbase_group_count\">\n        \n        (10)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"schnurawa-mueller-schade-nehls-dronebasedmonitoringofintertidalbluemusselbedsinthewaddenseacomparisonofathresholdandtwomachinelearningapproaches-2024\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.frontiersin.org/articles/10.3389/fmars.2024.1381036/full\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'schnurawa-mueller-schade-nehls-dronebasedmonitoringofintertidalbluemusselbedsinthewaddenseacomparisonofathresholdandtwomachinelearningapproaches-2024', 'https://www.frontiersin.org/articles/10.3389/fmars.2024.1381036/full', event);\">\n    Drone-based monitoring of intertidal blue mussel beds in the Wadden Sea – comparison of a threshold and two machine learning approaches.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Schnurawa, M., Mueller, J. S., Schade, H.,  &amp; Nehls, G.\n</span>\n\n  \n\n</span>\n\n  <i>Frontiers in Marine Science</i>, 11: 1381036. April 2024.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.frontiersin.org/articles/10.3389/fmars.2024.1381036/full\"\n     onclick=\"log_download('schnurawa-mueller-schade-nehls-dronebasedmonitoringofintertidalbluemusselbedsinthewaddenseacomparisonofathresholdandtwomachinelearningapproaches-2024', 'https://www.frontiersin.org/articles/10.3389/fmars.2024.1381036/full', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Drone-based monitoring of intertidal blue mussel beds in the Wadden Sea – comparison of a threshold and two machine learning approaches [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3389/fmars.2024.1381036\"\n     onclick=\"log_download('schnurawa-mueller-schade-nehls-dronebasedmonitoringofintertidalbluemusselbedsinthewaddenseacomparisonofathresholdandtwomachinelearningapproaches-2024', 'http://doi.org/10.3389/fmars.2024.1381036', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/schnurawa-mueller-schade-nehls-dronebasedmonitoringofintertidalbluemusselbedsinthewaddenseacomparisonofathresholdandtwomachinelearningapproaches-2024\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('schnurawa-mueller-schade-nehls-dronebasedmonitoringofintertidalbluemusselbedsinthewaddenseacomparisonofathresholdandtwomachinelearningapproaches-2024')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{schnurawa_drone-based_2024,\n\ttitle = {Drone-based monitoring of intertidal blue mussel beds in the {Wadden} {Sea} – comparison of a threshold and two machine learning approaches},\n\tvolume = {11},\n\tissn = {2296-7745},\n\turl = {https://www.frontiersin.org/articles/10.3389/fmars.2024.1381036/full},\n\tdoi = {10.3389/fmars.2024.1381036},\n\tabstract = {In the Wadden Sea, intertidal mussel beds of the blue mussel ( \n              Mytilus edulis \n              ) and the Pacific oyster ( \n              Magallana gigas \n              ) form distinct epibenthic communities and local hotspots of high biomass and biodiversity. To detect and evaluate natural and anthropogenic processes, a ground-based monitoring program started over 25 years ago in the German Wadden Sea. In this study, we describe the potential of drones and machine learning approaches for a remote sensing-based integration into an existing monitoring program of intertidal mussel beds. A fixed wing drone was used to cover an area of up to 39ha in a single flight, with an overall time saving potential of 50\\%. Applying machine learning approaches, a detailed extraction of the intertidal blue mussel bed coverage with an overall accuracy (OA) up to 95.6\\% was reached, applying a Support Vector Machine (SVM). The application of a multispectral sensor improved the classification performance. Compared to ground-based monitoring, the drone-based method provided significantly more information on the area extension, coverage, and associated algae of the mussel beds. The results show that drones can provide a non-invasive way to survey large and difficult to access areas providing detailed maps of mussel beds and their internal structures.},\n\turldate = {2025-03-13},\n\tjournal = {Frontiers in Marine Science},\n\tauthor = {Schnurawa, Marc and Mueller, Jasmin S. and Schade, Hanna and Nehls, Georg},\n\tmonth = apr,\n\tyear = {2024},\n\tpages = {1381036},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  In the Wadden Sea, intertidal mussel beds of the blue mussel ( Mytilus edulis ) and the Pacific oyster ( Magallana gigas ) form distinct epibenthic communities and local hotspots of high biomass and biodiversity. To detect and evaluate natural and anthropogenic processes, a ground-based monitoring program started over 25 years ago in the German Wadden Sea. In this study, we describe the potential of drones and machine learning approaches for a remote sensing-based integration into an existing monitoring program of intertidal mussel beds. A fixed wing drone was used to cover an area of up to 39ha in a single flight, with an overall time saving potential of 50%. Applying machine learning approaches, a detailed extraction of the intertidal blue mussel bed coverage with an overall accuracy (OA) up to 95.6% was reached, applying a Support Vector Machine (SVM). The application of a multispectral sensor improved the classification performance. Compared to ground-based monitoring, the drone-based method provided significantly more information on the area extension, coverage, and associated algae of the mussel beds. The results show that drones can provide a non-invasive way to survey large and difficult to access areas providing detailed maps of mussel beds and their internal structures.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"stratmann-miranda-dekluijver-busch-kelly-mills-schupp-dissolvedorganicmatterfluxesandfattyacidcompositionfromshallowwateranddeepwaterdemoandhexactinellidspongesfromnewzealand-2024\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://biorxiv.org/lookup/doi/10.1101/2024.06.03.597081\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'stratmann-miranda-dekluijver-busch-kelly-mills-schupp-dissolvedorganicmatterfluxesandfattyacidcompositionfromshallowwateranddeepwaterdemoandhexactinellidspongesfromnewzealand-2024', 'http://biorxiv.org/lookup/doi/10.1101/2024.06.03.597081', event);\">\n    Dissolved organic matter fluxes and fatty acid composition from shallow-water and deep-water demo- and hexactinellid sponges from New Zealand.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Stratmann, T., Miranda, M. L. M., De Kluijver, A., Busch, K., Kelly, M., Mills, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  June 2024.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://biorxiv.org/lookup/doi/10.1101/2024.06.03.597081\"\n     onclick=\"log_download('stratmann-miranda-dekluijver-busch-kelly-mills-schupp-dissolvedorganicmatterfluxesandfattyacidcompositionfromshallowwateranddeepwaterdemoandhexactinellidspongesfromnewzealand-2024', 'http://biorxiv.org/lookup/doi/10.1101/2024.06.03.597081', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Dissolved organic matter fluxes and fatty acid composition from shallow-water and deep-water demo- and hexactinellid sponges from New Zealand [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1101/2024.06.03.597081\"\n     onclick=\"log_download('stratmann-miranda-dekluijver-busch-kelly-mills-schupp-dissolvedorganicmatterfluxesandfattyacidcompositionfromshallowwateranddeepwaterdemoandhexactinellidspongesfromnewzealand-2024', 'http://doi.org/10.1101/2024.06.03.597081', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/stratmann-miranda-dekluijver-busch-kelly-mills-schupp-dissolvedorganicmatterfluxesandfattyacidcompositionfromshallowwateranddeepwaterdemoandhexactinellidspongesfromnewzealand-2024\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('stratmann-miranda-dekluijver-busch-kelly-mills-schupp-dissolvedorganicmatterfluxesandfattyacidcompositionfromshallowwateranddeepwaterdemoandhexactinellidspongesfromnewzealand-2024')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@misc{stratmann_dissolved_2024,\n\ttitle = {Dissolved organic matter fluxes and fatty acid composition from shallow-water and deep-water demo- and hexactinellid sponges from {New} {Zealand}},\n\turl = {http://biorxiv.org/lookup/doi/10.1101/2024.06.03.597081},\n\tdoi = {10.1101/2024.06.03.597081},\n\tabstract = {Abstract \n           \n            Sponges are an important component of shallow- and deep-water ecosystems enhancing eukaryotic biodiversity via diverse endo- and epibiota and by providing three dimensional habitats for benthic invertebrates and fishes. Sponge biodiversity is particularly high in the waters around New Zealand (Southwest Pacific), where we collected two shallow- and two deep-water sponge species ( \n            Tedania \n            sp., \n            Suberea meandrina \n            , \n            Farrea raoulensis \n            , \n            Artemisina \n            sp.) for \n            ex-situ \n            incubation experiments to detect whether these sponges may process dissolved organic matter. \n           \n          We assessed the biochemical and phospholipid-derived fatty acids (PLFAs) and measured dissolved organic carbon (DOC) and total dissolved nitrogen (TDN) fluxes. Changes in fluorescent dissolved organic matter (FDOM) over time were analyzed and the results were linked to the bacterial communities of the sponge holobiont. \n           \n            Dried sponge tissue consisted of 17.5 ± 3.75\\% organic (org.) C and of 4.34 ± 1.02\\% total nitrogen (TN) with a natural stable isotope composition of -19.0 ±0.25‰ for δ \n            13 \n            org. C and of 10.2 ±2.43‰ for δ \n            15 \n            TN. None of the DOC fluxes was significant and only the release of TDN by \n            Tedania \n            sp. was significantly different from 0 μmol TDN g org. C \n            -1 \n            d \n            -1 \n            . We detected the presence of four fluorophores in the FDOM pool: 2 tryptophan- and protein-like fluorophores (C1, C2), 1 humic-like fluorophore (C3), and 1 tyrosine-like fluorophore (C4). The maximum fluorescence intensity F \n            max \n            of C1 decreased significantly in \n            S. meandrina \n            incubations, whereas F \n            max \n            of C2 grew in the same incubations. F \n            max \n            of C3 increased in \n            Tedania \n            sp. incubations, in which F \n            max \n            of C4 decreased. In comparison, F \n            max \n            of C4 in \n            S. meandrina \n            rose. \n           \n           \n            The PLFA composition of sponge tissue was dominated by long-chain fatty acids, saturated fatty acids, and monosaturated fatty acids and most PLFAs were sponge- and bacteria-specific. The bacterial community of the demosponges \n            Artemisina \n            sp., \n            S. meandrina \n            and \n            Tedania \n            sp. consisted mostly of Proteobacteria and Chloroflexota, whereas the dominating bacteria phylum of the hexactinellid \n            F. raoulensis \n            was Proteobacteria. \n           \n           \n            We proposed that the holobionts of \n            S. meandrina \n            and \n            Tedania \n            sp. contain bacteria that are involved in the transformation and degradation of DOM. In \n            S. meandrina \n            , Chloroflexota and Poribacteria may degrade tryptophan-like fluorophores to a chemically modified tryptophan-like and protein-like fluorophore, while producing a tyrosine-like fluorophore. In \n            Tedania \n            sp., Chloroflexota may contribute to the release of significant amounts of TDN by producing humic-like fluorophores, while degrading tyrosine-like fluorophores. \n            Farrea raoulensis \n            may not take up DOM due to a lack of Poribacteria and Chloroflexota or may use colloidal instead of truly dissolved DOC.},\n\tlanguage = {en},\n\turldate = {2024-12-20},\n\tauthor = {Stratmann, Tanja and Miranda, Mario L. M. and De Kluijver, Anna and Busch, Kathrin and Kelly, Michelle and Mills, Sadie and Schupp, Peter J.},\n\tmonth = jun,\n\tyear = {2024},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract Sponges are an important component of shallow- and deep-water ecosystems enhancing eukaryotic biodiversity via diverse endo- and epibiota and by providing three dimensional habitats for benthic invertebrates and fishes. Sponge biodiversity is particularly high in the waters around New Zealand (Southwest Pacific), where we collected two shallow- and two deep-water sponge species ( Tedania sp., Suberea meandrina , Farrea raoulensis , Artemisina sp.) for ex-situ incubation experiments to detect whether these sponges may process dissolved organic matter. We assessed the biochemical and phospholipid-derived fatty acids (PLFAs) and measured dissolved organic carbon (DOC) and total dissolved nitrogen (TDN) fluxes. Changes in fluorescent dissolved organic matter (FDOM) over time were analyzed and the results were linked to the bacterial communities of the sponge holobiont. Dried sponge tissue consisted of 17.5 ± 3.75% organic (org.) C and of 4.34 ± 1.02% total nitrogen (TN) with a natural stable isotope composition of -19.0 ±0.25‰ for δ 13 org. C and of 10.2 ±2.43‰ for δ 15 TN. None of the DOC fluxes was significant and only the release of TDN by Tedania sp. was significantly different from 0 μmol TDN g org. C -1 d -1 . We detected the presence of four fluorophores in the FDOM pool: 2 tryptophan- and protein-like fluorophores (C1, C2), 1 humic-like fluorophore (C3), and 1 tyrosine-like fluorophore (C4). The maximum fluorescence intensity F max of C1 decreased significantly in S. meandrina incubations, whereas F max of C2 grew in the same incubations. F max of C3 increased in Tedania sp. incubations, in which F max of C4 decreased. In comparison, F max of C4 in S. meandrina rose. The PLFA composition of sponge tissue was dominated by long-chain fatty acids, saturated fatty acids, and monosaturated fatty acids and most PLFAs were sponge- and bacteria-specific. The bacterial community of the demosponges Artemisina sp., S. meandrina and Tedania sp. consisted mostly of Proteobacteria and Chloroflexota, whereas the dominating bacteria phylum of the hexactinellid F. raoulensis was Proteobacteria. We proposed that the holobionts of S. meandrina and Tedania sp. contain bacteria that are involved in the transformation and degradation of DOM. In S. meandrina , Chloroflexota and Poribacteria may degrade tryptophan-like fluorophores to a chemically modified tryptophan-like and protein-like fluorophore, while producing a tyrosine-like fluorophore. In Tedania sp., Chloroflexota may contribute to the release of significant amounts of TDN by producing humic-like fluorophores, while degrading tyrosine-like fluorophores. Farrea raoulensis may not take up DOM due to a lack of Poribacteria and Chloroflexota or may use colloidal instead of truly dissolved DOC.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"nietzer-moeller-fiegel-schupp-corallarvaeondemandanovelmethodforaninstantacquisitionofhealthybroodedlarvae-2024\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.researchsquare.com/article/rs-4616138/v1\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'nietzer-moeller-fiegel-schupp-corallarvaeondemandanovelmethodforaninstantacquisitionofhealthybroodedlarvae-2024', 'https://www.researchsquare.com/article/rs-4616138/v1', event);\">\n    Coral larvae on demand: a novel method for an instant acquisition of healthy brooded larvae.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Nietzer, S., Moeller, M., Fiegel, L.,  &amp; Schupp, P.\n</span>\n\n  \n\n</span>\n\n  August 2024.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.researchsquare.com/article/rs-4616138/v1\"\n     onclick=\"log_download('nietzer-moeller-fiegel-schupp-corallarvaeondemandanovelmethodforaninstantacquisitionofhealthybroodedlarvae-2024', 'https://www.researchsquare.com/article/rs-4616138/v1', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Coral larvae on demand: a novel method for an instant acquisition of healthy brooded larvae [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.21203/rs.3.rs-4616138/v1\"\n     onclick=\"log_download('nietzer-moeller-fiegel-schupp-corallarvaeondemandanovelmethodforaninstantacquisitionofhealthybroodedlarvae-2024', 'http://doi.org/10.21203/rs.3.rs-4616138/v1', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/nietzer-moeller-fiegel-schupp-corallarvaeondemandanovelmethodforaninstantacquisitionofhealthybroodedlarvae-2024\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('nietzer-moeller-fiegel-schupp-corallarvaeondemandanovelmethodforaninstantacquisitionofhealthybroodedlarvae-2024')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@misc{nietzer_coral_2024,\n\ttitle = {Coral larvae on demand: a novel method for an instant acquisition of healthy brooded larvae},\n\tcopyright = {https://creativecommons.org/licenses/by/4.0/},\n\tshorttitle = {Coral larvae on demand},\n\turl = {https://www.researchsquare.com/article/rs-4616138/v1},\n\tdoi = {10.21203/rs.3.rs-4616138/v1},\n\tabstract = {Abstract \n           \n            Access to coral larvae is crucial for research on early life stages of corals, yet traditional methods for obtaining brooded larvae are labor-intensive and time-consuming. We present a novel method to efficiently collect viable brooded larvae within minutes from colonies of five different scleractinian coral species ( \n            Leptastrea purpurea \n            , \n            Leptastrea transversa \n            , \n            Tubastraea faulkneri \n            , \n            Pocillopora acuta \n            , \n            Favia fragum \n            ). By immersing the colonies in seawater containing 5–10 g/L potassium chloride for 5–7 minutes, we induced instant larval release. This method yielded a similar quantity of larvae compared to traditional methods. The larvae remained viable, surviving storage for several weeks and settling successfully. Our method is both faster and easier than traditional methods, suitable for application with aquarium-cultured corals or in field stations. The potassium chloride technique was effective for all tested coral species that tolerate elevated potassium ion concentrations without harm. However, it should not be applied to potassium-sensitive corals like \n            Euphyllia \n            . Coral reproduction, larval release, planulation, brooder, spawning, settlement cues},\n\turldate = {2024-12-20},\n\tauthor = {Nietzer, Samuel and Moeller, Mareen and Fiegel, Laura and Schupp, Peter},\n\tmonth = aug,\n\tyear = {2024},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract Access to coral larvae is crucial for research on early life stages of corals, yet traditional methods for obtaining brooded larvae are labor-intensive and time-consuming. We present a novel method to efficiently collect viable brooded larvae within minutes from colonies of five different scleractinian coral species ( Leptastrea purpurea , Leptastrea transversa , Tubastraea faulkneri , Pocillopora acuta , Favia fragum ). By immersing the colonies in seawater containing 5–10 g/L potassium chloride for 5–7 minutes, we induced instant larval release. This method yielded a similar quantity of larvae compared to traditional methods. The larvae remained viable, surviving storage for several weeks and settling successfully. Our method is both faster and easier than traditional methods, suitable for application with aquarium-cultured corals or in field stations. The potassium chloride technique was effective for all tested coral species that tolerate elevated potassium ion concentrations without harm. However, it should not be applied to potassium-sensitive corals like Euphyllia . Coral reproduction, larval release, planulation, brooder, spawning, settlement cues\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"ghotbi-bonthond-ghotbi-knzel-needham-weinberger-greaterhostinfluenceandpromiscuityhowaninvasiveseaweedhosthasadvantagesovercooccurringnatives-2024\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://biorxiv.org/lookup/doi/10.1101/2024.12.02.626238\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'ghotbi-bonthond-ghotbi-knzel-needham-weinberger-greaterhostinfluenceandpromiscuityhowaninvasiveseaweedhosthasadvantagesovercooccurringnatives-2024', 'http://biorxiv.org/lookup/doi/10.1101/2024.12.02.626238', event);\">\n    Greater host influence and promiscuity: How an invasive seaweed host has advantages over co-occurring natives.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Ghotbi, M., Bonthond, G., Ghotbi, M., Künzel, S., Needham, D. M,  &amp; Weinberger, F.\n</span>\n\n  \n\n</span>\n\n  December 2024.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://biorxiv.org/lookup/doi/10.1101/2024.12.02.626238\"\n     onclick=\"log_download('ghotbi-bonthond-ghotbi-knzel-needham-weinberger-greaterhostinfluenceandpromiscuityhowaninvasiveseaweedhosthasadvantagesovercooccurringnatives-2024', 'http://biorxiv.org/lookup/doi/10.1101/2024.12.02.626238', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Greater host influence and promiscuity: How an invasive seaweed host has advantages over co-occurring natives [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1101/2024.12.02.626238\"\n     onclick=\"log_download('ghotbi-bonthond-ghotbi-knzel-needham-weinberger-greaterhostinfluenceandpromiscuityhowaninvasiveseaweedhosthasadvantagesovercooccurringnatives-2024', 'http://doi.org/10.1101/2024.12.02.626238', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/ghotbi-bonthond-ghotbi-knzel-needham-weinberger-greaterhostinfluenceandpromiscuityhowaninvasiveseaweedhosthasadvantagesovercooccurringnatives-2024\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('ghotbi-bonthond-ghotbi-knzel-needham-weinberger-greaterhostinfluenceandpromiscuityhowaninvasiveseaweedhosthasadvantagesovercooccurringnatives-2024')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@misc{ghotbi_greater_2024,\n\ttitle = {Greater host influence and promiscuity: {How} an invasive seaweed host has advantages over co-occurring natives},\n\tcopyright = {http://creativecommons.org/licenses/by-nd/4.0/},\n\tshorttitle = {Greater host influence and promiscuity},\n\turl = {http://biorxiv.org/lookup/doi/10.1101/2024.12.02.626238},\n\tdoi = {10.1101/2024.12.02.626238},\n\tabstract = {Abstract \n           \n            The surface microbiome of seaweed hosts is a multi-domain biofilm regulated by host-microbe and microbe-microbe interactions. The extent to which hosts influence these interactions, and potentially affect their resilience and invasion success, remains unclear. We experimentally tested whether hosts with invasion history exert more influence over their biofilms than native hosts. Biofilm formation on proxy surfaces adjacent to one invasive ( \n            Gracilaria vermiculophylla \n            ) and two native ( \n            Fucus serratus, Fucus vesiculosus \n            ) co-occurring hosts was monitored and compared to mature epiphytic biofilms of the same hosts. Only \n            Gracilaria’s \n            proxy biofilms were significantly different in community composition compared to control surfaces. \n            Gracilaria \n            ’s proxy biofilms also showed the highest similarity to their adjacent algae sharing certain bacterial taxa that were absent in control treatments, indicating that colonization of the proxy surface was influenced by the host. \n            Gracilaria \n            and its proxy biofilm showed highest similarity in microbial network variables, suggesting a higher ability of the invader to influence connectivity and microbial associations within its biofilm. Meanwhile \n            Gracilaria \n            ’s mature biofilm also showed higher variability in its prokaryotic composition over experiments, which was also reflected in a less robust microbial network in both \n            Gracilaria \n            and its proxy biofilms. This suggests that in addition to stronger influence in the invasive host, it was also more promiscuous towards potential symbionts from the environment. Ultimately, through examining microbial interactions, in line with previous research we found that host influence and promiscuity may play an important role in seaweed hosts to acclimate to different environmental condition and successfully thrive in new ecosystems.},\n\tlanguage = {en},\n\turldate = {2024-12-20},\n\tauthor = {Ghotbi, Marjan and Bonthond, Guido and Ghotbi, Mitra and Künzel, Sven and Needham, David M and Weinberger, Florian},\n\tmonth = dec,\n\tyear = {2024},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract The surface microbiome of seaweed hosts is a multi-domain biofilm regulated by host-microbe and microbe-microbe interactions. The extent to which hosts influence these interactions, and potentially affect their resilience and invasion success, remains unclear. We experimentally tested whether hosts with invasion history exert more influence over their biofilms than native hosts. Biofilm formation on proxy surfaces adjacent to one invasive ( Gracilaria vermiculophylla ) and two native ( Fucus serratus, Fucus vesiculosus ) co-occurring hosts was monitored and compared to mature epiphytic biofilms of the same hosts. Only Gracilaria’s proxy biofilms were significantly different in community composition compared to control surfaces. Gracilaria ’s proxy biofilms also showed the highest similarity to their adjacent algae sharing certain bacterial taxa that were absent in control treatments, indicating that colonization of the proxy surface was influenced by the host. Gracilaria and its proxy biofilm showed highest similarity in microbial network variables, suggesting a higher ability of the invader to influence connectivity and microbial associations within its biofilm. Meanwhile Gracilaria ’s mature biofilm also showed higher variability in its prokaryotic composition over experiments, which was also reflected in a less robust microbial network in both Gracilaria and its proxy biofilms. This suggests that in addition to stronger influence in the invasive host, it was also more promiscuous towards potential symbionts from the environment. Ultimately, through examining microbial interactions, in line with previous research we found that host influence and promiscuity may play an important role in seaweed hosts to acclimate to different environmental condition and successfully thrive in new ecosystems.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"reverter-helber-rohde-goeij-schupp-driversofcoralreefbenthicchangesandimplicationsonecosystemfunctioningandservices-2024\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.taylorfrancis.com/books/9781003477518/chapters/10.1201/9781003477518-5\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'reverter-helber-rohde-goeij-schupp-driversofcoralreefbenthicchangesandimplicationsonecosystemfunctioningandservices-2024', 'https://www.taylorfrancis.com/books/9781003477518/chapters/10.1201/9781003477518-5', event);\">\n    Drivers of Coral Reef Benthic Changes and Implications on Ecosystem Functioning and Services.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Reverter, M., Helber, S. B., Rohde, S., Goeij, J. M. D.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  In <i>Oceanography and Marine Biology</i>, pages 215–247. CRC Press, Boca Raton, 1 edition, September 2024.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.taylorfrancis.com/books/9781003477518/chapters/10.1201/9781003477518-5\"\n     onclick=\"log_download('reverter-helber-rohde-goeij-schupp-driversofcoralreefbenthicchangesandimplicationsonecosystemfunctioningandservices-2024', 'https://www.taylorfrancis.com/books/9781003477518/chapters/10.1201/9781003477518-5', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Drivers of Coral Reef Benthic Changes and Implications on Ecosystem Functioning and Services [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1201/9781003477518-5\"\n     onclick=\"log_download('reverter-helber-rohde-goeij-schupp-driversofcoralreefbenthicchangesandimplicationsonecosystemfunctioningandservices-2024', 'http://doi.org/10.1201/9781003477518-5', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/reverter-helber-rohde-goeij-schupp-driversofcoralreefbenthicchangesandimplicationsonecosystemfunctioningandservices-2024\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('reverter-helber-rohde-goeij-schupp-driversofcoralreefbenthicchangesandimplicationsonecosystemfunctioningandservices-2024')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@incollection{todd_drivers_2024,\n\taddress = {Boca Raton},\n\tedition = {1},\n\ttitle = {Drivers of {Coral} {Reef} {Benthic} {Changes} and {Implications} on {Ecosystem} {Functioning} and {Services}},\n\tisbn = {9781003477518},\n\turl = {https://www.taylorfrancis.com/books/9781003477518/chapters/10.1201/9781003477518-5},\n\tlanguage = {en},\n\turldate = {2024-12-20},\n\tbooktitle = {Oceanography and {Marine} {Biology}},\n\tpublisher = {CRC Press},\n\tauthor = {Reverter, Miriam and Helber, Stephanie B. and Rohde, Sven and Goeij, Jasper M. De and Schupp, Peter J.},\n\tcollaborator = {Todd, P. A. and Russell, B.D.},\n\tmonth = sep,\n\tyear = {2024},\n\tdoi = {10.1201/9781003477518-5},\n\tpages = {215--247},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"bertram-moiron-bichet-krten-schupp-bouwhuis-mercuryconcentrationsinbloodandbackfeathersarerepeatableheritableandcorrelatedinalonglivedseabird-2024\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0048969724070967\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'bertram-moiron-bichet-krten-schupp-bouwhuis-mercuryconcentrationsinbloodandbackfeathersarerepeatableheritableandcorrelatedinalonglivedseabird-2024', 'https://linkinghub.elsevier.com/retrieve/pii/S0048969724070967', event);\">\n    Mercury concentrations in blood and back feathers are repeatable, heritable and correlated in a long-lived seabird.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Bertram, J., Moiron, M., Bichet, C., Kürten, N., Schupp, P. J.,  &amp; Bouwhuis, S.\n</span>\n\n  \n\n</span>\n\n  <i>Science of The Total Environment</i>, 955: 176939. December 2024.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0048969724070967\"\n     onclick=\"log_download('bertram-moiron-bichet-krten-schupp-bouwhuis-mercuryconcentrationsinbloodandbackfeathersarerepeatableheritableandcorrelatedinalonglivedseabird-2024', 'https://linkinghub.elsevier.com/retrieve/pii/S0048969724070967', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Mercury concentrations in blood and back feathers are repeatable, heritable and correlated in a long-lived seabird [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.scitotenv.2024.176939\"\n     onclick=\"log_download('bertram-moiron-bichet-krten-schupp-bouwhuis-mercuryconcentrationsinbloodandbackfeathersarerepeatableheritableandcorrelatedinalonglivedseabird-2024', 'http://doi.org/10.1016/j.scitotenv.2024.176939', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/bertram-moiron-bichet-krten-schupp-bouwhuis-mercuryconcentrationsinbloodandbackfeathersarerepeatableheritableandcorrelatedinalonglivedseabird-2024\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('bertram-moiron-bichet-krten-schupp-bouwhuis-mercuryconcentrationsinbloodandbackfeathersarerepeatableheritableandcorrelatedinalonglivedseabird-2024')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{bertram_mercury_2024,\n\ttitle = {Mercury concentrations in blood and back feathers are repeatable, heritable and correlated in a long-lived seabird},\n\tvolume = {955},\n\tissn = {00489697},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0048969724070967},\n\tdoi = {10.1016/j.scitotenv.2024.176939},\n\tlanguage = {en},\n\turldate = {2024-12-20},\n\tjournal = {Science of The Total Environment},\n\tauthor = {Bertram, Justine and Moiron, Maria and Bichet, Coraline and Kürten, Nathalie and Schupp, Peter J. and Bouwhuis, Sandra},\n\tmonth = dec,\n\tyear = {2024},\n\tpages = {176939},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"stratmann-busch-dekluijver-kelly-mills-rossel-schupp-nutrientfluxesoxygenconsumptionandfattyacidcompositionfromdeepwaterdemoandhexactinellidspongesfromnewzealand-2024\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0967063724001869\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'stratmann-busch-dekluijver-kelly-mills-rossel-schupp-nutrientfluxesoxygenconsumptionandfattyacidcompositionfromdeepwaterdemoandhexactinellidspongesfromnewzealand-2024', 'https://linkinghub.elsevier.com/retrieve/pii/S0967063724001869', event);\">\n    Nutrient fluxes, oxygen consumption and fatty acid composition from deep-water demo- and hexactinellid sponges from New Zealand.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Stratmann, T., Busch, K., De Kluijver, A., Kelly, M., Mills, S., Rossel, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Deep Sea Research Part I: Oceanographic Research Papers</i>, 214: 104416. December 2024.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0967063724001869\"\n     onclick=\"log_download('stratmann-busch-dekluijver-kelly-mills-rossel-schupp-nutrientfluxesoxygenconsumptionandfattyacidcompositionfromdeepwaterdemoandhexactinellidspongesfromnewzealand-2024', 'https://linkinghub.elsevier.com/retrieve/pii/S0967063724001869', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Nutrient fluxes, oxygen consumption and fatty acid composition from deep-water demo- and hexactinellid sponges from New Zealand [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.dsr.2024.104416\"\n     onclick=\"log_download('stratmann-busch-dekluijver-kelly-mills-rossel-schupp-nutrientfluxesoxygenconsumptionandfattyacidcompositionfromdeepwaterdemoandhexactinellidspongesfromnewzealand-2024', 'http://doi.org/10.1016/j.dsr.2024.104416', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/stratmann-busch-dekluijver-kelly-mills-rossel-schupp-nutrientfluxesoxygenconsumptionandfattyacidcompositionfromdeepwaterdemoandhexactinellidspongesfromnewzealand-2024\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('stratmann-busch-dekluijver-kelly-mills-rossel-schupp-nutrientfluxesoxygenconsumptionandfattyacidcompositionfromdeepwaterdemoandhexactinellidspongesfromnewzealand-2024')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{stratmann_nutrient_2024,\n\ttitle = {Nutrient fluxes, oxygen consumption and fatty acid composition from deep-water demo- and hexactinellid sponges from {New} {Zealand}},\n\tvolume = {214},\n\tissn = {09670637},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0967063724001869},\n\tdoi = {10.1016/j.dsr.2024.104416},\n\tlanguage = {en},\n\turldate = {2024-12-20},\n\tjournal = {Deep Sea Research Part I: Oceanographic Research Papers},\n\tauthor = {Stratmann, Tanja and Busch, Kathrin and De Kluijver, Anna and Kelly, Michelle and Mills, Sadie and Rossel, Sven and Schupp, Peter J.},\n\tmonth = dec,\n\tyear = {2024},\n\tpages = {104416},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2024\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://biorxiv.org/lookup/doi/10.1101/2024.10.23.619769\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2024', 'http://biorxiv.org/lookup/doi/10.1101/2024.10.23.619769', event);\">\n    Seasonal cycles in a seaweed holobiont: A multiyear time series reveals repetitive microbial shifts and core taxa.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Mudlaff, C. M., Weinberger, F., Düsedau, L., Ghotbi, M., Künzel, S.,  &amp; Bonthond, G.\n</span>\n\n  \n\n</span>\n\n  October 2024.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://biorxiv.org/lookup/doi/10.1101/2024.10.23.619769\"\n     onclick=\"log_download('mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2024', 'http://biorxiv.org/lookup/doi/10.1101/2024.10.23.619769', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Seasonal cycles in a seaweed holobiont: A multiyear time series reveals repetitive microbial shifts and core taxa [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1101/2024.10.23.619769\"\n     onclick=\"log_download('mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2024', 'http://doi.org/10.1101/2024.10.23.619769', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2024\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('mudlaff-weinberger-dsedau-ghotbi-knzel-bonthond-seasonalcyclesinaseaweedholobiontamultiyeartimeseriesrevealsrepetitivemicrobialshiftsandcoretaxa-2024')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@misc{mudlaff_seasonal_2024,\n\ttitle = {Seasonal cycles in a seaweed holobiont: {A} multiyear time series reveals repetitive microbial shifts and core taxa},\n\tcopyright = {http://creativecommons.org/licenses/by/4.0/},\n\tshorttitle = {Seasonal cycles in a seaweed holobiont},\n\turl = {http://biorxiv.org/lookup/doi/10.1101/2024.10.23.619769},\n\tdoi = {10.1101/2024.10.23.619769},\n\tabstract = {ABSTRACT \n          Seasonality is an important natural feature that drives cyclic environmental changes. Seaweed holobionts, inhabiting shallow waters such as rocky shores and mud flats, are subject to seasonal changes in particular, but little is known on the influence of seasonality on their microbial communities. \n           \n            In this study, we conducted a bi-monthly, three-year time series to assess the seasonality of microbial epibiota in the seaweed holobiont \n            Gracilaria vermiculophylla \n            . Our results reveal pronounced seasonal shifts that are both taxonomic and functional, oscillating between late winter and early summer across consecutive years. While epibiota varied taxonomically between populations, they were functionally similar, indicating that seasonal variability drives functional changes, while spatial variability is more redundant. \n           \n          We also identified seasonal core microbiota that consistently (re)associated with the host at specific times, alongside a permanent core that is present year-round, independent of season or geography. These findings highlight the dynamic yet resilient nature of seaweed holobionts and demonstrate that their epibiota undergo predictable changes. Therewith, the research offers important insights into the temporal dynamics of seaweed-associated microbiota, and demonstrates that the relationship between seaweed host and its epibiota is not static, but naturally subject to an ongoing seasonal succession process.},\n\tlanguage = {en},\n\turldate = {2024-11-07},\n\tauthor = {Mudlaff, Chantal Marie and Weinberger, Florian and Düsedau, Luisa and Ghotbi, Marjan and Künzel, Sven and Bonthond, Guido},\n\tmonth = oct,\n\tyear = {2024},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  ABSTRACT Seasonality is an important natural feature that drives cyclic environmental changes. Seaweed holobionts, inhabiting shallow waters such as rocky shores and mud flats, are subject to seasonal changes in particular, but little is known on the influence of seasonality on their microbial communities. In this study, we conducted a bi-monthly, three-year time series to assess the seasonality of microbial epibiota in the seaweed holobiont Gracilaria vermiculophylla . Our results reveal pronounced seasonal shifts that are both taxonomic and functional, oscillating between late winter and early summer across consecutive years. While epibiota varied taxonomically between populations, they were functionally similar, indicating that seasonal variability drives functional changes, while spatial variability is more redundant. We also identified seasonal core microbiota that consistently (re)associated with the host at specific times, alongside a permanent core that is present year-round, independent of season or geography. These findings highlight the dynamic yet resilient nature of seaweed holobionts and demonstrate that their epibiota undergo predictable changes. Therewith, the research offers important insights into the temporal dynamics of seaweed-associated microbiota, and demonstrates that the relationship between seaweed host and its epibiota is not static, but naturally subject to an ongoing seasonal succession process.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"bertram-bichet-moiron-schupp-bouwhuis-sexandagespecificmercuryaccumulationinalonglivedseabird-2024\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0048969724024732\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'bertram-bichet-moiron-schupp-bouwhuis-sexandagespecificmercuryaccumulationinalonglivedseabird-2024', 'https://linkinghub.elsevier.com/retrieve/pii/S0048969724024732', event);\">\n    Sex- and age-specific mercury accumulation in a long-lived seabird.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Bertram, J., Bichet, C., Moiron, M., Schupp, P. J.,  &amp; Bouwhuis, S.\n</span>\n\n  \n\n</span>\n\n  <i>Science of The Total Environment</i>, 927: 172330. June 2024.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0048969724024732\"\n     onclick=\"log_download('bertram-bichet-moiron-schupp-bouwhuis-sexandagespecificmercuryaccumulationinalonglivedseabird-2024', 'https://linkinghub.elsevier.com/retrieve/pii/S0048969724024732', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Sex- and age-specific mercury accumulation in a long-lived seabird [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.scitotenv.2024.172330\"\n     onclick=\"log_download('bertram-bichet-moiron-schupp-bouwhuis-sexandagespecificmercuryaccumulationinalonglivedseabird-2024', 'http://doi.org/10.1016/j.scitotenv.2024.172330', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/bertram-bichet-moiron-schupp-bouwhuis-sexandagespecificmercuryaccumulationinalonglivedseabird-2024\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('bertram-bichet-moiron-schupp-bouwhuis-sexandagespecificmercuryaccumulationinalonglivedseabird-2024')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{bertram_sex-_2024,\n\ttitle = {Sex- and age-specific mercury accumulation in a long-lived seabird},\n\tvolume = {927},\n\tissn = {00489697},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0048969724024732},\n\tdoi = {10.1016/j.scitotenv.2024.172330},\n\tlanguage = {en},\n\turldate = {2024-08-27},\n\tjournal = {Science of The Total Environment},\n\tauthor = {Bertram, Justine and Bichet, Coraline and Moiron, Maria and Schupp, Peter J. and Bouwhuis, Sandra},\n\tmonth = jun,\n\tyear = {2024},\n\tpages = {172330},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"roik-wall-dobelmann-nietzer-brefeld-fiesinger-reverter-schupp-etal-tradeoffsinareefbuildingcoralaftersixyearsofthermalacclimation-2024\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0048969724047387\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'roik-wall-dobelmann-nietzer-brefeld-fiesinger-reverter-schupp-etal-tradeoffsinareefbuildingcoralaftersixyearsofthermalacclimation-2024', 'https://linkinghub.elsevier.com/retrieve/pii/S0048969724047387', event);\">\n    Trade-offs in a reef-building coral after six years of thermal acclimation.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Roik, A., Wall, M., Dobelmann, M., Nietzer, S., Brefeld, D., Fiesinger, A., Reverter, M., Schupp, P. J., Jackson, M., Rutsch, M.,  &amp; Strahl, J.\n</span>\n\n  \n\n</span>\n\n  <i>Science of The Total Environment</i>, 949: 174589. November 2024.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0048969724047387\"\n     onclick=\"log_download('roik-wall-dobelmann-nietzer-brefeld-fiesinger-reverter-schupp-etal-tradeoffsinareefbuildingcoralaftersixyearsofthermalacclimation-2024', 'https://linkinghub.elsevier.com/retrieve/pii/S0048969724047387', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Trade-offs in a reef-building coral after six years of thermal acclimation [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.scitotenv.2024.174589\"\n     onclick=\"log_download('roik-wall-dobelmann-nietzer-brefeld-fiesinger-reverter-schupp-etal-tradeoffsinareefbuildingcoralaftersixyearsofthermalacclimation-2024', 'http://doi.org/10.1016/j.scitotenv.2024.174589', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/roik-wall-dobelmann-nietzer-brefeld-fiesinger-reverter-schupp-etal-tradeoffsinareefbuildingcoralaftersixyearsofthermalacclimation-2024\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('roik-wall-dobelmann-nietzer-brefeld-fiesinger-reverter-schupp-etal-tradeoffsinareefbuildingcoralaftersixyearsofthermalacclimation-2024')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{roik_trade-offs_2024,\n\ttitle = {Trade-offs in a reef-building coral after six years of thermal acclimation},\n\tvolume = {949},\n\tissn = {00489697},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0048969724047387},\n\tdoi = {10.1016/j.scitotenv.2024.174589},\n\tlanguage = {en},\n\turldate = {2024-08-27},\n\tjournal = {Science of The Total Environment},\n\tauthor = {Roik, Anna and Wall, Marlene and Dobelmann, Melina and Nietzer, Samuel and Brefeld, David and Fiesinger, Anna and Reverter, Miriam and Schupp, Peter J. and Jackson, Matthew and Rutsch, Marie and Strahl, Julia},\n\tmonth = nov,\n\tyear = {2024},\n\tpages = {174589},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2023\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2023')\"\n      onkeypress=\"toggleGroup('group_2023')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2023</span>\n      <span class=\"bibbase_group_count\">\n        \n        (12)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"lipinska-kruegerhadfield-godfroy-dittami-ayresostrock-bonthond-brilletguguen-coelho-etal-therhodoexplorerplatformforredalgalgenomicsandwholegenomeassembliesforseveraligracilariaispecies-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://academic.oup.com/gbe/article/doi/10.1093/gbe/evad124/7229277\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'lipinska-kruegerhadfield-godfroy-dittami-ayresostrock-bonthond-brilletguguen-coelho-etal-therhodoexplorerplatformforredalgalgenomicsandwholegenomeassembliesforseveraligracilariaispecies-2023', 'https://academic.oup.com/gbe/article/doi/10.1093/gbe/evad124/7229277', event);\">\n    The Rhodoexplorer Platform for Red Algal Genomics and Whole-Genome Assemblies for Several <i>Gracilaria</i> Species.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Lipinska, A. P, Krueger-Hadfield, S. A, Godfroy, O., Dittami, S. M, Ayres-Ostrock, L., Bonthond, G., Brillet-Guéguen, L., Coelho, S., Corre, E., Cossard, G., Destombe, C., Epperlein, P., Faugeron, S., Ficko-Blean, E., Beltrán, J., Lavaut, E., Le Bars, A., Marchi, F., Mauger, S., Michel, G., Potin, P., Scornet, D., Sotka, E. E, Weinberger, F., Cabral De Oliveira, M., Guillemin, M., Plastino, E. M,  &amp; Valero, M.\n</span>\n\n  \n\n</span>\n\n  <i>Genome Biology and Evolution</i>, 15(7): evad124. July 2023.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://academic.oup.com/gbe/article/doi/10.1093/gbe/evad124/7229277\"\n     onclick=\"log_download('lipinska-kruegerhadfield-godfroy-dittami-ayresostrock-bonthond-brilletguguen-coelho-etal-therhodoexplorerplatformforredalgalgenomicsandwholegenomeassembliesforseveraligracilariaispecies-2023', 'https://academic.oup.com/gbe/article/doi/10.1093/gbe/evad124/7229277', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"The Rhodoexplorer Platform for Red Algal Genomics and Whole-Genome Assemblies for Several &lt;i&gt;Gracilaria&lt;/i&gt; Species [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1093/gbe/evad124\"\n     onclick=\"log_download('lipinska-kruegerhadfield-godfroy-dittami-ayresostrock-bonthond-brilletguguen-coelho-etal-therhodoexplorerplatformforredalgalgenomicsandwholegenomeassembliesforseveraligracilariaispecies-2023', 'http://doi.org/10.1093/gbe/evad124', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/lipinska-kruegerhadfield-godfroy-dittami-ayresostrock-bonthond-brilletguguen-coelho-etal-therhodoexplorerplatformforredalgalgenomicsandwholegenomeassembliesforseveraligracilariaispecies-2023\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('lipinska-kruegerhadfield-godfroy-dittami-ayresostrock-bonthond-brilletguguen-coelho-etal-therhodoexplorerplatformforredalgalgenomicsandwholegenomeassembliesforseveraligracilariaispecies-2023')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{lipinska_rhodoexplorer_2023,\n\ttitle = {The {Rhodoexplorer} {Platform} for {Red} {Algal} {Genomics} and {Whole}-{Genome} {Assemblies} for {Several} \\textit{{Gracilaria}} {Species}},\n\tvolume = {15},\n\tcopyright = {https://creativecommons.org/licenses/by/4.0/},\n\tissn = {1759-6653},\n\turl = {https://academic.oup.com/gbe/article/doi/10.1093/gbe/evad124/7229277},\n\tdoi = {10.1093/gbe/evad124},\n\tabstract = {Abstract \n            Macroalgal (seaweed) genomic resources are generally lacking as compared with other eukaryotic taxa, and this is particularly true in the red algae (Rhodophyta). Understanding red algal genomes is critical to understanding eukaryotic evolution given that red algal genes are spread across eukaryotic lineages from secondary endosymbiosis and red algae diverged early in the Archaeplastids. The Gracilariales is a highly diverse and widely distributed order including species that can serve as ecosystem engineers in intertidal habitats and several notorious introduced species. The genus Gracilaria is cultivated worldwide, in part for its production of agar and other bioactive compounds with downstream pharmaceutical and industrial applications. This genus is also emerging as a model for algal evolutionary ecology. Here, we report new whole-genome assemblies for two species (Gracilaria chilensis and Gracilaria gracilis), a draft genome assembly of Gracilaria caudata, and genome annotation of the previously published Gracilaria vermiculophylla genome. To facilitate accessibility and comparative analysis, we integrated these data in a newly created web-based portal dedicated to red algal genomics (https://rhodoexplorer.sb-roscoff.fr). These genomes will provide a resource for understanding algal biology and, more broadly, eukaryotic evolution.},\n\tlanguage = {en},\n\tnumber = {7},\n\turldate = {2024-11-07},\n\tjournal = {Genome Biology and Evolution},\n\tauthor = {Lipinska, Agnieszka P and Krueger-Hadfield, Stacy A and Godfroy, Olivier and Dittami, Simon M and Ayres-Ostrock, Lígia and Bonthond, Guido and Brillet-Guéguen, Loraine and Coelho, Susana and Corre, Erwan and Cossard, Guillaume and Destombe, Christophe and Epperlein, Paul and Faugeron, Sylvain and Ficko-Blean, Elizabeth and Beltrán, Jessica and Lavaut, Emma and Le Bars, Arthur and Marchi, Fabiana and Mauger, Stéphane and Michel, Gurvan and Potin, Philippe and Scornet, Delphine and Sotka, Erik E and Weinberger, Florian and Cabral De Oliveira, Mariana and Guillemin, Marie-Laure and Plastino, Estela M and Valero, Myriam},\n\teditor = {Castric, Vincent},\n\tmonth = jul,\n\tyear = {2023},\n\tpages = {evad124},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract Macroalgal (seaweed) genomic resources are generally lacking as compared with other eukaryotic taxa, and this is particularly true in the red algae (Rhodophyta). Understanding red algal genomes is critical to understanding eukaryotic evolution given that red algal genes are spread across eukaryotic lineages from secondary endosymbiosis and red algae diverged early in the Archaeplastids. The Gracilariales is a highly diverse and widely distributed order including species that can serve as ecosystem engineers in intertidal habitats and several notorious introduced species. The genus Gracilaria is cultivated worldwide, in part for its production of agar and other bioactive compounds with downstream pharmaceutical and industrial applications. This genus is also emerging as a model for algal evolutionary ecology. Here, we report new whole-genome assemblies for two species (Gracilaria chilensis and Gracilaria gracilis), a draft genome assembly of Gracilaria caudata, and genome annotation of the previously published Gracilaria vermiculophylla genome. To facilitate accessibility and comparative analysis, we integrated these data in a newly created web-based portal dedicated to red algal genomics (https://rhodoexplorer.sb-roscoff.fr). These genomes will provide a resource for understanding algal biology and, more broadly, eukaryotic evolution.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"garaba-albinus-bonthond-flder-miranda-rohde-yong-wollschlger-bioopticalpropertiesofthecyanobacteriuminodulariaspumigenai-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://essd.copernicus.org/articles/15/4163/2023/\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'garaba-albinus-bonthond-flder-miranda-rohde-yong-wollschlger-bioopticalpropertiesofthecyanobacteriuminodulariaspumigenai-2023', 'https://essd.copernicus.org/articles/15/4163/2023/', event);\">\n    Bio-optical properties of the cyanobacterium <i>Nodularia spumigena</i>.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Garaba, S. P., Albinus, M., Bonthond, G., Flöder, S., Miranda, M. L. M., Rohde, S., Yong, J. Y. L.,  &amp; Wollschläger, J.\n</span>\n\n  \n\n</span>\n\n  <i>Earth System Science Data</i>, 15(9): 4163–4179. September 2023.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://essd.copernicus.org/articles/15/4163/2023/\"\n     onclick=\"log_download('garaba-albinus-bonthond-flder-miranda-rohde-yong-wollschlger-bioopticalpropertiesofthecyanobacteriuminodulariaspumigenai-2023', 'https://essd.copernicus.org/articles/15/4163/2023/', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Bio-optical properties of the cyanobacterium &lt;i&gt;Nodularia spumigena&lt;/i&gt; [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.5194/essd-15-4163-2023\"\n     onclick=\"log_download('garaba-albinus-bonthond-flder-miranda-rohde-yong-wollschlger-bioopticalpropertiesofthecyanobacteriuminodulariaspumigenai-2023', 'http://doi.org/10.5194/essd-15-4163-2023', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/garaba-albinus-bonthond-flder-miranda-rohde-yong-wollschlger-bioopticalpropertiesofthecyanobacteriuminodulariaspumigenai-2023\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('garaba-albinus-bonthond-flder-miranda-rohde-yong-wollschlger-bioopticalpropertiesofthecyanobacteriuminodulariaspumigenai-2023')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{garaba_bio-optical_2023,\n\ttitle = {Bio-optical properties of the cyanobacterium \\textit{{Nodularia} spumigena}},\n\tvolume = {15},\n\tcopyright = {https://creativecommons.org/licenses/by/4.0/},\n\tissn = {1866-3516},\n\turl = {https://essd.copernicus.org/articles/15/4163/2023/},\n\tdoi = {10.5194/essd-15-4163-2023},\n\tabstract = {Abstract. In the last century, an increasing number of extreme weather events have been\nexperienced across the globe. These events have also been linked to changes\nin water quality, especially due to heavy rains, flooding, or droughts. In\nterms of blue economic activities, harmful algal bloom events can pose a major\nthreat, especially when they become widespread and last for several days. We\npresent and discuss advanced measurements of a bloom dominated by the\ncyanobacterium Nodularia spumigena conducted by hyperspectral optical technologies via\nexperiments of opportunity. Absorption coefficients, absorbance and\nfluorescence were measured in the laboratory, and these data are available at\nhttps://doi.org/10.4121/21610995.v1\n(Wollschläger et al., 2022), https://doi.org/10.4121/21822051.v1 (Miranda et al., 2023)\nand https://doi.org/10.4121/21904632.v1 (Miranda and\nGaraba, 2023). Data used to derive the above-water reflectance are available\nfrom https://doi.org/10.4121/21814977.v1 (Garaba,\n2023) and https://doi.org/10.4121/21814773.v1\n(Garaba and Albinus, 2023). Additionally, hyperspectral\nfluorescence measurements of the dissolved compounds in the water were carried out.\nThese hyperspectral measurements were conducted over a wide spectrum (200–2500 nm). Diagnostic optical features were determined using robust\nstatistical techniques. Water clarity was inferred from Secchi disc\nmeasurements (https://doi.org/10.1594/PANGAEA.951239,\nGaraba and Albinus, 2022). Identification of the cyanobacterium\nwas completed via visual analysis under a microscope. Full sequences of the 16S rRNA and rbcL genes were\nobtained, revealing a very strong match to\nN. spumigena; these data are available via GenBank: https://www.ncbi.nlm.nih.gov/nuccore/OP918142/\n(Garaba and Bonthond, 2022b) and https://www.ncbi.nlm.nih.gov/nuccore/OP925098\n(Garaba and Bonthond, 2022a). The chlorophyll-a\nand phycocyanin levels determined are available from https://doi.org/10.4121/21792665.v1 (Rohde et al., 2023).\nOur experiments of opportunity echo the importance of sustainable,\nsimplified, coordinated and continuous water quality monitoring as a way to\nthrive with respect to the targets set in the United Nations Sustainable Development Goals (e.g. 6, 11, 12 and 14) or the European Union Framework Directives (e.g. the Water Framework Directive and\nMarine Strategy Framework Directive).},\n\tlanguage = {en},\n\tnumber = {9},\n\turldate = {2024-11-07},\n\tjournal = {Earth System Science Data},\n\tauthor = {Garaba, Shungudzemwoyo P. and Albinus, Michelle and Bonthond, Guido and Flöder, Sabine and Miranda, Mario L. M. and Rohde, Sven and Yong, Joanne Y. L. and Wollschläger, Jochen},\n\tmonth = sep,\n\tyear = {2023},\n\tpages = {4163--4179},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract. In the last century, an increasing number of extreme weather events have been experienced across the globe. These events have also been linked to changes in water quality, especially due to heavy rains, flooding, or droughts. In terms of blue economic activities, harmful algal bloom events can pose a major threat, especially when they become widespread and last for several days. We present and discuss advanced measurements of a bloom dominated by the cyanobacterium Nodularia spumigena conducted by hyperspectral optical technologies via experiments of opportunity. Absorption coefficients, absorbance and fluorescence were measured in the laboratory, and these data are available at https://doi.org/10.4121/21610995.v1 (Wollschläger et al., 2022), https://doi.org/10.4121/21822051.v1 (Miranda et al., 2023) and https://doi.org/10.4121/21904632.v1 (Miranda and Garaba, 2023). Data used to derive the above-water reflectance are available from https://doi.org/10.4121/21814977.v1 (Garaba, 2023) and https://doi.org/10.4121/21814773.v1 (Garaba and Albinus, 2023). Additionally, hyperspectral fluorescence measurements of the dissolved compounds in the water were carried out. These hyperspectral measurements were conducted over a wide spectrum (200–2500 nm). Diagnostic optical features were determined using robust statistical techniques. Water clarity was inferred from Secchi disc measurements (https://doi.org/10.1594/PANGAEA.951239, Garaba and Albinus, 2022). Identification of the cyanobacterium was completed via visual analysis under a microscope. Full sequences of the 16S rRNA and rbcL genes were obtained, revealing a very strong match to N. spumigena; these data are available via GenBank: https://www.ncbi.nlm.nih.gov/nuccore/OP918142/ (Garaba and Bonthond, 2022b) and https://www.ncbi.nlm.nih.gov/nuccore/OP925098 (Garaba and Bonthond, 2022a). The chlorophyll-a and phycocyanin levels determined are available from https://doi.org/10.4121/21792665.v1 (Rohde et al., 2023). Our experiments of opportunity echo the importance of sustainable, simplified, coordinated and continuous water quality monitoring as a way to thrive with respect to the targets set in the United Nations Sustainable Development Goals (e.g. 6, 11, 12 and 14) or the European Union Framework Directives (e.g. the Water Framework Directive and Marine Strategy Framework Directive).\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"brefeld-dimauro-kellermann-nietzer-moeller-ltjens-pawlowski-petersenthiery-etal-acutetoxicityassayswithadultcoralfragmentsamethodforstandardization-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/2305-6304/12/1/1\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'brefeld-dimauro-kellermann-nietzer-moeller-ltjens-pawlowski-petersenthiery-etal-acutetoxicityassayswithadultcoralfragmentsamethodforstandardization-2023', 'https://www.mdpi.com/2305-6304/12/1/1', event);\">\n    Acute Toxicity Assays with Adult Coral Fragments: A Method for Standardization.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Brefeld, D., Di Mauro, V., Kellermann, M. Y., Nietzer, S., Moeller, M., Lütjens, L. H., Pawlowski, S., Petersen-Thiery, M.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Toxics</i>, 12(1): 1. December 2023.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/2305-6304/12/1/1\"\n     onclick=\"log_download('brefeld-dimauro-kellermann-nietzer-moeller-ltjens-pawlowski-petersenthiery-etal-acutetoxicityassayswithadultcoralfragmentsamethodforstandardization-2023', 'https://www.mdpi.com/2305-6304/12/1/1', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Acute Toxicity Assays with Adult Coral Fragments: A Method for Standardization [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/toxics12010001\"\n     onclick=\"log_download('brefeld-dimauro-kellermann-nietzer-moeller-ltjens-pawlowski-petersenthiery-etal-acutetoxicityassayswithadultcoralfragmentsamethodforstandardization-2023', 'http://doi.org/10.3390/toxics12010001', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/brefeld-dimauro-kellermann-nietzer-moeller-ltjens-pawlowski-petersenthiery-etal-acutetoxicityassayswithadultcoralfragmentsamethodforstandardization-2023\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('brefeld-dimauro-kellermann-nietzer-moeller-ltjens-pawlowski-petersenthiery-etal-acutetoxicityassayswithadultcoralfragmentsamethodforstandardization-2023')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{brefeld_acute_2023,\n\ttitle = {Acute {Toxicity} {Assays} with {Adult} {Coral} {Fragments}: {A} {Method} for {Standardization}},\n\tvolume = {12},\n\tcopyright = {https://creativecommons.org/licenses/by/4.0/},\n\tissn = {2305-6304},\n\tshorttitle = {Acute {Toxicity} {Assays} with {Adult} {Coral} {Fragments}},\n\turl = {https://www.mdpi.com/2305-6304/12/1/1},\n\tdoi = {10.3390/toxics12010001},\n\tabstract = {Coral reefs are globally declining due to various anthropogenic stressors. Amongst those, chemical pollutants, such as pesticides from agricultural runoff, sewage or an overabundance of personal care products in coastal waters due to intense tourism, may be considered as a local stressor for reef-building corals. The extent to which such chemicals exhibit toxic effects towards corals at environmentally relevant concentrations is currently controversially discussed and existing studies are often based on varying and sometimes deficient test methods. To address this uncertainty, we adapted available methods into a reliable and comprehensive acute coral toxicity test method for the reef-building coral Montipora digitata. The toxicities of the four substances benzophenone-3 (BP-3), Diuron (DCMU), copper (Cu2+ as CuCl2, positive control) and dimethylformamide (DMF, solvent) were assessed in a 96 h semi-static test design. Endpoints such as maximum quantum yield, bleaching, tissue loss and mortality were evaluated with respect to their suitability for regulatory purposes. Overall, the endpoints bleaching and mortality yielded sensitive and robust results for the four tested substances. As the test method follows the principles of internationally standardized testing methods (ISO, OECD), it can be considered suitable for further validation and standardization. Once validated, a standardized test method will help to obtain reproducible toxicity results useful for marine hazard and risk assessment and regulatory decision making.},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2024-08-27},\n\tjournal = {Toxics},\n\tauthor = {Brefeld, David and Di Mauro, Valentina and Kellermann, Matthias Y. and Nietzer, Samuel and Moeller, Mareen and Lütjens, Laura H. and Pawlowski, Sascha and Petersen-Thiery, Mechtild and Schupp, Peter J.},\n\tmonth = dec,\n\tyear = {2023},\n\tpages = {1},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Coral reefs are globally declining due to various anthropogenic stressors. Amongst those, chemical pollutants, such as pesticides from agricultural runoff, sewage or an overabundance of personal care products in coastal waters due to intense tourism, may be considered as a local stressor for reef-building corals. The extent to which such chemicals exhibit toxic effects towards corals at environmentally relevant concentrations is currently controversially discussed and existing studies are often based on varying and sometimes deficient test methods. To address this uncertainty, we adapted available methods into a reliable and comprehensive acute coral toxicity test method for the reef-building coral Montipora digitata. The toxicities of the four substances benzophenone-3 (BP-3), Diuron (DCMU), copper (Cu2+ as CuCl2, positive control) and dimethylformamide (DMF, solvent) were assessed in a 96 h semi-static test design. Endpoints such as maximum quantum yield, bleaching, tissue loss and mortality were evaluated with respect to their suitability for regulatory purposes. Overall, the endpoints bleaching and mortality yielded sensitive and robust results for the four tested substances. As the test method follows the principles of internationally standardized testing methods (ISO, OECD), it can be considered suitable for further validation and standardization. Once validated, a standardized test method will help to obtain reproducible toxicity results useful for marine hazard and risk assessment and regulatory decision making.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"dewenter-yong-schupp-lhmus-krncke-moorthi-pieck-kuczynski-etal-abundancebiomassandspeciesrichnessofmacrozoobenthosalonganintertidalelevationgradient-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1002/ece3.10815\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'dewenter-yong-schupp-lhmus-krncke-moorthi-pieck-kuczynski-etal-abundancebiomassandspeciesrichnessofmacrozoobenthosalonganintertidalelevationgradient-2023', 'https://onlinelibrary.wiley.com/doi/10.1002/ece3.10815', event);\">\n    Abundance, biomass and species richness of macrozoobenthos along an intertidal elevation gradient.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Dewenter, J., Yong, J., Schupp, P. J., Lõhmus, K., Kröncke, I., Moorthi, S., Pieck, D., Kuczynski, L.,  &amp; Rohde, S.\n</span>\n\n  \n\n</span>\n\n  <i>Ecology and Evolution</i>, 13(12): e10815. December 2023.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1002/ece3.10815\"\n     onclick=\"log_download('dewenter-yong-schupp-lhmus-krncke-moorthi-pieck-kuczynski-etal-abundancebiomassandspeciesrichnessofmacrozoobenthosalonganintertidalelevationgradient-2023', 'https://onlinelibrary.wiley.com/doi/10.1002/ece3.10815', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Abundance, biomass and species richness of macrozoobenthos along an intertidal elevation gradient [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1002/ece3.10815\"\n     onclick=\"log_download('dewenter-yong-schupp-lhmus-krncke-moorthi-pieck-kuczynski-etal-abundancebiomassandspeciesrichnessofmacrozoobenthosalonganintertidalelevationgradient-2023', 'http://doi.org/10.1002/ece3.10815', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/dewenter-yong-schupp-lhmus-krncke-moorthi-pieck-kuczynski-etal-abundancebiomassandspeciesrichnessofmacrozoobenthosalonganintertidalelevationgradient-2023\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('dewenter-yong-schupp-lhmus-krncke-moorthi-pieck-kuczynski-etal-abundancebiomassandspeciesrichnessofmacrozoobenthosalonganintertidalelevationgradient-2023')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{dewenter_abundance_2023,\n\ttitle = {Abundance, biomass and species richness of macrozoobenthos along an intertidal elevation gradient},\n\tvolume = {13},\n\tissn = {2045-7758, 2045-7758},\n\turl = {https://onlinelibrary.wiley.com/doi/10.1002/ece3.10815},\n\tdoi = {10.1002/ece3.10815},\n\tabstract = {Abstract \n             \n              Ecology aims to comprehend species distribution and its interaction with environmental factors, from global to local scales. While global environmental changes affect marine biodiversity, understanding the drivers at smaller scales remains crucial. Tidal flats can be found on most of the world&#x27;s coastlines and are particularly vulnerable to anthropogenic disturbances. They are important transient ecosystems between terrestrial and marine ecosystems, and their biodiversity provides important ecosystem services. Owing to this unique, terrestrial–marine transition, strong environmental gradients of elevation, sediment composition and food availability prevail. Here, we investigated which regional and local environmental factors drive the spatio‐temporal dynamics of macrozoobenthos communities on back‐barrier tidal flats in the East Frisian Wadden Sea. On the regional level, we found that species composition changed significantly from west to east on the East Frisian islands and that total abundance and species richness decreased from west to east. On the local abiotic level, we found that macrozoobenthos biomass decreased with higher elevation towards the salt marsh and that the total abundance of organisms in the sediment significantly increased with increasing mud content, while biodiversity and biomass were not changing significantly. In contrast to expectations, increasing Chl \n              a \n              availability as a measure of primary productivity did not result in changes in abundance, biomass or biodiversity, but extremely high total organic carbon (TOC) content was associated with a decrease in biomass and biodiversity. In conclusion, we found regional and local relationships that are similar to those observed in previous studies on macrozoobenthos in the Wadden Sea. Macrozoobenthos biomass, abundance and biodiversity are interrelated in a complex way with the physical, abiotic and biotic processes in and above the sediment.},\n\tlanguage = {en},\n\tnumber = {12},\n\turldate = {2024-01-12},\n\tjournal = {Ecology and Evolution},\n\tauthor = {Dewenter, Jana and Yong, Joanne and Schupp, Peter J. and Lõhmus, Kertu and Kröncke, Ingrid and Moorthi, Stefanie and Pieck, Daniela and Kuczynski, Lucie and Rohde, Sven},\n\tmonth = dec,\n\tyear = {2023},\n\tpages = {e10815},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract Ecology aims to comprehend species distribution and its interaction with environmental factors, from global to local scales. While global environmental changes affect marine biodiversity, understanding the drivers at smaller scales remains crucial. Tidal flats can be found on most of the world's coastlines and are particularly vulnerable to anthropogenic disturbances. They are important transient ecosystems between terrestrial and marine ecosystems, and their biodiversity provides important ecosystem services. Owing to this unique, terrestrial–marine transition, strong environmental gradients of elevation, sediment composition and food availability prevail. Here, we investigated which regional and local environmental factors drive the spatio‐temporal dynamics of macrozoobenthos communities on back‐barrier tidal flats in the East Frisian Wadden Sea. On the regional level, we found that species composition changed significantly from west to east on the East Frisian islands and that total abundance and species richness decreased from west to east. On the local abiotic level, we found that macrozoobenthos biomass decreased with higher elevation towards the salt marsh and that the total abundance of organisms in the sediment significantly increased with increasing mud content, while biodiversity and biomass were not changing significantly. In contrast to expectations, increasing Chl a availability as a measure of primary productivity did not result in changes in abundance, biomass or biodiversity, but extremely high total organic carbon (TOC) content was associated with a decrease in biomass and biodiversity. In conclusion, we found regional and local relationships that are similar to those observed in previous studies on macrozoobenthos in the Wadden Sea. Macrozoobenthos biomass, abundance and biodiversity are interrelated in a complex way with the physical, abiotic and biotic processes in and above the sediment.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"bonthond-beermann-gutow-neumann-barboza-desiderato-fofonova-helber-etal-benthicmicrobialbiogeographictrendsinthenorthseaareshapedbyaninterplayofenvironmentaldriversandbottomtrawlingeffort-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.nature.com/articles/s43705-023-00336-3\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'bonthond-beermann-gutow-neumann-barboza-desiderato-fofonova-helber-etal-benthicmicrobialbiogeographictrendsinthenorthseaareshapedbyaninterplayofenvironmentaldriversandbottomtrawlingeffort-2023', 'https://www.nature.com/articles/s43705-023-00336-3', event);\">\n    Benthic microbial biogeographic trends in the North Sea are shaped by an interplay of environmental drivers and bottom trawling effort.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Bonthond, G., Beermann, J., Gutow, L., Neumann, A., Barboza, F. R., Desiderato, A., Fofonova, V., Helber, S. B., Khodami, S., Kraan, C., Neumann, H., Rohde, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>ISME Communications</i>, 3(1): 132. December 2023.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.nature.com/articles/s43705-023-00336-3\"\n     onclick=\"log_download('bonthond-beermann-gutow-neumann-barboza-desiderato-fofonova-helber-etal-benthicmicrobialbiogeographictrendsinthenorthseaareshapedbyaninterplayofenvironmentaldriversandbottomtrawlingeffort-2023', 'https://www.nature.com/articles/s43705-023-00336-3', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Benthic microbial biogeographic trends in the North Sea are shaped by an interplay of environmental drivers and bottom trawling effort [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1038/s43705-023-00336-3\"\n     onclick=\"log_download('bonthond-beermann-gutow-neumann-barboza-desiderato-fofonova-helber-etal-benthicmicrobialbiogeographictrendsinthenorthseaareshapedbyaninterplayofenvironmentaldriversandbottomtrawlingeffort-2023', 'http://doi.org/10.1038/s43705-023-00336-3', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/bonthond-beermann-gutow-neumann-barboza-desiderato-fofonova-helber-etal-benthicmicrobialbiogeographictrendsinthenorthseaareshapedbyaninterplayofenvironmentaldriversandbottomtrawlingeffort-2023\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('bonthond-beermann-gutow-neumann-barboza-desiderato-fofonova-helber-etal-benthicmicrobialbiogeographictrendsinthenorthseaareshapedbyaninterplayofenvironmentaldriversandbottomtrawlingeffort-2023')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{bonthond_benthic_2023,\n\ttitle = {Benthic microbial biogeographic trends in the {North} {Sea} are shaped by an interplay of environmental drivers and bottom trawling effort},\n\tvolume = {3},\n\tissn = {2730-6151},\n\turl = {https://www.nature.com/articles/s43705-023-00336-3},\n\tdoi = {10.1038/s43705-023-00336-3},\n\tabstract = {Abstract \n            Microbial composition and diversity in marine sediments are shaped by environmental, biological, and anthropogenic processes operating at different scales. However, our understanding of benthic microbial biogeography remains limited. Here, we used 16S rDNA amplicon sequencing to characterize benthic microbiota in the North Sea from the top centimeter of 339 sediment samples. We utilized spatially explicit statistical models, to disentangle the effects of the different predictors, including bottom trawling intensity, a prevalent industrial fishing practice which heavily impacts benthic ecosystems. Fitted models demonstrate how the geographic interplay of different environmental and anthropogenic drivers shapes the diversity, structure and potential metabolism of benthic microbial communities. Sediment properties were the primary determinants, with diversity increasing with sediment permeability but also with mud content, highlighting different underlying processes. Additionally, diversity and structure varied with total organic matter content, temperature, bottom shear stress and bottom trawling. Changes in diversity associated with bottom trawling intensity were accompanied by shifts in predicted energy metabolism. Specifically, with increasing trawling intensity, we observed a transition toward more aerobic heterotrophic and less denitrifying predicted metabolism. Our findings provide first insights into benthic microbial biogeographic patterns on a large spatial scale and illustrate how anthropogenic activity such as bottom trawling may influence the distribution and abundances of microbes and potential metabolism at macroecological scales.},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2024-01-11},\n\tjournal = {ISME Communications},\n\tauthor = {Bonthond, Guido and Beermann, Jan and Gutow, Lars and Neumann, Andreas and Barboza, Francisco Rafael and Desiderato, Andrea and Fofonova, Vera and Helber, Stephanie B. and Khodami, Sahar and Kraan, Casper and Neumann, Hermann and Rohde, Sven and Schupp, Peter J.},\n\tmonth = dec,\n\tyear = {2023},\n\tpages = {132},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract Microbial composition and diversity in marine sediments are shaped by environmental, biological, and anthropogenic processes operating at different scales. However, our understanding of benthic microbial biogeography remains limited. Here, we used 16S rDNA amplicon sequencing to characterize benthic microbiota in the North Sea from the top centimeter of 339 sediment samples. We utilized spatially explicit statistical models, to disentangle the effects of the different predictors, including bottom trawling intensity, a prevalent industrial fishing practice which heavily impacts benthic ecosystems. Fitted models demonstrate how the geographic interplay of different environmental and anthropogenic drivers shapes the diversity, structure and potential metabolism of benthic microbial communities. Sediment properties were the primary determinants, with diversity increasing with sediment permeability but also with mud content, highlighting different underlying processes. Additionally, diversity and structure varied with total organic matter content, temperature, bottom shear stress and bottom trawling. Changes in diversity associated with bottom trawling intensity were accompanied by shifts in predicted energy metabolism. Specifically, with increasing trawling intensity, we observed a transition toward more aerobic heterotrophic and less denitrifying predicted metabolism. Our findings provide first insights into benthic microbial biogeographic patterns on a large spatial scale and illustrate how anthropogenic activity such as bottom trawling may influence the distribution and abundances of microbes and potential metabolism at macroecological scales.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"dohrmann-reiswig-kelly-mills-schtzle-reverter-niesse-rohde-etal-expandedsamplingofnewzealandglassspongesporiferahexactinellidaprovidesnewinsightsintobiodiversitychemodiversityandphylogenyoftheclass-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://peerj.com/articles/15017\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'dohrmann-reiswig-kelly-mills-schtzle-reverter-niesse-rohde-etal-expandedsamplingofnewzealandglassspongesporiferahexactinellidaprovidesnewinsightsintobiodiversitychemodiversityandphylogenyoftheclass-2023', 'https://peerj.com/articles/15017', event);\">\n    Expanded sampling of New Zealand glass sponges (Porifera: Hexactinellida) provides new insights into biodiversity, chemodiversity, and phylogeny of the class.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Dohrmann, M., Reiswig, H. M., Kelly, M., Mills, S., Schätzle, S., Reverter, M., Niesse, N., Rohde, S., Schupp, P.,  &amp; Wörheide, G.\n</span>\n\n  \n\n</span>\n\n  <i>PeerJ</i>, 11: e15017. April 2023.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://peerj.com/articles/15017\"\n     onclick=\"log_download('dohrmann-reiswig-kelly-mills-schtzle-reverter-niesse-rohde-etal-expandedsamplingofnewzealandglassspongesporiferahexactinellidaprovidesnewinsightsintobiodiversitychemodiversityandphylogenyoftheclass-2023', 'https://peerj.com/articles/15017', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Expanded sampling of New Zealand glass sponges (Porifera: Hexactinellida) provides new insights into biodiversity, chemodiversity, and phylogeny of the class [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.7717/peerj.15017\"\n     onclick=\"log_download('dohrmann-reiswig-kelly-mills-schtzle-reverter-niesse-rohde-etal-expandedsamplingofnewzealandglassspongesporiferahexactinellidaprovidesnewinsightsintobiodiversitychemodiversityandphylogenyoftheclass-2023', 'http://doi.org/10.7717/peerj.15017', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/dohrmann-reiswig-kelly-mills-schtzle-reverter-niesse-rohde-etal-expandedsamplingofnewzealandglassspongesporiferahexactinellidaprovidesnewinsightsintobiodiversitychemodiversityandphylogenyoftheclass-2023\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('dohrmann-reiswig-kelly-mills-schtzle-reverter-niesse-rohde-etal-expandedsamplingofnewzealandglassspongesporiferahexactinellidaprovidesnewinsightsintobiodiversitychemodiversityandphylogenyoftheclass-2023')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{dohrmann_expanded_2023,\n\ttitle = {Expanded sampling of {New} {Zealand} glass sponges ({Porifera}: {Hexactinellida}) provides new insights into biodiversity, chemodiversity, and phylogeny of the class},\n\tvolume = {11},\n\tissn = {2167-8359},\n\tshorttitle = {Expanded sampling of {New} {Zealand} glass sponges ({Porifera}},\n\turl = {https://peerj.com/articles/15017},\n\tdoi = {10.7717/peerj.15017},\n\tabstract = {Glass sponges (Hexactinellida) constitute important parts of ecosystems on the deep-sea floor worldwide. However, they are still an understudied group in terms of their diversity and systematics. Here, we report on new specimens collected during RV \n              Sonne \n              expedition SO254 to the New Zealand region, which has recently emerged as a biodiversity hotspot for hexactinellids. Examination of the material revealed several species new to science or so far unknown from this area. While formal taxonomic descriptions of a fraction of these were published earlier, we here briefly report on the morphology of the remaining new species and use the collection to greatly expand the molecular phylogeny of the group as established with ribosomal DNA and cytochrome oxidase subunit I markers. In addition, we provide a chemical fingerprinting analysis on a subset of the specimens to investigate if the metabolome of glass sponges contains phylogenetic signal that could be used to supplement morphological and DNA-based approaches.},\n\tlanguage = {en},\n\turldate = {2024-01-11},\n\tjournal = {PeerJ},\n\tauthor = {Dohrmann, Martin and Reiswig, Henry M. and Kelly, Michelle and Mills, Sadie and Schätzle, Simone and Reverter, Miriam and Niesse, Natascha and Rohde, Sven and Schupp, Peter and Wörheide, Gert},\n\tmonth = apr,\n\tyear = {2023},\n\tpages = {e15017},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Glass sponges (Hexactinellida) constitute important parts of ecosystems on the deep-sea floor worldwide. However, they are still an understudied group in terms of their diversity and systematics. Here, we report on new specimens collected during RV Sonne expedition SO254 to the New Zealand region, which has recently emerged as a biodiversity hotspot for hexactinellids. Examination of the material revealed several species new to science or so far unknown from this area. While formal taxonomic descriptions of a fraction of these were published earlier, we here briefly report on the morphology of the remaining new species and use the collection to greatly expand the molecular phylogeny of the group as established with ribosomal DNA and cytochrome oxidase subunit I markers. In addition, we provide a chemical fingerprinting analysis on a subset of the specimens to investigate if the metabolome of glass sponges contains phylogenetic signal that could be used to supplement morphological and DNA-based approaches.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"mueller-grammel-bill-rohde-schupp-massmortalityeventofthegiantbarrelspongeixestospongiaisppopulationdynamicsandsizedistributioninkohphangangulfofthailand-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://peerj.com/articles/16561\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'mueller-grammel-bill-rohde-schupp-massmortalityeventofthegiantbarrelspongeixestospongiaisppopulationdynamicsandsizedistributioninkohphangangulfofthailand-2023', 'https://peerj.com/articles/16561', event);\">\n    Mass mortality event of the giant barrel sponge <i>Xestospongia</i> sp.: population dynamics and size distribution in Koh Phangan, Gulf of Thailand.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Mueller, J. S., Grammel, P., Bill, N., Rohde, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>PeerJ</i>, 11: e16561. December 2023.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://peerj.com/articles/16561\"\n     onclick=\"log_download('mueller-grammel-bill-rohde-schupp-massmortalityeventofthegiantbarrelspongeixestospongiaisppopulationdynamicsandsizedistributioninkohphangangulfofthailand-2023', 'https://peerj.com/articles/16561', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Mass mortality event of the giant barrel sponge &lt;i&gt;Xestospongia&lt;/i&gt; sp.: population dynamics and size distribution in Koh Phangan, Gulf of Thailand [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.7717/peerj.16561\"\n     onclick=\"log_download('mueller-grammel-bill-rohde-schupp-massmortalityeventofthegiantbarrelspongeixestospongiaisppopulationdynamicsandsizedistributioninkohphangangulfofthailand-2023', 'http://doi.org/10.7717/peerj.16561', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/mueller-grammel-bill-rohde-schupp-massmortalityeventofthegiantbarrelspongeixestospongiaisppopulationdynamicsandsizedistributioninkohphangangulfofthailand-2023\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('mueller-grammel-bill-rohde-schupp-massmortalityeventofthegiantbarrelspongeixestospongiaisppopulationdynamicsandsizedistributioninkohphangangulfofthailand-2023')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{mueller_mass_2023,\n\ttitle = {Mass mortality event of the giant barrel sponge \\textit{{Xestospongia}} sp.: population dynamics and size distribution in {Koh} {Phangan}, {Gulf} of {Thailand}},\n\tvolume = {11},\n\tissn = {2167-8359},\n\tshorttitle = {Mass mortality event of the giant barrel sponge \\textit{{Xestospongia}} sp.},\n\turl = {https://peerj.com/articles/16561},\n\tdoi = {10.7717/peerj.16561},\n\tabstract = {Marine sponges are prominent organisms of the benthic coral reef fauna, providing important ecosystem services. While there have been increasing reports that sponges are becoming one of the dominant benthic organisms in some locations and ecoregions ( \n              e.g \n              . Caribbean), they can be impacted by changing environmental conditions. This study presents the first documentation of a mass mortality event of the barrel sponge \n              Xestospongia \n              sp. in the lower Gulf of Thailand and its consequences on population dynamics and size distribution. Two anthropogenic impacted reefs (Haad Khom and Mae Haad) of the island Koh Phangan and two anthropogenic non-impacted reefs of the islands Koh Yippon and Hin Yippon within the Mu Ko Ang Thong Marine National Park were surveyed in the years 2015 and 2016. The results showed a strong shift in population densities at Koh Phangan. Fatal “bleaching” ending up in mass mortality was observed for these reefs in 2015. \n              Xestospongia \n              sp. abundance decreased from 2015 to 2016 by 80.6\\% at Haad Khom and by 98.4\\% at Mae Haad. Sponges of all sizes were affected, and mortality occurred regardless of the survey depth (4 and 6 m). However, \n              Xestospongia \n              population densities in the Marine Park were at a constant level during the surveys. The abundances in 2015 were 65\\% higher at the Marine Park than at Koh Phangan and 92\\% higher in 2016. The most likely causes of the mass mortality event was a local harmful algal bloom event, pathogens, undetected local higher water temperatures, or a combination of these factors, whereas sea surface temperature analyses showed no marine heatwave during the observed mass mortality event in 2015. Considering the ecological importance of sponges such as \n              Xestospongia \n              sp., long-term monitoring of reefs and their environmental parameters should be implemented to prevent such mass die-offs.},\n\tlanguage = {en},\n\turldate = {2024-01-11},\n\tjournal = {PeerJ},\n\tauthor = {Mueller, Jasmin S. and Grammel, Paul-Jannis and Bill, Nicolas and Rohde, Sven and Schupp, Peter J.},\n\tmonth = dec,\n\tyear = {2023},\n\tpages = {e16561},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Marine sponges are prominent organisms of the benthic coral reef fauna, providing important ecosystem services. While there have been increasing reports that sponges are becoming one of the dominant benthic organisms in some locations and ecoregions ( e.g . Caribbean), they can be impacted by changing environmental conditions. This study presents the first documentation of a mass mortality event of the barrel sponge Xestospongia sp. in the lower Gulf of Thailand and its consequences on population dynamics and size distribution. Two anthropogenic impacted reefs (Haad Khom and Mae Haad) of the island Koh Phangan and two anthropogenic non-impacted reefs of the islands Koh Yippon and Hin Yippon within the Mu Ko Ang Thong Marine National Park were surveyed in the years 2015 and 2016. The results showed a strong shift in population densities at Koh Phangan. Fatal “bleaching” ending up in mass mortality was observed for these reefs in 2015. Xestospongia sp. abundance decreased from 2015 to 2016 by 80.6% at Haad Khom and by 98.4% at Mae Haad. Sponges of all sizes were affected, and mortality occurred regardless of the survey depth (4 and 6 m). However, Xestospongia population densities in the Marine Park were at a constant level during the surveys. The abundances in 2015 were 65% higher at the Marine Park than at Koh Phangan and 92% higher in 2016. The most likely causes of the mass mortality event was a local harmful algal bloom event, pathogens, undetected local higher water temperatures, or a combination of these factors, whereas sea surface temperature analyses showed no marine heatwave during the observed mass mortality event in 2015. Considering the ecological importance of sponges such as Xestospongia sp., long-term monitoring of reefs and their environmental parameters should be implemented to prevent such mass die-offs.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"vargas-leiva-eitel-curdt-rohde-arnold-nickel-schupp-etal-bodyplanreorganizationinaspongecorrelateswithmicrobiomechange-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://academic.oup.com/mbe/article/doi/10.1093/molbev/msad138/7191912\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'vargas-leiva-eitel-curdt-rohde-arnold-nickel-schupp-etal-bodyplanreorganizationinaspongecorrelateswithmicrobiomechange-2023', 'https://academic.oup.com/mbe/article/doi/10.1093/molbev/msad138/7191912', event);\">\n    Body-Plan Reorganization in a Sponge Correlates with Microbiome Change.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Vargas, S., Leiva, L., Eitel, M., Curdt, F., Rohde, S., Arnold, C., Nickel, M., Schupp, P., Orsi, W. D, Adamska, M.,  &amp; Wörheide, G.\n</span>\n\n  \n\n</span>\n\n  <i>Molecular Biology and Evolution</i>, 40(6): msad138. June 2023.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://academic.oup.com/mbe/article/doi/10.1093/molbev/msad138/7191912\"\n     onclick=\"log_download('vargas-leiva-eitel-curdt-rohde-arnold-nickel-schupp-etal-bodyplanreorganizationinaspongecorrelateswithmicrobiomechange-2023', 'https://academic.oup.com/mbe/article/doi/10.1093/molbev/msad138/7191912', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Body-Plan Reorganization in a Sponge Correlates with Microbiome Change [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1093/molbev/msad138\"\n     onclick=\"log_download('vargas-leiva-eitel-curdt-rohde-arnold-nickel-schupp-etal-bodyplanreorganizationinaspongecorrelateswithmicrobiomechange-2023', 'http://doi.org/10.1093/molbev/msad138', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/vargas-leiva-eitel-curdt-rohde-arnold-nickel-schupp-etal-bodyplanreorganizationinaspongecorrelateswithmicrobiomechange-2023\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('vargas-leiva-eitel-curdt-rohde-arnold-nickel-schupp-etal-bodyplanreorganizationinaspongecorrelateswithmicrobiomechange-2023')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{vargas_body-plan_2023,\n\ttitle = {Body-{Plan} {Reorganization} in a {Sponge} {Correlates} with {Microbiome} {Change}},\n\tvolume = {40},\n\tissn = {0737-4038, 1537-1719},\n\turl = {https://academic.oup.com/mbe/article/doi/10.1093/molbev/msad138/7191912},\n\tdoi = {10.1093/molbev/msad138},\n\tabstract = {Abstract \n            Mounting evidence suggests that animals and their associated bacteria interact via intricate molecular mechanisms, and it is hypothesized that disturbances to the microbiome influence animal development. Here, we show that the loss of a key photosymbiont (i.e., bleaching) upon shading correlates with a stark body-plan reorganization in the common aquarium cyanosponge Lendenfeldia chondrodes. The morphological changes observed in shaded sponges include the development of a thread-like morphology that contrasts with the flattened, foliose morphology of control specimens. The microanatomy of shaded sponges markedly differed from that of control sponges, with shaded specimens lacking a well-developed cortex and choanosome. Also, the palisade of polyvacuolar gland-like cells typical in control specimens was absent in shaded sponges. The morphological changes observed in shaded specimens are coupled with broad transcriptomic changes and include the modulation of signaling pathways involved in animal morphogenesis and immune response, such as the Wnt, transforming growth factor β (TGF-β), and TLR–ILR pathways. This study provides a genetic, physiological, and morphological assessment of the effect of microbiome changes on sponge postembryonic development and homeostasis. The correlated response of the sponge host to the collapse of the population of symbiotic cyanobacteria provides evidence for a coupling between the sponge transcriptomic state and the state of its microbiome. This coupling suggests that the ability of animals to interact with their microbiomes and respond to microbiome perturbations has deep evolutionary origins in this group.},\n\tlanguage = {en},\n\tnumber = {6},\n\turldate = {2024-01-11},\n\tjournal = {Molecular Biology and Evolution},\n\tauthor = {Vargas, Sergio and Leiva, Laura and Eitel, Michael and Curdt, Franziska and Rohde, Sven and Arnold, Christopher and Nickel, Michael and Schupp, Peter and Orsi, William D and Adamska, Maja and Wörheide, Gert},\n\teditor = {Crandall, Keith},\n\tmonth = jun,\n\tyear = {2023},\n\tpages = {msad138},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract Mounting evidence suggests that animals and their associated bacteria interact via intricate molecular mechanisms, and it is hypothesized that disturbances to the microbiome influence animal development. Here, we show that the loss of a key photosymbiont (i.e., bleaching) upon shading correlates with a stark body-plan reorganization in the common aquarium cyanosponge Lendenfeldia chondrodes. The morphological changes observed in shaded sponges include the development of a thread-like morphology that contrasts with the flattened, foliose morphology of control specimens. The microanatomy of shaded sponges markedly differed from that of control sponges, with shaded specimens lacking a well-developed cortex and choanosome. Also, the palisade of polyvacuolar gland-like cells typical in control specimens was absent in shaded sponges. The morphological changes observed in shaded specimens are coupled with broad transcriptomic changes and include the modulation of signaling pathways involved in animal morphogenesis and immune response, such as the Wnt, transforming growth factor β (TGF-β), and TLR–ILR pathways. This study provides a genetic, physiological, and morphological assessment of the effect of microbiome changes on sponge postembryonic development and homeostasis. The correlated response of the sponge host to the collapse of the population of symbiotic cyanobacteria provides evidence for a coupling between the sponge transcriptomic state and the state of its microbiome. This coupling suggests that the ability of animals to interact with their microbiomes and respond to microbiome perturbations has deep evolutionary origins in this group.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"dimauro-kamyab-kellermann-moeller-nietzer-luetjens-pawlowski-petersenthiery-etal-ecotoxicologicaleffectsoffourcommonlyusedorganicsolventsonthescleractiniancoralmontiporadigitata-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/2305-6304/11/4/367\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'dimauro-kamyab-kellermann-moeller-nietzer-luetjens-pawlowski-petersenthiery-etal-ecotoxicologicaleffectsoffourcommonlyusedorganicsolventsonthescleractiniancoralmontiporadigitata-2023', 'https://www.mdpi.com/2305-6304/11/4/367', event);\">\n    Ecotoxicological Effects of Four Commonly Used Organic Solvents on the Scleractinian Coral Montipora digitata.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Di Mauro, V., Kamyab, E., Kellermann, M. Y., Moeller, M., Nietzer, S., Luetjens, L. H., Pawlowski, S., Petersen-Thiery, M.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Toxics</i>, 11(4): 367. April 2023.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/2305-6304/11/4/367\"\n     onclick=\"log_download('dimauro-kamyab-kellermann-moeller-nietzer-luetjens-pawlowski-petersenthiery-etal-ecotoxicologicaleffectsoffourcommonlyusedorganicsolventsonthescleractiniancoralmontiporadigitata-2023', 'https://www.mdpi.com/2305-6304/11/4/367', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Ecotoxicological Effects of Four Commonly Used Organic Solvents on the Scleractinian Coral Montipora digitata [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/toxics11040367\"\n     onclick=\"log_download('dimauro-kamyab-kellermann-moeller-nietzer-luetjens-pawlowski-petersenthiery-etal-ecotoxicologicaleffectsoffourcommonlyusedorganicsolventsonthescleractiniancoralmontiporadigitata-2023', 'http://doi.org/10.3390/toxics11040367', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/dimauro-kamyab-kellermann-moeller-nietzer-luetjens-pawlowski-petersenthiery-etal-ecotoxicologicaleffectsoffourcommonlyusedorganicsolventsonthescleractiniancoralmontiporadigitata-2023\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('dimauro-kamyab-kellermann-moeller-nietzer-luetjens-pawlowski-petersenthiery-etal-ecotoxicologicaleffectsoffourcommonlyusedorganicsolventsonthescleractiniancoralmontiporadigitata-2023')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{di_mauro_ecotoxicological_2023,\n\ttitle = {Ecotoxicological {Effects} of {Four} {Commonly} {Used} {Organic} {Solvents} on the {Scleractinian} {Coral} {Montipora} digitata},\n\tvolume = {11},\n\tcopyright = {http://creativecommons.org/licenses/by/3.0/},\n\tissn = {2305-6304},\n\turl = {https://www.mdpi.com/2305-6304/11/4/367},\n\tdoi = {10.3390/toxics11040367},\n\tabstract = {Organic solvents are often used in aquatic toxicity tests to facilitate the testing of hydrophobic or poorly water-soluble substances such as ultraviolet (UV) filters, pesticides, or polycyclic aromatic hydrocarbons (PAHs). Knowledge of intrinsic effects (i.e., measured as standardized and non-standardized endpoints) of such carrier solvents in non-standardized organisms (i.e., corals), is critical to regulatory processes. Therefore, we exposed the reef-building coral Montipora digitata to the most commonly used carrier solvents ethanol, methanol, dimethyl sulfoxide, and dimethylformamide in the range of 10–100 µL L−1 for 16 days. The effects on mortality, photobiological, morphological, and oxidative stress markers were evaluated. In our study, all solvents resulted in significant morphological and/or oxidative stress responses, but not in mortality. Moreover, ethanol led to a rapid increase in turbidity, thus questioning its suitability as a carrier solvent in aquatic studies in general. Based on our observations, we could rank the solvent effects as follows: dimethylformamide {\\textless} dimethyl sulfoxide ≈ methanol ≤ ethanol, with dimethylformamide showing the least and ethanol the most pronounced effects. We conclude that the use of solvents in toxicity studies with corals, particularly by examining non-standardized (e.g., morphological, physiological) endpoints, should be taken with caution and requires further elaboration.},\n\tlanguage = {en},\n\tnumber = {4},\n\turldate = {2023-04-13},\n\tjournal = {Toxics},\n\tauthor = {Di Mauro, Valentina and Kamyab, Elham and Kellermann, Matthias Y. and Moeller, Mareen and Nietzer, Samuel and Luetjens, Laura H. and Pawlowski, Sascha and Petersen-Thiery, Mechtild and Schupp, Peter J.},\n\tmonth = apr,\n\tyear = {2023},\n\tkeywords = {\\textit{Montipora digitata}, UV-filter, biomarker, dimethyl sulfoxide, dimethylformamide, ecotoxicology, ethanol, methanol, sunscreen, toxicity},\n\tpages = {367},\n}\n\n\n\n\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Organic solvents are often used in aquatic toxicity tests to facilitate the testing of hydrophobic or poorly water-soluble substances such as ultraviolet (UV) filters, pesticides, or polycyclic aromatic hydrocarbons (PAHs). Knowledge of intrinsic effects (i.e., measured as standardized and non-standardized endpoints) of such carrier solvents in non-standardized organisms (i.e., corals), is critical to regulatory processes. Therefore, we exposed the reef-building coral Montipora digitata to the most commonly used carrier solvents ethanol, methanol, dimethyl sulfoxide, and dimethylformamide in the range of 10–100 µL L−1 for 16 days. The effects on mortality, photobiological, morphological, and oxidative stress markers were evaluated. In our study, all solvents resulted in significant morphological and/or oxidative stress responses, but not in mortality. Moreover, ethanol led to a rapid increase in turbidity, thus questioning its suitability as a carrier solvent in aquatic studies in general. Based on our observations, we could rank the solvent effects as follows: dimethylformamide \\textless dimethyl sulfoxide ≈ methanol ≤ ethanol, with dimethylformamide showing the least and ethanol the most pronounced effects. We conclude that the use of solvents in toxicity studies with corals, particularly by examining non-standardized (e.g., morphological, physiological) endpoints, should be taken with caution and requires further elaboration.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"fiegel-kellermann-nietzer-petersen-smykala-bickmeyer-schupp-detailedvisualizationofsettlementandearlydevelopmentinleptastreapurpurearevealsdistinctbioopticalfeatures-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.frontiersin.org/articles/10.3389/fmars.2023.984656/full\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'fiegel-kellermann-nietzer-petersen-smykala-bickmeyer-schupp-detailedvisualizationofsettlementandearlydevelopmentinleptastreapurpurearevealsdistinctbioopticalfeatures-2023', 'https://www.frontiersin.org/articles/10.3389/fmars.2023.984656/full', event);\">\n    Detailed visualization of settlement and early development in Leptastrea purpurea reveals distinct bio-optical features.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Fiegel, L. J., Kellermann, M. Y., Nietzer, S., Petersen, L., Smykala, M., Bickmeyer, U.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Frontiers in Marine Science</i>, 10: 984656. March 2023.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.frontiersin.org/articles/10.3389/fmars.2023.984656/full\"\n     onclick=\"log_download('fiegel-kellermann-nietzer-petersen-smykala-bickmeyer-schupp-detailedvisualizationofsettlementandearlydevelopmentinleptastreapurpurearevealsdistinctbioopticalfeatures-2023', 'https://www.frontiersin.org/articles/10.3389/fmars.2023.984656/full', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Detailed visualization of settlement and early development in Leptastrea purpurea reveals distinct bio-optical features [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3389/fmars.2023.984656\"\n     onclick=\"log_download('fiegel-kellermann-nietzer-petersen-smykala-bickmeyer-schupp-detailedvisualizationofsettlementandearlydevelopmentinleptastreapurpurearevealsdistinctbioopticalfeatures-2023', 'http://doi.org/10.3389/fmars.2023.984656', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/fiegel-kellermann-nietzer-petersen-smykala-bickmeyer-schupp-detailedvisualizationofsettlementandearlydevelopmentinleptastreapurpurearevealsdistinctbioopticalfeatures-2023\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('fiegel-kellermann-nietzer-petersen-smykala-bickmeyer-schupp-detailedvisualizationofsettlementandearlydevelopmentinleptastreapurpurearevealsdistinctbioopticalfeatures-2023')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{fiegel_detailed_2023,\n\ttitle = {Detailed visualization of settlement and early development in {Leptastrea} purpurea reveals distinct bio-optical features},\n\tvolume = {10},\n\tissn = {2296-7745},\n\turl = {https://www.frontiersin.org/articles/10.3389/fmars.2023.984656/full},\n\tdoi = {10.3389/fmars.2023.984656},\n\tabstract = {Sexually produced juvenile scleractinian corals play a key role in the adaptation process of coral reefs, as they are considered to possess an innate plasticity and thus can adjust to changing environmental parameters within a certain range. In this study we investigated in detail the early life stages of the brooding species \n              Leptastrea purpurea \n              to identify, categorize and visualize the critical steps of the complex transformation process from a swimming coral larva to a sessile coral recruit and later to a coral colony. For that, we performed settlement experiments using previously known cues: cycloprodigiosin (CYPRO) and crustose coralline algae (CCA) as well as novel cues: crude extracts of \n              Pseudoalteromonas espejiana \n              and \n              P. piscicida \n              to identify a general, cue-independent settlement pathway. We monitored the development of \n              L. purpurea \n              over 12 months using bright field and fluorescence microscopy. Also we identified the fluorescence signals of \n              L. purpurea \n              with confocal microscopy at four crucial development steps: (A) swimming larva, (B) metamorphosing larva, (C) coral recruit and (D) adult coral. Our methodological approach allowed us to observe an ontogenetic shift of fluorescence signals which provokes the hypothesis that certain fluorescence patterns might be connected to distinct sequential functions in the early life cycle of scleractinian corals. Our observations showed great similarities to the early development of other brooding and spawning corals, making \n              L. purpurea \n              a prospective candidate to be used as a model organism for coral research. Furthermore, our in-depth picture series provides a robust monitoring reference for coral nurseries or field applications and demonstrates the potential of fluorescence as an indicator to instantly determine the growth stage of a developing coral recruit.},\n\turldate = {2023-03-28},\n\tjournal = {Frontiers in Marine Science},\n\tauthor = {Fiegel, Laura J. and Kellermann, Matthias Y. and Nietzer, Samuel and Petersen, Lars-Erik and Smykala, Mike and Bickmeyer, Ulf and Schupp, Peter J.},\n\tmonth = mar,\n\tyear = {2023},\n\tpages = {984656},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Sexually produced juvenile scleractinian corals play a key role in the adaptation process of coral reefs, as they are considered to possess an innate plasticity and thus can adjust to changing environmental parameters within a certain range. In this study we investigated in detail the early life stages of the brooding species Leptastrea purpurea to identify, categorize and visualize the critical steps of the complex transformation process from a swimming coral larva to a sessile coral recruit and later to a coral colony. For that, we performed settlement experiments using previously known cues: cycloprodigiosin (CYPRO) and crustose coralline algae (CCA) as well as novel cues: crude extracts of Pseudoalteromonas espejiana and P. piscicida to identify a general, cue-independent settlement pathway. We monitored the development of L. purpurea over 12 months using bright field and fluorescence microscopy. Also we identified the fluorescence signals of L. purpurea with confocal microscopy at four crucial development steps: (A) swimming larva, (B) metamorphosing larva, (C) coral recruit and (D) adult coral. Our methodological approach allowed us to observe an ontogenetic shift of fluorescence signals which provokes the hypothesis that certain fluorescence patterns might be connected to distinct sequential functions in the early life cycle of scleractinian corals. Our observations showed great similarities to the early development of other brooding and spawning corals, making L. purpurea a prospective candidate to be used as a model organism for coral research. Furthermore, our in-depth picture series provides a robust monitoring reference for coral nurseries or field applications and demonstrates the potential of fluorescence as an indicator to instantly determine the growth stage of a developing coral recruit.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"petersen-kellermann-fiegel-nietzer-bickmeyer-abele-schupp-photodegradationofabacterialpigmentandresultinghydrogenperoxidereleaseenablecoralsettlement-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.nature.com/articles/s41598-023-30470-w\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'petersen-kellermann-fiegel-nietzer-bickmeyer-abele-schupp-photodegradationofabacterialpigmentandresultinghydrogenperoxidereleaseenablecoralsettlement-2023', 'https://www.nature.com/articles/s41598-023-30470-w', event);\">\n    Photodegradation of a bacterial pigment and resulting hydrogen peroxide release enable coral settlement.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Petersen, L., Kellermann, M. Y., Fiegel, L. J., Nietzer, S., Bickmeyer, U., Abele, D.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Scientific Reports</i>, 13(1): 3562. March 2023.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.nature.com/articles/s41598-023-30470-w\"\n     onclick=\"log_download('petersen-kellermann-fiegel-nietzer-bickmeyer-abele-schupp-photodegradationofabacterialpigmentandresultinghydrogenperoxidereleaseenablecoralsettlement-2023', 'https://www.nature.com/articles/s41598-023-30470-w', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Photodegradation of a bacterial pigment and resulting hydrogen peroxide release enable coral settlement [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1038/s41598-023-30470-w\"\n     onclick=\"log_download('petersen-kellermann-fiegel-nietzer-bickmeyer-abele-schupp-photodegradationofabacterialpigmentandresultinghydrogenperoxidereleaseenablecoralsettlement-2023', 'http://doi.org/10.1038/s41598-023-30470-w', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/petersen-kellermann-fiegel-nietzer-bickmeyer-abele-schupp-photodegradationofabacterialpigmentandresultinghydrogenperoxidereleaseenablecoralsettlement-2023\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('petersen-kellermann-fiegel-nietzer-bickmeyer-abele-schupp-photodegradationofabacterialpigmentandresultinghydrogenperoxidereleaseenablecoralsettlement-2023')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{petersen_photodegradation_2023,\n\ttitle = {Photodegradation of a bacterial pigment and resulting hydrogen peroxide release enable coral settlement},\n\tvolume = {13},\n\tissn = {2045-2322},\n\turl = {https://www.nature.com/articles/s41598-023-30470-w},\n\tdoi = {10.1038/s41598-023-30470-w},\n\tabstract = {Abstract \n             \n              The global degradation of coral reefs is steadily increasing with ongoing climate change. Yet coral larvae settlement, a key mechanism of coral population rejuvenation and recovery, is largely understudied. Here, we show how the lipophilic, settlement-inducing bacterial pigment cycloprodigiosin (CYPRO) is actively harvested and subsequently enriched along the ectoderm of larvae of the scleractinian coral \n              Leptastrea purpura \n              . A light-dependent reaction transforms the CYPRO molecules through photolytic decomposition and provides a constant supply of hydrogen peroxide (H \n              2 \n              O \n              2 \n              ), leading to attachment on the substrate and metamorphosis into a coral recruit. Micromolar concentrations of H \n              2 \n              O \n              2 \n              in seawater also resulted in rapid metamorphosis, but without prior larval attachment. We propose that the morphogen CYPRO is responsible for initiating attachment while simultaneously acting as a molecular generator for the comprehensive metamorphosis of pelagic larvae. Ultimately, our approach opens a novel mechanistic dimension to the study of chemical signaling in coral settlement and provides unprecedented insights into the role of infochemicals in cross-kingdom interactions.},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2023-03-28},\n\tjournal = {Scientific Reports},\n\tauthor = {Petersen, Lars-Erik and Kellermann, Matthias Y. and Fiegel, Laura J. and Nietzer, Samuel and Bickmeyer, Ulf and Abele, Doris and Schupp, Peter J.},\n\tmonth = mar,\n\tyear = {2023},\n\tpages = {3562},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract The global degradation of coral reefs is steadily increasing with ongoing climate change. Yet coral larvae settlement, a key mechanism of coral population rejuvenation and recovery, is largely understudied. Here, we show how the lipophilic, settlement-inducing bacterial pigment cycloprodigiosin (CYPRO) is actively harvested and subsequently enriched along the ectoderm of larvae of the scleractinian coral Leptastrea purpura . A light-dependent reaction transforms the CYPRO molecules through photolytic decomposition and provides a constant supply of hydrogen peroxide (H 2 O 2 ), leading to attachment on the substrate and metamorphosis into a coral recruit. Micromolar concentrations of H 2 O 2 in seawater also resulted in rapid metamorphosis, but without prior larval attachment. We propose that the morphogen CYPRO is responsible for initiating attachment while simultaneously acting as a molecular generator for the comprehensive metamorphosis of pelagic larvae. Ultimately, our approach opens a novel mechanistic dimension to the study of chemical signaling in coral settlement and provides unprecedented insights into the role of infochemicals in cross-kingdom interactions.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"bonthond-neu-bayer-kruegerhadfield-knzel-weinberger-nonnativehostsofaninvasiveseaweedholobionthavemorestablemicrobialcommunitiescomparedtonativehostsinresponsetothermalstress-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1002/ece3.9753\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'bonthond-neu-bayer-kruegerhadfield-knzel-weinberger-nonnativehostsofaninvasiveseaweedholobionthavemorestablemicrobialcommunitiescomparedtonativehostsinresponsetothermalstress-2023', 'https://onlinelibrary.wiley.com/doi/10.1002/ece3.9753', event);\">\n    Non‐native hosts of an invasive seaweed holobiont have more stable microbial communities compared to native hosts in response to thermal stress.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Bonthond, G., Neu, A., Bayer, T., Krueger‐Hadfield, S. A., Künzel, S.,  &amp; Weinberger, F.\n</span>\n\n  \n\n</span>\n\n  <i>Ecology and Evolution</i>, 13(1). January 2023.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1002/ece3.9753\"\n     onclick=\"log_download('bonthond-neu-bayer-kruegerhadfield-knzel-weinberger-nonnativehostsofaninvasiveseaweedholobionthavemorestablemicrobialcommunitiescomparedtonativehostsinresponsetothermalstress-2023', 'https://onlinelibrary.wiley.com/doi/10.1002/ece3.9753', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Non‐native hosts of an invasive seaweed holobiont have more stable microbial communities compared to native hosts in response to thermal stress [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1002/ece3.9753\"\n     onclick=\"log_download('bonthond-neu-bayer-kruegerhadfield-knzel-weinberger-nonnativehostsofaninvasiveseaweedholobionthavemorestablemicrobialcommunitiescomparedtonativehostsinresponsetothermalstress-2023', 'http://doi.org/10.1002/ece3.9753', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/bonthond-neu-bayer-kruegerhadfield-knzel-weinberger-nonnativehostsofaninvasiveseaweedholobionthavemorestablemicrobialcommunitiescomparedtonativehostsinresponsetothermalstress-2023\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n  &nbsp;\n  <span class=\"bibbase_stats_paper\" style=\"color: #777;\">\n    <span>2 downloads</span>\n  </span>\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('bonthond-neu-bayer-kruegerhadfield-knzel-weinberger-nonnativehostsofaninvasiveseaweedholobionthavemorestablemicrobialcommunitiescomparedtonativehostsinresponsetothermalstress-2023')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{bonthond_nonnative_2023,\n\ttitle = {Non‐native hosts of an invasive seaweed holobiont have more stable microbial communities compared to native hosts in response to thermal stress},\n\tvolume = {13},\n\tissn = {2045-7758, 2045-7758},\n\turl = {https://onlinelibrary.wiley.com/doi/10.1002/ece3.9753},\n\tdoi = {10.1002/ece3.9753},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2023-01-27},\n\tjournal = {Ecology and Evolution},\n\tauthor = {Bonthond, Guido and Neu, Anna‐Katrin and Bayer, Till and Krueger‐Hadfield, Stacy A. and Künzel, Sven and Weinberger, Florian},\n\tmonth = jan,\n\tyear = {2023},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2022\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2022')\"\n      onkeypress=\"toggleGroup('group_2022')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2022</span>\n      <span class=\"bibbase_group_count\">\n        \n        (15)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"yong-moick-dewenter-hillebrand-krncke-lhmus-pieck-rohde-etal-spatialandtemporalpatternsofmicrophytobenthoscommunitiesalongthemarineterrestrialboundaryinthegermanwaddensea-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.frontiersin.org/articles/10.3389/fevo.2022.956092/full\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'yong-moick-dewenter-hillebrand-krncke-lhmus-pieck-rohde-etal-spatialandtemporalpatternsofmicrophytobenthoscommunitiesalongthemarineterrestrialboundaryinthegermanwaddensea-2022', 'https://www.frontiersin.org/articles/10.3389/fevo.2022.956092/full', event);\">\n    Spatial and temporal patterns of microphytobenthos communities along the marine-terrestrial boundary in the German Wadden Sea.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Yong, J., Moick, M., Dewenter, J., Hillebrand, H., Kröncke, I., Lõhmus, K., Pieck, D., Rohde, S.,  &amp; Moorthi, S.\n</span>\n\n  \n\n</span>\n\n  <i>Frontiers in Ecology and Evolution</i>, 10: 956092. September 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.frontiersin.org/articles/10.3389/fevo.2022.956092/full\"\n     onclick=\"log_download('yong-moick-dewenter-hillebrand-krncke-lhmus-pieck-rohde-etal-spatialandtemporalpatternsofmicrophytobenthoscommunitiesalongthemarineterrestrialboundaryinthegermanwaddensea-2022', 'https://www.frontiersin.org/articles/10.3389/fevo.2022.956092/full', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Spatial and temporal patterns of microphytobenthos communities along the marine-terrestrial boundary in the German Wadden Sea [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3389/fevo.2022.956092\"\n     onclick=\"log_download('yong-moick-dewenter-hillebrand-krncke-lhmus-pieck-rohde-etal-spatialandtemporalpatternsofmicrophytobenthoscommunitiesalongthemarineterrestrialboundaryinthegermanwaddensea-2022', 'http://doi.org/10.3389/fevo.2022.956092', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/yong-moick-dewenter-hillebrand-krncke-lhmus-pieck-rohde-etal-spatialandtemporalpatternsofmicrophytobenthoscommunitiesalongthemarineterrestrialboundaryinthegermanwaddensea-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('yong-moick-dewenter-hillebrand-krncke-lhmus-pieck-rohde-etal-spatialandtemporalpatternsofmicrophytobenthoscommunitiesalongthemarineterrestrialboundaryinthegermanwaddensea-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{yong_spatial_2022,\n\ttitle = {Spatial and temporal patterns of microphytobenthos communities along the marine-terrestrial boundary in the {German} {Wadden} {Sea}},\n\tvolume = {10},\n\tissn = {2296-701X},\n\turl = {https://www.frontiersin.org/articles/10.3389/fevo.2022.956092/full},\n\tdoi = {10.3389/fevo.2022.956092},\n\tabstract = {Microphytobenthos (MPBs) are the main primary producers in shallow marine ecosystems, such as the Wadden Sea. We investigated the spatial and temporal dynamics of MPB communities across the marine-terrestrial boundary over three seasons (spring, summer, and fall) on three East Frisian Islands (Norderney, Spiekeroog, and Wangerooge) in the German Wadden Sea. Natural transects were compared with 12 experimental islands (salt marsh vegetated vs. initially bare islands) established on the tidal flats of Spiekeroog for studying dispersal-mediated community assembly. Sediment cores were taken along triplicate transects and on three elevation levels of the experimental islands, corresponding to the pioneer (pio) zone, the lower salt (LS) marsh, and the upper salt (US) marsh. On both the natural transects and the experimental islands, the highest MPB biomass was observed in the pio zone, where vegetation-driven sediment stabilization and high-mud content could have promoted MPB biomass in this marine-terrestrial transition zone. On the experimental islands, MPB biomass and diversity significantly decreased with elevation regardless of the season, indicating that the rarely submerged upper salt marsh level supported minimal MPB growth. The MPB biomass was also higher on initially vegetated than on bare islands, which was the most pronounced on the US level. On the tidal flat transects, the MPB biomass significantly increased with elevation up to the pio zone before decreasing again in the LS marsh. Temperature, sediment water content, and grain size significantly affected transect MPB biomass. MPB diversity, on the other hand, was not related to elevation but was rather determined by temperature, mean grain size, and mud content. Our study suggests that extending MPB studies into the “terrestrial” domain of salt marshes enhances our understanding of the microalgae–plant interaction in this important boundary zone.},\n\turldate = {2022-11-10},\n\tjournal = {Frontiers in Ecology and Evolution},\n\tauthor = {Yong, Joanne and Moick, Melissa and Dewenter, Jana and Hillebrand, Helmut and Kröncke, Ingrid and Lõhmus, Kertu and Pieck, Daniela and Rohde, Sven and Moorthi, Stefanie},\n\tmonth = sep,\n\tyear = {2022},\n\tpages = {956092},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Microphytobenthos (MPBs) are the main primary producers in shallow marine ecosystems, such as the Wadden Sea. We investigated the spatial and temporal dynamics of MPB communities across the marine-terrestrial boundary over three seasons (spring, summer, and fall) on three East Frisian Islands (Norderney, Spiekeroog, and Wangerooge) in the German Wadden Sea. Natural transects were compared with 12 experimental islands (salt marsh vegetated vs. initially bare islands) established on the tidal flats of Spiekeroog for studying dispersal-mediated community assembly. Sediment cores were taken along triplicate transects and on three elevation levels of the experimental islands, corresponding to the pioneer (pio) zone, the lower salt (LS) marsh, and the upper salt (US) marsh. On both the natural transects and the experimental islands, the highest MPB biomass was observed in the pio zone, where vegetation-driven sediment stabilization and high-mud content could have promoted MPB biomass in this marine-terrestrial transition zone. On the experimental islands, MPB biomass and diversity significantly decreased with elevation regardless of the season, indicating that the rarely submerged upper salt marsh level supported minimal MPB growth. The MPB biomass was also higher on initially vegetated than on bare islands, which was the most pronounced on the US level. On the tidal flat transects, the MPB biomass significantly increased with elevation up to the pio zone before decreasing again in the LS marsh. Temperature, sediment water content, and grain size significantly affected transect MPB biomass. MPB diversity, on the other hand, was not related to elevation but was rather determined by temperature, mean grain size, and mud content. Our study suggests that extending MPB studies into the “terrestrial” domain of salt marshes enhances our understanding of the microalgae–plant interaction in this important boundary zone.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"bonthond-barilo-allen-cunliffe-kruegerhadfield-fungalendophytesvarybyspeciestissuetypeandlifecyclestageinintertidalmacroalgae-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1111/jpy.13237\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'bonthond-barilo-allen-cunliffe-kruegerhadfield-fungalendophytesvarybyspeciestissuetypeandlifecyclestageinintertidalmacroalgae-2022', 'https://onlinelibrary.wiley.com/doi/10.1111/jpy.13237', event);\">\n    Fungal endophytes vary by species, tissue type, and life cycle stage in intertidal macroalgae.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Bonthond, G., Barilo, A., Allen, R. J., Cunliffe, M.,  &amp; Krueger‐Hadfield, S. A.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Phycology</i>, 58(2): 330–342. April 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1111/jpy.13237\"\n     onclick=\"log_download('bonthond-barilo-allen-cunliffe-kruegerhadfield-fungalendophytesvarybyspeciestissuetypeandlifecyclestageinintertidalmacroalgae-2022', 'https://onlinelibrary.wiley.com/doi/10.1111/jpy.13237', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Fungal endophytes vary by species, tissue type, and life cycle stage in intertidal macroalgae [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1111/jpy.13237\"\n     onclick=\"log_download('bonthond-barilo-allen-cunliffe-kruegerhadfield-fungalendophytesvarybyspeciestissuetypeandlifecyclestageinintertidalmacroalgae-2022', 'http://doi.org/10.1111/jpy.13237', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/bonthond-barilo-allen-cunliffe-kruegerhadfield-fungalendophytesvarybyspeciestissuetypeandlifecyclestageinintertidalmacroalgae-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('bonthond-barilo-allen-cunliffe-kruegerhadfield-fungalendophytesvarybyspeciestissuetypeandlifecyclestageinintertidalmacroalgae-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{bonthond_fungal_2022,\n\ttitle = {Fungal endophytes vary by species, tissue type, and life cycle stage in intertidal macroalgae},\n\tvolume = {58},\n\tcopyright = {Creative Commons Attribution 4.0 International License (CC-BY)},\n\tissn = {0022-3646, 1529-8817},\n\turl = {https://onlinelibrary.wiley.com/doi/10.1111/jpy.13237},\n\tdoi = {10.1111/jpy.13237},\n\tlanguage = {en},\n\tnumber = {2},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Phycology},\n\tauthor = {Bonthond, Guido and Barilo, Anastasiia and Allen, Ro J. and Cunliffe, Michael and Krueger‐Hadfield, Stacy A.},\n\teditor = {Lane, C.},\n\tmonth = apr,\n\tyear = {2022},\n\tpages = {330--342},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"wibowo-kellermann-petersen-alfiansah-lattyak-schupp-characterizationofaninsolubleandsolubleformofmelaninproducedbystreptomycescavourensissv21aseacucumberassociatedbacterium-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/1660-3397/20/1/54\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'wibowo-kellermann-petersen-alfiansah-lattyak-schupp-characterizationofaninsolubleandsolubleformofmelaninproducedbystreptomycescavourensissv21aseacucumberassociatedbacterium-2022', 'https://www.mdpi.com/1660-3397/20/1/54', event);\">\n    Characterization of an Insoluble and Soluble Form of Melanin Produced by Streptomyces cavourensis SV 21, a Sea Cucumber Associated Bacterium.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Wibowo, J. T., Kellermann, M. Y., Petersen, L., Alfiansah, Y. R., Lattyak, C.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Drugs</i>, 20(1): 54. January 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/1660-3397/20/1/54\"\n     onclick=\"log_download('wibowo-kellermann-petersen-alfiansah-lattyak-schupp-characterizationofaninsolubleandsolubleformofmelaninproducedbystreptomycescavourensissv21aseacucumberassociatedbacterium-2022', 'https://www.mdpi.com/1660-3397/20/1/54', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Characterization of an Insoluble and Soluble Form of Melanin Produced by Streptomyces cavourensis SV 21, a Sea Cucumber Associated Bacterium [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/md20010054\"\n     onclick=\"log_download('wibowo-kellermann-petersen-alfiansah-lattyak-schupp-characterizationofaninsolubleandsolubleformofmelaninproducedbystreptomycescavourensissv21aseacucumberassociatedbacterium-2022', 'http://doi.org/10.3390/md20010054', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/wibowo-kellermann-petersen-alfiansah-lattyak-schupp-characterizationofaninsolubleandsolubleformofmelaninproducedbystreptomycescavourensissv21aseacucumberassociatedbacterium-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('wibowo-kellermann-petersen-alfiansah-lattyak-schupp-characterizationofaninsolubleandsolubleformofmelaninproducedbystreptomycescavourensissv21aseacucumberassociatedbacterium-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{wibowo_characterization_2022,\n\ttitle = {Characterization of an {Insoluble} and {Soluble} {Form} of {Melanin} {Produced} by {Streptomyces} cavourensis {SV} 21, a {Sea} {Cucumber} {Associated} {Bacterium}},\n\tvolume = {20},\n\tissn = {1660-3397},\n\turl = {https://www.mdpi.com/1660-3397/20/1/54},\n\tdoi = {10.3390/md20010054},\n\tabstract = {Melanin is a widely distributed and striking dark-colored pigment produced by countless living organisms. Although a wide range of bioactivities have been recognized, there are still major constraints in using melanin for biotechnological applications such as its fragmentary known chemical structure and its insolubility in inorganic and organic solvents. In this study, a bacterial culture of Streptomyces cavourensis SV 21 produced two distinct forms of melanin: (1) a particulate, insoluble form as well as (2) a rarely observed water-soluble form. The here presented novel, acid-free purification protocol of purified particulate melanin (PPM) and purified dissolved melanin (PDM) represents the basis for an in-depth comparison of their physicochemical and biological properties, which were compared to the traditional acid-based precipitation of melanin (AM) and to a synthetic melanin standard (SM). Our data show that the differences in solubility between PDM and PPM in aqueous solutions may be a result of different adjoining cation species, since the soluble PDM polymer is largely composed of Mg2+ ions and the insoluble PPM is dominated by Ca2+ ions. Furthermore, AM shared most properties with SM, which is likely attributed to a similar, acid-based production protocol. The here presented gentler approach of purifying melanin facilitates a new perspective of an intact form of soluble and insoluble melanin that is less chemical altered and thus closer to its original biological form.},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Marine Drugs},\n\tauthor = {Wibowo, Joko Tri and Kellermann, Matthias Y. and Petersen, Lars-Erik and Alfiansah, Yustian R. and Lattyak, Colleen and Schupp, Peter J.},\n\tmonth = jan,\n\tyear = {2022},\n\tpages = {54},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Melanin is a widely distributed and striking dark-colored pigment produced by countless living organisms. Although a wide range of bioactivities have been recognized, there are still major constraints in using melanin for biotechnological applications such as its fragmentary known chemical structure and its insolubility in inorganic and organic solvents. In this study, a bacterial culture of Streptomyces cavourensis SV 21 produced two distinct forms of melanin: (1) a particulate, insoluble form as well as (2) a rarely observed water-soluble form. The here presented novel, acid-free purification protocol of purified particulate melanin (PPM) and purified dissolved melanin (PDM) represents the basis for an in-depth comparison of their physicochemical and biological properties, which were compared to the traditional acid-based precipitation of melanin (AM) and to a synthetic melanin standard (SM). Our data show that the differences in solubility between PDM and PPM in aqueous solutions may be a result of different adjoining cation species, since the soluble PDM polymer is largely composed of Mg2+ ions and the insoluble PPM is dominated by Ca2+ ions. Furthermore, AM shared most properties with SM, which is likely attributed to a similar, acid-based production protocol. The here presented gentler approach of purifying melanin facilitates a new perspective of an intact form of soluble and insoluble melanin that is less chemical altered and thus closer to its original biological form.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"mueller-bill-reinach-lasut-freund-schupp-acomprehensiveapproachtoassessmarinemacrolitterpollutionanditsimpactsoncoralsinthebangkastraitnorthsulawesiindonesia-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0025326X22000510\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'mueller-bill-reinach-lasut-freund-schupp-acomprehensiveapproachtoassessmarinemacrolitterpollutionanditsimpactsoncoralsinthebangkastraitnorthsulawesiindonesia-2022', 'https://linkinghub.elsevier.com/retrieve/pii/S0025326X22000510', event);\">\n    A comprehensive approach to assess marine macro litter pollution and its impacts on corals in the Bangka Strait, North Sulawesi, Indonesia.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Mueller, J. S., Bill, N., Reinach, M. S., Lasut, M. T., Freund, H.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Pollution Bulletin</i>, 175: 113369. February 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0025326X22000510\"\n     onclick=\"log_download('mueller-bill-reinach-lasut-freund-schupp-acomprehensiveapproachtoassessmarinemacrolitterpollutionanditsimpactsoncoralsinthebangkastraitnorthsulawesiindonesia-2022', 'https://linkinghub.elsevier.com/retrieve/pii/S0025326X22000510', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"A comprehensive approach to assess marine macro litter pollution and its impacts on corals in the Bangka Strait, North Sulawesi, Indonesia [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.marpolbul.2022.113369\"\n     onclick=\"log_download('mueller-bill-reinach-lasut-freund-schupp-acomprehensiveapproachtoassessmarinemacrolitterpollutionanditsimpactsoncoralsinthebangkastraitnorthsulawesiindonesia-2022', 'http://doi.org/10.1016/j.marpolbul.2022.113369', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/mueller-bill-reinach-lasut-freund-schupp-acomprehensiveapproachtoassessmarinemacrolitterpollutionanditsimpactsoncoralsinthebangkastraitnorthsulawesiindonesia-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('mueller-bill-reinach-lasut-freund-schupp-acomprehensiveapproachtoassessmarinemacrolitterpollutionanditsimpactsoncoralsinthebangkastraitnorthsulawesiindonesia-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{mueller_comprehensive_2022,\n\ttitle = {A comprehensive approach to assess marine macro litter pollution and its impacts on corals in the {Bangka} {Strait}, {North} {Sulawesi}, {Indonesia}},\n\tvolume = {175},\n\tissn = {0025326X},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0025326X22000510},\n\tdoi = {10.1016/j.marpolbul.2022.113369},\n\tlanguage = {en},\n\turldate = {2022-11-08},\n\tjournal = {Marine Pollution Bulletin},\n\tauthor = {Mueller, Jasmin S. and Bill, Nicolas and Reinach, Marco S. and Lasut, Markus T. and Freund, Holger and Schupp, Peter J.},\n\tmonth = feb,\n\tyear = {2022},\n\tpages = {113369},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"pira-risdian-msken-schupp-wink-pacificimonaspalliumspnovanisolatedbacteriumfromthemantleofpacificoystercrassostreagigasingermanyandpredictionofonecarbonmetabolism-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/1424-2818/14/3/181\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'pira-risdian-msken-schupp-wink-pacificimonaspalliumspnovanisolatedbacteriumfromthemantleofpacificoystercrassostreagigasingermanyandpredictionofonecarbonmetabolism-2022', 'https://www.mdpi.com/1424-2818/14/3/181', event);\">\n    Pacificimonas pallium sp. nov., an Isolated Bacterium from the Mantle of Pacific Oyster Crassostrea gigas in Germany, and Prediction of One-Carbon Metabolism.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Pira, H., Risdian, C., Müsken, M., Schupp, P. J.,  &amp; Wink, J.\n</span>\n\n  \n\n</span>\n\n  <i>Diversity</i>, 14(3): 181. February 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/1424-2818/14/3/181\"\n     onclick=\"log_download('pira-risdian-msken-schupp-wink-pacificimonaspalliumspnovanisolatedbacteriumfromthemantleofpacificoystercrassostreagigasingermanyandpredictionofonecarbonmetabolism-2022', 'https://www.mdpi.com/1424-2818/14/3/181', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Pacificimonas pallium sp. nov., an Isolated Bacterium from the Mantle of Pacific Oyster Crassostrea gigas in Germany, and Prediction of One-Carbon Metabolism [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/d14030181\"\n     onclick=\"log_download('pira-risdian-msken-schupp-wink-pacificimonaspalliumspnovanisolatedbacteriumfromthemantleofpacificoystercrassostreagigasingermanyandpredictionofonecarbonmetabolism-2022', 'http://doi.org/10.3390/d14030181', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/pira-risdian-msken-schupp-wink-pacificimonaspalliumspnovanisolatedbacteriumfromthemantleofpacificoystercrassostreagigasingermanyandpredictionofonecarbonmetabolism-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('pira-risdian-msken-schupp-wink-pacificimonaspalliumspnovanisolatedbacteriumfromthemantleofpacificoystercrassostreagigasingermanyandpredictionofonecarbonmetabolism-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{pira_pacificimonas_2022,\n\ttitle = {Pacificimonas pallium sp. nov., an {Isolated} {Bacterium} from the {Mantle} of {Pacific} {Oyster} {Crassostrea} gigas in {Germany}, and {Prediction} of {One}-{Carbon} {Metabolism}},\n\tvolume = {14},\n\tissn = {1424-2818},\n\turl = {https://www.mdpi.com/1424-2818/14/3/181},\n\tdoi = {10.3390/d14030181},\n\tabstract = {A yellow bacterium from marine agar, strain WHA3T, was isolated from the mantel of the Pacific oysters Crassostrea gigas in the Wilhelmshaven Sea in northern Germany. Based on the 16S rRNA gene sequence, strain WHA3T had a high similarity to Pacificimonas flava JLT2015T (95.80\\%) and 94.79\\% to Pacificimonas aurantium JLT2012T. Furthermore, the dDDH and ANI value analysis between WHA3T and other closest type strains were lower than 70\\% and 95\\%, respectively. The percentage of conserved proteins (POCP) and the average amino acid identity (AAI) value against Pacificimonas flava JLT2015T and Pacificimonas aurantium JLT2012T represented in the ranges of higher than 50\\% and 60\\%, respectively. Strain WHA3T contained ubiquinone-10 (Q-10) as the predominant quinone, and the major fatty acids were C16:1 ω7c and C18:1 ω7c. Granules of polyhydroxyalkanoates (PHAs) were absent. The main polar lipids were diphosphatidylglycerol, phosphatidylethanolamine, phosphatidylglycerol, several sphingoglycolipids, an unknown phospholipid, an unknown glycolipid, and an unknown polar lipid. The polyamines contained spermidine and spermine. The DNA G + C content of strain WHA3T was 61.69\\%. An analysis of the whole-genome sequence in the frame of genome mining strain WHA3T predicted the presence of genomes for one-carbon metabolism, TonB-dependent transporters, vitamin B12 transporter, iron siderophore receptor protein, and other genes, some of which play important roles against restricted nutrient sources. The extract of strain WHA3T moderately inhibited the growth of Candida albicans DSM 1665. The polyphasic taxonomic analysis results suggested that strain WHA3T could be separated from its closest type strains. Strain WHA3T represents a novel species in the genus Pacificimonas, for which we propose the name Pacificimonaspallium sp. nov., with the type strain WHA3T (= DSM 111825T = NCCB 100832T).},\n\tlanguage = {en},\n\tnumber = {3},\n\turldate = {2022-11-08},\n\tjournal = {Diversity},\n\tauthor = {Pira, Hani and Risdian, Chandra and Müsken, Mathias and Schupp, Peter J. and Wink, Joachim},\n\tmonth = feb,\n\tyear = {2022},\n\tpages = {181},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  A yellow bacterium from marine agar, strain WHA3T, was isolated from the mantel of the Pacific oysters Crassostrea gigas in the Wilhelmshaven Sea in northern Germany. Based on the 16S rRNA gene sequence, strain WHA3T had a high similarity to Pacificimonas flava JLT2015T (95.80%) and 94.79% to Pacificimonas aurantium JLT2012T. Furthermore, the dDDH and ANI value analysis between WHA3T and other closest type strains were lower than 70% and 95%, respectively. The percentage of conserved proteins (POCP) and the average amino acid identity (AAI) value against Pacificimonas flava JLT2015T and Pacificimonas aurantium JLT2012T represented in the ranges of higher than 50% and 60%, respectively. Strain WHA3T contained ubiquinone-10 (Q-10) as the predominant quinone, and the major fatty acids were C16:1 ω7c and C18:1 ω7c. Granules of polyhydroxyalkanoates (PHAs) were absent. The main polar lipids were diphosphatidylglycerol, phosphatidylethanolamine, phosphatidylglycerol, several sphingoglycolipids, an unknown phospholipid, an unknown glycolipid, and an unknown polar lipid. The polyamines contained spermidine and spermine. The DNA G + C content of strain WHA3T was 61.69%. An analysis of the whole-genome sequence in the frame of genome mining strain WHA3T predicted the presence of genomes for one-carbon metabolism, TonB-dependent transporters, vitamin B12 transporter, iron siderophore receptor protein, and other genes, some of which play important roles against restricted nutrient sources. The extract of strain WHA3T moderately inhibited the growth of Candida albicans DSM 1665. The polyphasic taxonomic analysis results suggested that strain WHA3T could be separated from its closest type strains. Strain WHA3T represents a novel species in the genus Pacificimonas, for which we propose the name Pacificimonaspallium sp. nov., with the type strain WHA3T (= DSM 111825T = NCCB 100832T).\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"reverter-helber-rohde-goeij-schupp-coralreefbenthiccommunitychangesintheanthropocenebiogeographicheterogeneityoverlookedconfigurationsandmethodology-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1111/gcb.16034\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'reverter-helber-rohde-goeij-schupp-coralreefbenthiccommunitychangesintheanthropocenebiogeographicheterogeneityoverlookedconfigurationsandmethodology-2022', 'https://onlinelibrary.wiley.com/doi/10.1111/gcb.16034', event);\">\n    Coral reef benthic community changes in the Anthropocene: Biogeographic heterogeneity, overlooked configurations, and methodology.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Reverter, M., Helber, S. B., Rohde, S., Goeij, J. M.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Global Change Biology</i>, 28(6): 1956–1971. March 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1111/gcb.16034\"\n     onclick=\"log_download('reverter-helber-rohde-goeij-schupp-coralreefbenthiccommunitychangesintheanthropocenebiogeographicheterogeneityoverlookedconfigurationsandmethodology-2022', 'https://onlinelibrary.wiley.com/doi/10.1111/gcb.16034', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Coral reef benthic community changes in the Anthropocene: Biogeographic heterogeneity, overlooked configurations, and methodology [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1111/gcb.16034\"\n     onclick=\"log_download('reverter-helber-rohde-goeij-schupp-coralreefbenthiccommunitychangesintheanthropocenebiogeographicheterogeneityoverlookedconfigurationsandmethodology-2022', 'http://doi.org/10.1111/gcb.16034', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/reverter-helber-rohde-goeij-schupp-coralreefbenthiccommunitychangesintheanthropocenebiogeographicheterogeneityoverlookedconfigurationsandmethodology-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('reverter-helber-rohde-goeij-schupp-coralreefbenthiccommunitychangesintheanthropocenebiogeographicheterogeneityoverlookedconfigurationsandmethodology-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{reverter_coral_2022,\n\ttitle = {Coral reef benthic community changes in the {Anthropocene}: {Biogeographic} heterogeneity, overlooked configurations, and methodology},\n\tvolume = {28},\n\tissn = {1354-1013, 1365-2486},\n\tshorttitle = {Coral reef benthic community changes in the {Anthropocene}},\n\turl = {https://onlinelibrary.wiley.com/doi/10.1111/gcb.16034},\n\tdoi = {10.1111/gcb.16034},\n\tlanguage = {en},\n\tnumber = {6},\n\turldate = {2022-11-08},\n\tjournal = {Global Change Biology},\n\tauthor = {Reverter, Miriam and Helber, Stephanie B. and Rohde, Sven and Goeij, Jasper M. and Schupp, Peter J.},\n\tmonth = mar,\n\tyear = {2022},\n\tpages = {1956--1971},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"curdt-schupp-rohde-lightavailabilityaffectsthesymbiosisofspongespecificcyanobacteriaandthecommonblueaquariumspongelendenfeldiachondrodes-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/2076-2615/12/10/1283\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'curdt-schupp-rohde-lightavailabilityaffectsthesymbiosisofspongespecificcyanobacteriaandthecommonblueaquariumspongelendenfeldiachondrodes-2022', 'https://www.mdpi.com/2076-2615/12/10/1283', event);\">\n    Light Availability Affects the Symbiosis of Sponge Specific Cyanobacteria and the Common Blue Aquarium Sponge (Lendenfeldia chondrodes).\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Curdt, F., Schupp, P. J.,  &amp; Rohde, S.\n</span>\n\n  \n\n</span>\n\n  <i>Animals</i>, 12(10): 1283. May 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/2076-2615/12/10/1283\"\n     onclick=\"log_download('curdt-schupp-rohde-lightavailabilityaffectsthesymbiosisofspongespecificcyanobacteriaandthecommonblueaquariumspongelendenfeldiachondrodes-2022', 'https://www.mdpi.com/2076-2615/12/10/1283', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Light Availability Affects the Symbiosis of Sponge Specific Cyanobacteria and the Common Blue Aquarium Sponge (Lendenfeldia chondrodes) [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/ani12101283\"\n     onclick=\"log_download('curdt-schupp-rohde-lightavailabilityaffectsthesymbiosisofspongespecificcyanobacteriaandthecommonblueaquariumspongelendenfeldiachondrodes-2022', 'http://doi.org/10.3390/ani12101283', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/curdt-schupp-rohde-lightavailabilityaffectsthesymbiosisofspongespecificcyanobacteriaandthecommonblueaquariumspongelendenfeldiachondrodes-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('curdt-schupp-rohde-lightavailabilityaffectsthesymbiosisofspongespecificcyanobacteriaandthecommonblueaquariumspongelendenfeldiachondrodes-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{curdt_light_2022,\n\ttitle = {Light {Availability} {Affects} the {Symbiosis} of {Sponge} {Specific} {Cyanobacteria} and the {Common} {Blue} {Aquarium} {Sponge} ({Lendenfeldia} chondrodes)},\n\tvolume = {12},\n\tissn = {2076-2615},\n\turl = {https://www.mdpi.com/2076-2615/12/10/1283},\n\tdoi = {10.3390/ani12101283},\n\tabstract = {Bacterial symbionts in marine sponges play a decisive role in the biological and ecological functioning of their hosts. Although this topic has been the focus of numerous studies, data from experiments under controlled conditions are rare. To analyze the ongoing metabolic processes, we investigated the symbiosis of the sponge specific cyanobacterium Synechococcus spongiarum and its sponge host Lendenfeldia chondrodes under varying light conditions in a defined aquarium setting for 68 days. Sponge clonal pieces were kept at four different light intensities, ranging from no light to higher intensities that were assumed to trigger light stress. Growth as a measure of host performance and photosynthetic yield as a proxy of symbiont photosynthetic activity were measured throughout the experiment. The lack of light prevented sponge growth and induced the expulsion of all cyanobacteria and related pigments by the end of the experiment. Higher light conditions allowed rapid sponge growth and high cyanobacteria densities. In addition, photosynthetically active radiation above a certain level triggered an increase in cyanobacteria’s lutein levels, a UV absorbing protein, thus protecting itself and the host’s cells from UV radiation damage. Thus, L. chondrodes seems to benefit strongly from hosting the cyanbacterium S. spongiarum and the relationship should be considered obligatory mutualistic.},\n\tlanguage = {en},\n\tnumber = {10},\n\turldate = {2022-11-08},\n\tjournal = {Animals},\n\tauthor = {Curdt, Franziska and Schupp, Peter J. and Rohde, Sven},\n\tmonth = may,\n\tyear = {2022},\n\tpages = {1283},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Bacterial symbionts in marine sponges play a decisive role in the biological and ecological functioning of their hosts. Although this topic has been the focus of numerous studies, data from experiments under controlled conditions are rare. To analyze the ongoing metabolic processes, we investigated the symbiosis of the sponge specific cyanobacterium Synechococcus spongiarum and its sponge host Lendenfeldia chondrodes under varying light conditions in a defined aquarium setting for 68 days. Sponge clonal pieces were kept at four different light intensities, ranging from no light to higher intensities that were assumed to trigger light stress. Growth as a measure of host performance and photosynthetic yield as a proxy of symbiont photosynthetic activity were measured throughout the experiment. The lack of light prevented sponge growth and induced the expulsion of all cyanobacteria and related pigments by the end of the experiment. Higher light conditions allowed rapid sponge growth and high cyanobacteria densities. In addition, photosynthetically active radiation above a certain level triggered an increase in cyanobacteria’s lutein levels, a UV absorbing protein, thus protecting itself and the host’s cells from UV radiation damage. Thus, L. chondrodes seems to benefit strongly from hosting the cyanbacterium S. spongiarum and the relationship should be considered obligatory mutualistic.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"chen-chen-yang-shiu-hoh-chiang-chow-chen-etal-prevalencecompletegenomeandmetabolicpotentialsofaphylogeneticallynovelcyanobacterialsymbiontinthecoralkillingspongeiterpioshoshinotai-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1111/1462-2920.15824\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'chen-chen-yang-shiu-hoh-chiang-chow-chen-etal-prevalencecompletegenomeandmetabolicpotentialsofaphylogeneticallynovelcyanobacterialsymbiontinthecoralkillingspongeiterpioshoshinotai-2022', 'https://onlinelibrary.wiley.com/doi/10.1111/1462-2920.15824', event);\">\n    Prevalence, complete genome, and metabolic potentials of a phylogenetically novel cyanobacterial symbiont in the coral‐killing sponge, <i>Terpios hoshinota</i>.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Chen, Y., Chen, H., Yang, C., Shiu, J., Hoh, D. Z., Chiang, P., Chow, W. S., Chen, C. A., Shih, T., Lin, S., Yang, C., Reimer, J. D., Hirose, E., Iskandar, B. H., Huang, H., Schupp, P. J., Tan, C. H. J., Yamashiro, H., Liao, M.,  &amp; Tang, S.\n</span>\n\n  \n\n</span>\n\n  <i>Environmental Microbiology</i>, 24(3): 1308–1325. March 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1111/1462-2920.15824\"\n     onclick=\"log_download('chen-chen-yang-shiu-hoh-chiang-chow-chen-etal-prevalencecompletegenomeandmetabolicpotentialsofaphylogeneticallynovelcyanobacterialsymbiontinthecoralkillingspongeiterpioshoshinotai-2022', 'https://onlinelibrary.wiley.com/doi/10.1111/1462-2920.15824', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Prevalence, complete genome, and metabolic potentials of a phylogenetically novel cyanobacterial symbiont in the coral‐killing sponge, &lt;i&gt;Terpios hoshinota&lt;/i&gt; [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1111/1462-2920.15824\"\n     onclick=\"log_download('chen-chen-yang-shiu-hoh-chiang-chow-chen-etal-prevalencecompletegenomeandmetabolicpotentialsofaphylogeneticallynovelcyanobacterialsymbiontinthecoralkillingspongeiterpioshoshinotai-2022', 'http://doi.org/10.1111/1462-2920.15824', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/chen-chen-yang-shiu-hoh-chiang-chow-chen-etal-prevalencecompletegenomeandmetabolicpotentialsofaphylogeneticallynovelcyanobacterialsymbiontinthecoralkillingspongeiterpioshoshinotai-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n  &nbsp;\n  <span class=\"bibbase_stats_paper\" style=\"color: #777;\">\n    <span>1 download</span>\n  </span>\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('chen-chen-yang-shiu-hoh-chiang-chow-chen-etal-prevalencecompletegenomeandmetabolicpotentialsofaphylogeneticallynovelcyanobacterialsymbiontinthecoralkillingspongeiterpioshoshinotai-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{chen_prevalence_2022,\n\ttitle = {Prevalence, complete genome, and metabolic potentials of a phylogenetically novel cyanobacterial symbiont in the coral‐killing sponge, \\textit{{Terpios} hoshinota}},\n\tvolume = {24},\n\tissn = {1462-2912, 1462-2920},\n\turl = {https://onlinelibrary.wiley.com/doi/10.1111/1462-2920.15824},\n\tdoi = {10.1111/1462-2920.15824},\n\tlanguage = {en},\n\tnumber = {3},\n\turldate = {2022-11-08},\n\tjournal = {Environmental Microbiology},\n\tauthor = {Chen, Yu‐Hsiang and Chen, Hsing‐Ju and Yang, Cheng‐Yu and Shiu, Jia‐Ho and Hoh, Daphne Z. and Chiang, Pei‐Wen and Chow, Wenhua Savanna and Chen, Chaolun Allen and Shih, Tin‐Han and Lin, Szu‐Hsien and Yang, Chi‐Ming and Reimer, James Davis and Hirose, Euichi and Iskandar, Budhi Hascaryo and Huang, Hui and Schupp, Peter J. and Tan, Chun Hong James and Yamashiro, Hideyuki and Liao, Ming‐Hui and Tang, Sen‐Lin},\n\tmonth = mar,\n\tyear = {2022},\n\tpages = {1308--1325},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"miller-moeller-kellermann-nietzer-dimauro-kamyab-pawlowski-petersenthiery-etal-towardsthedevelopmentofstandardizedbioassaysforcoralsacutetoxicityoftheuvfilterbenzophenone3toscleractiniancorallarvae-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/2305-6304/10/5/244\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'miller-moeller-kellermann-nietzer-dimauro-kamyab-pawlowski-petersenthiery-etal-towardsthedevelopmentofstandardizedbioassaysforcoralsacutetoxicityoftheuvfilterbenzophenone3toscleractiniancorallarvae-2022', 'https://www.mdpi.com/2305-6304/10/5/244', event);\">\n    Towards the Development of Standardized Bioassays for Corals: Acute Toxicity of the UV Filter Benzophenone-3 to Scleractinian Coral Larvae.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Miller, I. B., Moeller, M., Kellermann, M. Y., Nietzer, S., Di Mauro, V., Kamyab, E., Pawlowski, S., Petersen-Thiery, M.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Toxics</i>, 10(5): 244. May 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/2305-6304/10/5/244\"\n     onclick=\"log_download('miller-moeller-kellermann-nietzer-dimauro-kamyab-pawlowski-petersenthiery-etal-towardsthedevelopmentofstandardizedbioassaysforcoralsacutetoxicityoftheuvfilterbenzophenone3toscleractiniancorallarvae-2022', 'https://www.mdpi.com/2305-6304/10/5/244', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Towards the Development of Standardized Bioassays for Corals: Acute Toxicity of the UV Filter Benzophenone-3 to Scleractinian Coral Larvae [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/toxics10050244\"\n     onclick=\"log_download('miller-moeller-kellermann-nietzer-dimauro-kamyab-pawlowski-petersenthiery-etal-towardsthedevelopmentofstandardizedbioassaysforcoralsacutetoxicityoftheuvfilterbenzophenone3toscleractiniancorallarvae-2022', 'http://doi.org/10.3390/toxics10050244', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/miller-moeller-kellermann-nietzer-dimauro-kamyab-pawlowski-petersenthiery-etal-towardsthedevelopmentofstandardizedbioassaysforcoralsacutetoxicityoftheuvfilterbenzophenone3toscleractiniancorallarvae-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('miller-moeller-kellermann-nietzer-dimauro-kamyab-pawlowski-petersenthiery-etal-towardsthedevelopmentofstandardizedbioassaysforcoralsacutetoxicityoftheuvfilterbenzophenone3toscleractiniancorallarvae-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{miller_towards_2022,\n\ttitle = {Towards the {Development} of {Standardized} {Bioassays} for {Corals}: {Acute} {Toxicity} of the {UV} {Filter} {Benzophenone}-3 to {Scleractinian} {Coral} {Larvae}},\n\tvolume = {10},\n\tissn = {2305-6304},\n\tshorttitle = {Towards the {Development} of {Standardized} {Bioassays} for {Corals}},\n\turl = {https://www.mdpi.com/2305-6304/10/5/244},\n\tdoi = {10.3390/toxics10050244},\n\tabstract = {Coral reefs have been declining globally at a historically unprecedented rate. Ultraviolet (UV) filters used in sunscreens may contribute to this decline at local scales, which has already led to bans on various organic UV filters in some regions. However, the underlying studies for these bans demonstrated significant flaws in the experimental design due to a lack of validated and standardized testing methods for corals. This study aimed to investigate options for the development of a standard acute toxicity test for the larval stage of scleractinian corals. Planula larvae of two brooding (Leptastrea purpurea and Tubastraea faulkneri) and two spawning (Acropora digitifera and A. millepora) species were exposed to the organic UV filter benzophenone-3 (BP3) for 48 h under static conditions. We observed interspecific variations in toxicity, with A. digitifera being the most sensitive (LC50 = 0.75 µg L−1) and T. faulkneri the least sensitive (LC50 = 2951.24 µg L−1) species. Inhibition of settlement was found to be a useful endpoint leading to an EC50 of 1.84 µg L−1 in L. purpurea larvae. Although the analytical challenges of measuring lipophilic substances in small volume test setups remain, the here applied test design and selected endpoints are suitable for further validation and subsequent standardization.},\n\tlanguage = {en},\n\tnumber = {5},\n\turldate = {2022-11-09},\n\tjournal = {Toxics},\n\tauthor = {Miller, Ingo B. and Moeller, Mareen and Kellermann, Matthias Y. and Nietzer, Samuel and Di Mauro, Valentina and Kamyab, Elham and Pawlowski, Sascha and Petersen-Thiery, Mechtild and Schupp, Peter J.},\n\tmonth = may,\n\tyear = {2022},\n\tpages = {244},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Coral reefs have been declining globally at a historically unprecedented rate. Ultraviolet (UV) filters used in sunscreens may contribute to this decline at local scales, which has already led to bans on various organic UV filters in some regions. However, the underlying studies for these bans demonstrated significant flaws in the experimental design due to a lack of validated and standardized testing methods for corals. This study aimed to investigate options for the development of a standard acute toxicity test for the larval stage of scleractinian corals. Planula larvae of two brooding (Leptastrea purpurea and Tubastraea faulkneri) and two spawning (Acropora digitifera and A. millepora) species were exposed to the organic UV filter benzophenone-3 (BP3) for 48 h under static conditions. We observed interspecific variations in toxicity, with A. digitifera being the most sensitive (LC50 = 0.75 µg L−1) and T. faulkneri the least sensitive (LC50 = 2951.24 µg L−1) species. Inhibition of settlement was found to be a useful endpoint leading to an EC50 of 1.84 µg L−1 in L. purpurea larvae. Although the analytical challenges of measuring lipophilic substances in small volume test setups remain, the here applied test design and selected endpoints are suitable for further validation and subsequent standardization.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"chow-keshavmurthy-reimer-devoogd-huang-wang-tang-schupp-etal-populationgeneticsanddemographyofthecoralkillingcyanobacteriospongeiterpioshoshinotaiintheindowestpacific-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://peerj.com/articles/13451\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'chow-keshavmurthy-reimer-devoogd-huang-wang-tang-schupp-etal-populationgeneticsanddemographyofthecoralkillingcyanobacteriospongeiterpioshoshinotaiintheindowestpacific-2022', 'https://peerj.com/articles/13451', event);\">\n    Population genetics and demography of the coral-killing cyanobacteriosponge, <i>Terpios hoshinota,</i> in the Indo-West Pacific.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Chow, S. W., Keshavmurthy, S., Reimer, J. D., de Voogd, N., Huang, H., Wang, J., Tang, S., Schupp, P. J., Tan, C. H., Liew, H., Soong, K., Subhan, B., Madduppa, H.,  &amp; Chen, C. A.\n</span>\n\n  \n\n</span>\n\n  <i>PeerJ</i>, 10: e13451. May 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://peerj.com/articles/13451\"\n     onclick=\"log_download('chow-keshavmurthy-reimer-devoogd-huang-wang-tang-schupp-etal-populationgeneticsanddemographyofthecoralkillingcyanobacteriospongeiterpioshoshinotaiintheindowestpacific-2022', 'https://peerj.com/articles/13451', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Population genetics and demography of the coral-killing cyanobacteriosponge, &lt;i&gt;Terpios hoshinota,&lt;/i&gt; in the Indo-West Pacific [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.7717/peerj.13451\"\n     onclick=\"log_download('chow-keshavmurthy-reimer-devoogd-huang-wang-tang-schupp-etal-populationgeneticsanddemographyofthecoralkillingcyanobacteriospongeiterpioshoshinotaiintheindowestpacific-2022', 'http://doi.org/10.7717/peerj.13451', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/chow-keshavmurthy-reimer-devoogd-huang-wang-tang-schupp-etal-populationgeneticsanddemographyofthecoralkillingcyanobacteriospongeiterpioshoshinotaiintheindowestpacific-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('chow-keshavmurthy-reimer-devoogd-huang-wang-tang-schupp-etal-populationgeneticsanddemographyofthecoralkillingcyanobacteriospongeiterpioshoshinotaiintheindowestpacific-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{chow_population_2022,\n\ttitle = {Population genetics and demography of the coral-killing cyanobacteriosponge, \\textit{{Terpios} hoshinota,} in the {Indo}-{West} {Pacific}},\n\tvolume = {10},\n\tissn = {2167-8359},\n\turl = {https://peerj.com/articles/13451},\n\tdoi = {10.7717/peerj.13451},\n\tabstract = {The first occurrence of the cyanobacteriosponge\n              Terpios hoshinota\n              was reported from coral reefs in Guam in 1973, but was only formally described in 1993. Since then, the invasive behavior of this encrusting, coral-killing sponge has been observed in many coral reefs in the West Pacific. From 2015, its occurrence has expanded westward to the Indian Ocean. Although many studies have investigated the morphology, ecology, and symbiotic cyanobacteria of this sponge, little is known of its population genetics and demography. In this study, a mitochondrial cytochrome oxidase I (COI) fragment and nuclear ribosomal internal transcribed spacer 2 (ITS2) were sequenced to reveal the genetic variation of\n              T. hoshinota\n              collected from 11 marine ecoregions throughout the Indo-West Pacific. Both of the statistical parsimony networks based on the COI and nuclear ITS2 were dominated by a common haplotype. Pairwise\n              F\n              ST\n              and Isolation-by-distance by Mantel test of ITS2 showed moderate gene flow existed among most populations in the marine ecoregions of West Pacific, Coral Triangle, and Eastern Indian Ocean, but with a restricted gene flow between these regions and Maldives in the Central Indian Ocean. Demographic analyses of most\n              T. hoshinota\n              populations were consistent with the mutation-drift equilibrium, except for the Sulawesi Sea and Maldives, which showed bottlenecks following recent expansion. Our results suggest that while long-range dispersal might explain the capability of\n              T. hoshinota\n              to spread in the IWP, stable population demography might account for the long-term persistence of\n              T. hoshinota\n              outbreaks on local reefs.},\n\tlanguage = {en},\n\turldate = {2022-11-08},\n\tjournal = {PeerJ},\n\tauthor = {Chow, Savanna Wenhua and Keshavmurthy, Shashank and Reimer, James Davis and de Voogd, Nicole and Huang, Hui and Wang, Jih-Terng and Tang, Sen-Lin and Schupp, Peter J. and Tan, Chun Hong and Liew, Hock-Chark and Soong, Keryea and Subhan, Beginer and Madduppa, Hawis and Chen, Chaolun Allen},\n\tmonth = may,\n\tyear = {2022},\n\tpages = {e13451},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  The first occurrence of the cyanobacteriosponge Terpios hoshinota was reported from coral reefs in Guam in 1973, but was only formally described in 1993. Since then, the invasive behavior of this encrusting, coral-killing sponge has been observed in many coral reefs in the West Pacific. From 2015, its occurrence has expanded westward to the Indian Ocean. Although many studies have investigated the morphology, ecology, and symbiotic cyanobacteria of this sponge, little is known of its population genetics and demography. In this study, a mitochondrial cytochrome oxidase I (COI) fragment and nuclear ribosomal internal transcribed spacer 2 (ITS2) were sequenced to reveal the genetic variation of T. hoshinota collected from 11 marine ecoregions throughout the Indo-West Pacific. Both of the statistical parsimony networks based on the COI and nuclear ITS2 were dominated by a common haplotype. Pairwise F ST and Isolation-by-distance by Mantel test of ITS2 showed moderate gene flow existed among most populations in the marine ecoregions of West Pacific, Coral Triangle, and Eastern Indian Ocean, but with a restricted gene flow between these regions and Maldives in the Central Indian Ocean. Demographic analyses of most T. hoshinota populations were consistent with the mutation-drift equilibrium, except for the Sulawesi Sea and Maldives, which showed bottlenecks following recent expansion. Our results suggest that while long-range dispersal might explain the capability of T. hoshinota to spread in the IWP, stable population demography might account for the long-term persistence of T. hoshinota outbreaks on local reefs.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"tareen-schupp-iqbal-wink-exploringtheantibioticproductionpotentialofheterotrophicbacterialcommunitiesisolatedfromthemarinespongescrateromorphameyeripseudaxinellareticulatafarreasimilarisandcaulophacusarcticusthroughsynergisticmetabolomicandgenomicanalyses-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/1660-3397/20/7/463\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'tareen-schupp-iqbal-wink-exploringtheantibioticproductionpotentialofheterotrophicbacterialcommunitiesisolatedfromthemarinespongescrateromorphameyeripseudaxinellareticulatafarreasimilarisandcaulophacusarcticusthroughsynergisticmetabolomicandgenomicanalyses-2022', 'https://www.mdpi.com/1660-3397/20/7/463', event);\">\n    Exploring the Antibiotic Production Potential of Heterotrophic Bacterial Communities Isolated from the Marine Sponges Crateromorpha meyeri, Pseudaxinella reticulata, Farrea similaris, and Caulophacus arcticus through Synergistic Metabolomic and Genomic Analyses.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Tareen, S., Schupp, P. J., Iqbal, N.,  &amp; Wink, J.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Drugs</i>, 20(7): 463. July 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/1660-3397/20/7/463\"\n     onclick=\"log_download('tareen-schupp-iqbal-wink-exploringtheantibioticproductionpotentialofheterotrophicbacterialcommunitiesisolatedfromthemarinespongescrateromorphameyeripseudaxinellareticulatafarreasimilarisandcaulophacusarcticusthroughsynergisticmetabolomicandgenomicanalyses-2022', 'https://www.mdpi.com/1660-3397/20/7/463', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Exploring the Antibiotic Production Potential of Heterotrophic Bacterial Communities Isolated from the Marine Sponges Crateromorpha meyeri, Pseudaxinella reticulata, Farrea similaris, and Caulophacus arcticus through Synergistic Metabolomic and Genomic Analyses [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/md20070463\"\n     onclick=\"log_download('tareen-schupp-iqbal-wink-exploringtheantibioticproductionpotentialofheterotrophicbacterialcommunitiesisolatedfromthemarinespongescrateromorphameyeripseudaxinellareticulatafarreasimilarisandcaulophacusarcticusthroughsynergisticmetabolomicandgenomicanalyses-2022', 'http://doi.org/10.3390/md20070463', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/tareen-schupp-iqbal-wink-exploringtheantibioticproductionpotentialofheterotrophicbacterialcommunitiesisolatedfromthemarinespongescrateromorphameyeripseudaxinellareticulatafarreasimilarisandcaulophacusarcticusthroughsynergisticmetabolomicandgenomicanalyses-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('tareen-schupp-iqbal-wink-exploringtheantibioticproductionpotentialofheterotrophicbacterialcommunitiesisolatedfromthemarinespongescrateromorphameyeripseudaxinellareticulatafarreasimilarisandcaulophacusarcticusthroughsynergisticmetabolomicandgenomicanalyses-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{tareen_exploring_2022,\n\ttitle = {Exploring the {Antibiotic} {Production} {Potential} of {Heterotrophic} {Bacterial} {Communities} {Isolated} from the {Marine} {Sponges} {Crateromorpha} meyeri, {Pseudaxinella} reticulata, {Farrea} similaris, and {Caulophacus} arcticus through {Synergistic} {Metabolomic} and {Genomic} {Analyses}},\n\tvolume = {20},\n\tissn = {1660-3397},\n\turl = {https://www.mdpi.com/1660-3397/20/7/463},\n\tdoi = {10.3390/md20070463},\n\tabstract = {The discovery of novel secondary metabolites is actively being pursued in new ecosystems. Sponge-associated bacteria have been in the limelight in recent years on account of their ability to produce bioactive compounds. In this study, heterotrophic bacteria associated with four sponge species were isolated, taxonomically identified, and subjected to screening for the production of bioactive entities against a panel of nine microorganisms, including Gram-positive and negative bacteria, as well as yeast and fungi. Of the 105 isolated strains, 66\\% were represented by Proteobacteria, 16\\% by Bacteriodetes, 7\\% by Actinobacteria, and 11\\% by Firmicutes. Bioactivity screening revealed that 40\\% of the total isolated strains showed antimicrobial activity against one or more of the target microorganisms tested. Further, active extracts from selective species were narrowed down by bioassay-guided fractionation and subsequently identified by HR-ESI-MS analyses to locate the active peaks. Presumably responsible compounds for the observed bioactivities were identified as pentadecenoic acid, oleic acid, and palmitoleic acid. One isolate, Qipengyuania pacifica NZ-96T, based on 16S rRNA novelty, was subjected to comparative metabolic reconstruction analysis with its closest phylogenetic neighbors, revealing 79 unique functional roles in the novel isolate. In addition, genome mining of Qipengyuania pacifica NZ-96T revealed three biosynthetic gene clusters responsible for the biosynthesis of terpene, beta lactone, lasso peptide, and hserlactone secondary metabolites. Our results demonstrate the ability to target the sponge microbiome as a potential source of novel microbial life with biotechnological potential.},\n\tlanguage = {en},\n\tnumber = {7},\n\turldate = {2022-11-08},\n\tjournal = {Marine Drugs},\n\tauthor = {Tareen, Sanaullah and Schupp, Peter J. and Iqbal, Naveed and Wink, Joachim},\n\tmonth = jul,\n\tyear = {2022},\n\tpages = {463},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  The discovery of novel secondary metabolites is actively being pursued in new ecosystems. Sponge-associated bacteria have been in the limelight in recent years on account of their ability to produce bioactive compounds. In this study, heterotrophic bacteria associated with four sponge species were isolated, taxonomically identified, and subjected to screening for the production of bioactive entities against a panel of nine microorganisms, including Gram-positive and negative bacteria, as well as yeast and fungi. Of the 105 isolated strains, 66% were represented by Proteobacteria, 16% by Bacteriodetes, 7% by Actinobacteria, and 11% by Firmicutes. Bioactivity screening revealed that 40% of the total isolated strains showed antimicrobial activity against one or more of the target microorganisms tested. Further, active extracts from selective species were narrowed down by bioassay-guided fractionation and subsequently identified by HR-ESI-MS analyses to locate the active peaks. Presumably responsible compounds for the observed bioactivities were identified as pentadecenoic acid, oleic acid, and palmitoleic acid. One isolate, Qipengyuania pacifica NZ-96T, based on 16S rRNA novelty, was subjected to comparative metabolic reconstruction analysis with its closest phylogenetic neighbors, revealing 79 unique functional roles in the novel isolate. In addition, genome mining of Qipengyuania pacifica NZ-96T revealed three biosynthetic gene clusters responsible for the biosynthesis of terpene, beta lactone, lasso peptide, and hserlactone secondary metabolites. Our results demonstrate the ability to target the sponge microbiome as a potential source of novel microbial life with biotechnological potential.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"hildebrand-osterholz-bunse-grotheer-dittmar-schupp-transformationofdissolvedorganicmatterbytwoindopacificsponges-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1002/lno.12214\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'hildebrand-osterholz-bunse-grotheer-dittmar-schupp-transformationofdissolvedorganicmatterbytwoindopacificsponges-2022', 'https://onlinelibrary.wiley.com/doi/10.1002/lno.12214', event);\">\n    Transformation of dissolved organic matter by two Indo-Pacific sponges.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Hildebrand, T., Osterholz, H., Bunse, C., Grotheer, H., Dittmar, T.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Limnology and Oceanography</i>,lno.12214. September 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1002/lno.12214\"\n     onclick=\"log_download('hildebrand-osterholz-bunse-grotheer-dittmar-schupp-transformationofdissolvedorganicmatterbytwoindopacificsponges-2022', 'https://onlinelibrary.wiley.com/doi/10.1002/lno.12214', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Transformation of dissolved organic matter by two Indo-Pacific sponges [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1002/lno.12214\"\n     onclick=\"log_download('hildebrand-osterholz-bunse-grotheer-dittmar-schupp-transformationofdissolvedorganicmatterbytwoindopacificsponges-2022', 'http://doi.org/10.1002/lno.12214', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/hildebrand-osterholz-bunse-grotheer-dittmar-schupp-transformationofdissolvedorganicmatterbytwoindopacificsponges-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n  &nbsp;\n  <span class=\"bibbase_stats_paper\" style=\"color: #777;\">\n    <span>3 downloads</span>\n  </span>\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('hildebrand-osterholz-bunse-grotheer-dittmar-schupp-transformationofdissolvedorganicmatterbytwoindopacificsponges-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{hildebrand_transformation_2022,\n\ttitle = {Transformation of dissolved organic matter by two {Indo}-{Pacific} sponges},\n\tissn = {0024-3590, 1939-5590},\n\tshorttitle = {Transformation of dissolved organic matter by two {Indo}-{Pacific} sponges},\n\turl = {https://onlinelibrary.wiley.com/doi/10.1002/lno.12214},\n\tdoi = {10.1002/lno.12214},\n\tlanguage = {en},\n\turldate = {2022-11-08},\n\tjournal = {Limnology and Oceanography},\n\tauthor = {Hildebrand, Tabea and Osterholz, Helena and Bunse, Carina and Grotheer, Hendrik and Dittmar, Thorsten and Schupp, Peter J.},\n\tmonth = sep,\n\tyear = {2022},\n\tpages = {lno.12214},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"peixoto-voolstra-sweet-duarte-carvalho-villela-lunshof-gram-etal-harnessingthemicrobiometopreventglobalbiodiversityloss-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.nature.com/articles/s41564-022-01173-1\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'peixoto-voolstra-sweet-duarte-carvalho-villela-lunshof-gram-etal-harnessingthemicrobiometopreventglobalbiodiversityloss-2022', 'https://www.nature.com/articles/s41564-022-01173-1', event);\">\n    Harnessing the microbiome to prevent global biodiversity loss.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Peixoto, R. S., Voolstra, C. R., Sweet, M., Duarte, C. M., Carvalho, S., Villela, H., Lunshof, J. E., Gram, L., Woodhams, D. C., Walter, J., Roik, A., Hentschel, U., Thurber, R. V., Daisley, B., Ushijima, B., Daffonchio, D., Costa, R., Keller-Costa, T., Bowman, J. S., Rosado, A. S., Reid, G., Mason, C. E., Walke, J. B., Thomas, T.,  &amp; Berg, G.\n</span>\n\n  \n\n</span>\n\n  <i>Nature Microbiology</i>, 7(11): 1726–1735. July 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.nature.com/articles/s41564-022-01173-1\"\n     onclick=\"log_download('peixoto-voolstra-sweet-duarte-carvalho-villela-lunshof-gram-etal-harnessingthemicrobiometopreventglobalbiodiversityloss-2022', 'https://www.nature.com/articles/s41564-022-01173-1', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Harnessing the microbiome to prevent global biodiversity loss [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1038/s41564-022-01173-1\"\n     onclick=\"log_download('peixoto-voolstra-sweet-duarte-carvalho-villela-lunshof-gram-etal-harnessingthemicrobiometopreventglobalbiodiversityloss-2022', 'http://doi.org/10.1038/s41564-022-01173-1', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/peixoto-voolstra-sweet-duarte-carvalho-villela-lunshof-gram-etal-harnessingthemicrobiometopreventglobalbiodiversityloss-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('peixoto-voolstra-sweet-duarte-carvalho-villela-lunshof-gram-etal-harnessingthemicrobiometopreventglobalbiodiversityloss-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{peixoto_harnessing_2022,\n\ttitle = {Harnessing the microbiome to prevent global biodiversity loss},\n\tvolume = {7},\n\tissn = {2058-5276},\n\turl = {https://www.nature.com/articles/s41564-022-01173-1},\n\tdoi = {10.1038/s41564-022-01173-1},\n\tlanguage = {en},\n\tnumber = {11},\n\turldate = {2022-11-08},\n\tjournal = {Nature Microbiology},\n\tauthor = {Peixoto, Raquel S. and Voolstra, Christian R. and Sweet, Michael and Duarte, Carlos M. and Carvalho, Susana and Villela, Helena and Lunshof, Jeantine E. and Gram, Lone and Woodhams, Douglas C. and Walter, Jens and Roik, Anna and Hentschel, Ute and Thurber, Rebecca Vega and Daisley, Brendan and Ushijima, Blake and Daffonchio, Daniele and Costa, Rodrigo and Keller-Costa, Tina and Bowman, Jeff S. and Rosado, Alexandre S. and Reid, Gregor and Mason, Christopher E. and Walke, Jenifer B. and Thomas, Torsten and Berg, Gabriele},\n\tmonth = jul,\n\tyear = {2022},\n\tpages = {1726--1735},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"bertram-krten-bichet-schupp-bouwhuis-mercurycontaminationlevelisrepeatableandpredictedbywinteringareainalongdistancemigratoryseabird-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0269749122013215\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'bertram-krten-bichet-schupp-bouwhuis-mercurycontaminationlevelisrepeatableandpredictedbywinteringareainalongdistancemigratoryseabird-2022', 'https://linkinghub.elsevier.com/retrieve/pii/S0269749122013215', event);\">\n    Mercury contamination level is repeatable and predicted by wintering area in a long-distance migratory seabird.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Bertram, J., Kürten, N., Bichet, C., Schupp, P. J.,  &amp; Bouwhuis, S.\n</span>\n\n  \n\n</span>\n\n  <i>Environmental Pollution</i>, 313: 120107. November 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0269749122013215\"\n     onclick=\"log_download('bertram-krten-bichet-schupp-bouwhuis-mercurycontaminationlevelisrepeatableandpredictedbywinteringareainalongdistancemigratoryseabird-2022', 'https://linkinghub.elsevier.com/retrieve/pii/S0269749122013215', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Mercury contamination level is repeatable and predicted by wintering area in a long-distance migratory seabird [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.envpol.2022.120107\"\n     onclick=\"log_download('bertram-krten-bichet-schupp-bouwhuis-mercurycontaminationlevelisrepeatableandpredictedbywinteringareainalongdistancemigratoryseabird-2022', 'http://doi.org/10.1016/j.envpol.2022.120107', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/bertram-krten-bichet-schupp-bouwhuis-mercurycontaminationlevelisrepeatableandpredictedbywinteringareainalongdistancemigratoryseabird-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('bertram-krten-bichet-schupp-bouwhuis-mercurycontaminationlevelisrepeatableandpredictedbywinteringareainalongdistancemigratoryseabird-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{bertram_mercury_2022,\n\ttitle = {Mercury contamination level is repeatable and predicted by wintering area in a long-distance migratory seabird},\n\tvolume = {313},\n\tissn = {02697491},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0269749122013215},\n\tdoi = {10.1016/j.envpol.2022.120107},\n\tlanguage = {en},\n\turldate = {2022-11-08},\n\tjournal = {Environmental Pollution},\n\tauthor = {Bertram, Justine and Kürten, Nathalie and Bichet, Coraline and Schupp, Peter J. and Bouwhuis, Sandra},\n\tmonth = nov,\n\tyear = {2022},\n\tpages = {120107},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"roik-reverter-pogoreutz-aroadmaptounderstandingdiversityandfunctionofcoralreefassociatedfungi-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://academic.oup.com/femsre/article/doi/10.1093/femsre/fuac028/6615459\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'roik-reverter-pogoreutz-aroadmaptounderstandingdiversityandfunctionofcoralreefassociatedfungi-2022', 'https://academic.oup.com/femsre/article/doi/10.1093/femsre/fuac028/6615459', event);\">\n    A roadmap to understanding diversity and function of coral reef-associated fungi.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Roik, A., Reverter, M.,  &amp; Pogoreutz, C.\n</span>\n\n  \n\n</span>\n\n  <i>FEMS Microbiology Reviews</i>, 46(6): fuac028. November 2022.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://academic.oup.com/femsre/article/doi/10.1093/femsre/fuac028/6615459\"\n     onclick=\"log_download('roik-reverter-pogoreutz-aroadmaptounderstandingdiversityandfunctionofcoralreefassociatedfungi-2022', 'https://academic.oup.com/femsre/article/doi/10.1093/femsre/fuac028/6615459', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"A roadmap to understanding diversity and function of coral reef-associated fungi [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1093/femsre/fuac028\"\n     onclick=\"log_download('roik-reverter-pogoreutz-aroadmaptounderstandingdiversityandfunctionofcoralreefassociatedfungi-2022', 'http://doi.org/10.1093/femsre/fuac028', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/roik-reverter-pogoreutz-aroadmaptounderstandingdiversityandfunctionofcoralreefassociatedfungi-2022\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n  &nbsp;\n  <span class=\"bibbase_stats_paper\" style=\"color: #777;\">\n    <span>1 download</span>\n  </span>\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('roik-reverter-pogoreutz-aroadmaptounderstandingdiversityandfunctionofcoralreefassociatedfungi-2022')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{roik_roadmap_2022,\n\ttitle = {A roadmap to understanding diversity and function of coral reef-associated fungi},\n\tvolume = {46},\n\tissn = {1574-6976},\n\turl = {https://academic.oup.com/femsre/article/doi/10.1093/femsre/fuac028/6615459},\n\tdoi = {10.1093/femsre/fuac028},\n\tabstract = {Abstract\n            Tropical coral reefs are hotspots of marine productivity, owing to the association of reef-building corals with endosymbiotic algae and metabolically diverse bacterial communities. However, the functional importance of fungi, well-known for their contribution to shaping terrestrial ecosystems and global nutrient cycles, remains underexplored on coral reefs. We here conceptualize how fungal functional traits may have facilitated the spread, diversification, and ecological adaptation of marine fungi on coral reefs. We propose that functions of reef-associated fungi may be diverse and go beyond their hitherto described roles of pathogens and bioeroders, including but not limited to reef-scale biogeochemical cycles and the structuring of coral-associated and environmental microbiomes via chemical mediation. Recent technological and conceptual advances will allow the elucidation of the physiological, ecological, and chemical contributions of understudied marine fungi to coral holobiont and reef ecosystem functioning and health and may help provide an outlook for reef management actions.},\n\tlanguage = {en},\n\tnumber = {6},\n\turldate = {2022-11-08},\n\tjournal = {FEMS Microbiology Reviews},\n\tauthor = {Roik, Anna and Reverter, Miriam and Pogoreutz, Claudia},\n\tmonth = nov,\n\tyear = {2022},\n\tpages = {fuac028},\n}\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract Tropical coral reefs are hotspots of marine productivity, owing to the association of reef-building corals with endosymbiotic algae and metabolically diverse bacterial communities. However, the functional importance of fungi, well-known for their contribution to shaping terrestrial ecosystems and global nutrient cycles, remains underexplored on coral reefs. We here conceptualize how fungal functional traits may have facilitated the spread, diversification, and ecological adaptation of marine fungi on coral reefs. We propose that functions of reef-associated fungi may be diverse and go beyond their hitherto described roles of pathogens and bioeroders, including but not limited to reef-scale biogeochemical cycles and the structuring of coral-associated and environmental microbiomes via chemical mediation. Recent technological and conceptual advances will allow the elucidation of the physiological, ecological, and chemical contributions of understudied marine fungi to coral holobiont and reef ecosystem functioning and health and may help provide an outlook for reef management actions.\n</div>\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2021\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2021')\"\n      onkeypress=\"toggleGroup('group_2021')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2021</span>\n      <span class=\"bibbase_group_count\">\n        \n        (15)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"pawlowski-moeller-miller-kellermann-schupp-petersenthiery-uvfiltersusedinsunscreensalackincurrentcoralprotection-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1002/ieam.4454\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'pawlowski-moeller-miller-kellermann-schupp-petersenthiery-uvfiltersusedinsunscreensalackincurrentcoralprotection-2021', 'https://onlinelibrary.wiley.com/doi/10.1002/ieam.4454', event);\">\n    UV filters used in sunscreens—A lack in current coral protection?.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Pawlowski, S., Moeller, M., Miller, I. B., Kellermann, M. Y., Schupp, P. J.,  &amp; Petersen‐Thiery, M.\n</span>\n\n  \n\n</span>\n\n  <i>Integrated Environmental Assessment and Management</i>, 17(5): 926–939. September 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1002/ieam.4454\"\n     onclick=\"log_download('pawlowski-moeller-miller-kellermann-schupp-petersenthiery-uvfiltersusedinsunscreensalackincurrentcoralprotection-2021', 'https://onlinelibrary.wiley.com/doi/10.1002/ieam.4454', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"UV filters used in sunscreens—A lack in current coral protection? [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1002/ieam.4454\"\n     onclick=\"log_download('pawlowski-moeller-miller-kellermann-schupp-petersenthiery-uvfiltersusedinsunscreensalackincurrentcoralprotection-2021', 'http://doi.org/10.1002/ieam.4454', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/pawlowski-moeller-miller-kellermann-schupp-petersenthiery-uvfiltersusedinsunscreensalackincurrentcoralprotection-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('pawlowski-moeller-miller-kellermann-schupp-petersenthiery-uvfiltersusedinsunscreensalackincurrentcoralprotection-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{pawlowski_uv_2021,\n\ttitle = {{UV} filters used in sunscreens—{A} lack in current coral protection?},\n\tvolume = {17},\n\tissn = {1551-3777, 1551-3793},\n\turl = {https://onlinelibrary.wiley.com/doi/10.1002/ieam.4454},\n\tdoi = {10.1002/ieam.4454},\n\tlanguage = {en},\n\tnumber = {5},\n\turldate = {2022-11-09},\n\tjournal = {Integrated Environmental Assessment and Management},\n\tauthor = {Pawlowski, Sascha and Moeller, Mareen and Miller, Ingo B. and Kellermann, Matthias Y. and Schupp, Peter J. and Petersen‐Thiery, Mechtild},\n\tmonth = sep,\n\tyear = {2021},\n\tpages = {926--939},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"bonthond-bayer-kruegerhadfield-strck-wang-nakaoka-knzel-weinberger-theroleofhostpromiscuityintheinvasionprocessofaseaweedholobiont-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://www.nature.com/articles/s41396-020-00878-7\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'bonthond-bayer-kruegerhadfield-strck-wang-nakaoka-knzel-weinberger-theroleofhostpromiscuityintheinvasionprocessofaseaweedholobiont-2021', 'http://www.nature.com/articles/s41396-020-00878-7', event);\">\n    The role of host promiscuity in the invasion process of a seaweed holobiont.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Bonthond, G., Bayer, T., Krueger-Hadfield, S. A., Stärck, N., Wang, G., Nakaoka, M., Künzel, S.,  &amp; Weinberger, F.\n</span>\n\n  \n\n</span>\n\n  <i>The ISME Journal</i>, 15(6): 1668–1679. June 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://www.nature.com/articles/s41396-020-00878-7\"\n     onclick=\"log_download('bonthond-bayer-kruegerhadfield-strck-wang-nakaoka-knzel-weinberger-theroleofhostpromiscuityintheinvasionprocessofaseaweedholobiont-2021', 'http://www.nature.com/articles/s41396-020-00878-7', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"The role of host promiscuity in the invasion process of a seaweed holobiont [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1038/s41396-020-00878-7\"\n     onclick=\"log_download('bonthond-bayer-kruegerhadfield-strck-wang-nakaoka-knzel-weinberger-theroleofhostpromiscuityintheinvasionprocessofaseaweedholobiont-2021', 'http://doi.org/10.1038/s41396-020-00878-7', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/bonthond-bayer-kruegerhadfield-strck-wang-nakaoka-knzel-weinberger-theroleofhostpromiscuityintheinvasionprocessofaseaweedholobiont-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('bonthond-bayer-kruegerhadfield-strck-wang-nakaoka-knzel-weinberger-theroleofhostpromiscuityintheinvasionprocessofaseaweedholobiont-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{bonthond_role_2021,\n\ttitle = {The role of host promiscuity in the invasion process of a seaweed holobiont},\n\tvolume = {15},\n\tcopyright = {Creative Commons Attribution 4.0 International License (CC-BY)},\n\tissn = {1751-7362, 1751-7370},\n\turl = {http://www.nature.com/articles/s41396-020-00878-7},\n\tdoi = {10.1038/s41396-020-00878-7},\n\tabstract = {Invasive species are co-introduced with microbiota from their native range and also interact with microbiota found in the novel environment to which they are introduced. Host flexibility toward microbiota, or host promiscuity, is an important trait underlying terrestrial plant invasions. To test whether host promiscuity may be important in macroalgal invasions, we experimentally simulated an invasion in a common garden setting, using the widespread invasive macroalga Agarophyton vermiculophyllum as a model invasive seaweed holobiont. After disturbing the microbiota of individuals from native and non-native populations with antibiotics, we monitored the microbial succession trajectories in the presence of a new source of microbes. Microbial communities were strongly impacted by the treatment and changed compositionally and in terms of diversity but recovered functionally by the end of the experiment in most respects. Beta-diversity in disturbed holobionts strongly decreased, indicating that different populations configure more similar –or more common– microbial communities when exposed to the same conditions. This decline in beta-diversity occurred not only more rapidly, but was also more pronounced in non-native populations, while individuals from native populations retained communities more similar to those observed in the field. This study demonstrates that microbial communities of non-native A. vermiculophyllum are more flexibly adjusted to the environment and suggests that an intraspecific increase in host promiscuity has promoted the invasion process of A. vermiculophyllum. This phenomenon may be important among invasive macroalgal holobionts in general.},\n\tlanguage = {en},\n\tnumber = {6},\n\turldate = {2022-11-09},\n\tjournal = {The ISME Journal},\n\tauthor = {Bonthond, Guido and Bayer, Till and Krueger-Hadfield, Stacy A. and Stärck, Nadja and Wang, Gaoge and Nakaoka, Masahiro and Künzel, Sven and Weinberger, Florian},\n\tmonth = jun,\n\tyear = {2021},\n\tpages = {1668--1679},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Invasive species are co-introduced with microbiota from their native range and also interact with microbiota found in the novel environment to which they are introduced. Host flexibility toward microbiota, or host promiscuity, is an important trait underlying terrestrial plant invasions. To test whether host promiscuity may be important in macroalgal invasions, we experimentally simulated an invasion in a common garden setting, using the widespread invasive macroalga Agarophyton vermiculophyllum as a model invasive seaweed holobiont. After disturbing the microbiota of individuals from native and non-native populations with antibiotics, we monitored the microbial succession trajectories in the presence of a new source of microbes. Microbial communities were strongly impacted by the treatment and changed compositionally and in terms of diversity but recovered functionally by the end of the experiment in most respects. Beta-diversity in disturbed holobionts strongly decreased, indicating that different populations configure more similar –or more common– microbial communities when exposed to the same conditions. This decline in beta-diversity occurred not only more rapidly, but was also more pronounced in non-native populations, while individuals from native populations retained communities more similar to those observed in the field. This study demonstrates that microbial communities of non-native A. vermiculophyllum are more flexibly adjusted to the environment and suggests that an intraspecific increase in host promiscuity has promoted the invasion process of A. vermiculophyllum. This phenomenon may be important among invasive macroalgal holobionts in general.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"kruegerhadfield-byers-bonthond-terada-weinberger-sotka-intraspecificdiversityandgeneticstructureinthewidespreadmacroalgaiagarophytonvermiculophyllumi-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1111/jpy.13195\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'kruegerhadfield-byers-bonthond-terada-weinberger-sotka-intraspecificdiversityandgeneticstructureinthewidespreadmacroalgaiagarophytonvermiculophyllumi-2021', 'https://onlinelibrary.wiley.com/doi/10.1111/jpy.13195', event);\">\n    Intraspecific diversity and genetic structure in the widespread macroalga <i>Agarophyton vermiculophyllum</i>.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Krueger‐Hadfield, S. A., Byers, J. E., Bonthond, G., Terada, R., Weinberger, F.,  &amp; Sotka, E. E.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Phycology</i>, 57(5): 1403–1410. October 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1111/jpy.13195\"\n     onclick=\"log_download('kruegerhadfield-byers-bonthond-terada-weinberger-sotka-intraspecificdiversityandgeneticstructureinthewidespreadmacroalgaiagarophytonvermiculophyllumi-2021', 'https://onlinelibrary.wiley.com/doi/10.1111/jpy.13195', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Intraspecific diversity and genetic structure in the widespread macroalga &lt;i&gt;Agarophyton vermiculophyllum&lt;/i&gt; [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1111/jpy.13195\"\n     onclick=\"log_download('kruegerhadfield-byers-bonthond-terada-weinberger-sotka-intraspecificdiversityandgeneticstructureinthewidespreadmacroalgaiagarophytonvermiculophyllumi-2021', 'http://doi.org/10.1111/jpy.13195', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/kruegerhadfield-byers-bonthond-terada-weinberger-sotka-intraspecificdiversityandgeneticstructureinthewidespreadmacroalgaiagarophytonvermiculophyllumi-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('kruegerhadfield-byers-bonthond-terada-weinberger-sotka-intraspecificdiversityandgeneticstructureinthewidespreadmacroalgaiagarophytonvermiculophyllumi-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{kruegerhadfield_intraspecific_2021,\n\ttitle = {Intraspecific diversity and genetic structure in the widespread macroalga \\textit{{Agarophyton} vermiculophyllum}},\n\tvolume = {57},\n\tissn = {0022-3646, 1529-8817},\n\turl = {https://onlinelibrary.wiley.com/doi/10.1111/jpy.13195},\n\tdoi = {10.1111/jpy.13195},\n\tlanguage = {en},\n\tnumber = {5},\n\turldate = {2022-11-03},\n\tjournal = {Journal of Phycology},\n\tauthor = {Krueger‐Hadfield, Stacy A. and Byers, James E. and Bonthond, Guido and Terada, Ryuta and Weinberger, Florian and Sotka, Erik E.},\n\teditor = {Graham, Michael},\n\tmonth = oct,\n\tyear = {2021},\n\tpages = {1403--1410},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"bonthond-shalygin-bayer-weinberger-draftgenomeanddescriptionofwaterburyaagarophytonicolagennovspnovpleurocapsalescyanobacteriaaseaweedsymbiont-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://link.springer.com/10.1007/s10482-021-01672-x\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'bonthond-shalygin-bayer-weinberger-draftgenomeanddescriptionofwaterburyaagarophytonicolagennovspnovpleurocapsalescyanobacteriaaseaweedsymbiont-2021', 'https://link.springer.com/10.1007/s10482-021-01672-x', event);\">\n    Draft genome and description of Waterburya agarophytonicola gen. nov. sp. nov. (Pleurocapsales, Cyanobacteria): a seaweed symbiont.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Bonthond, G., Shalygin, S., Bayer, T.,  &amp; Weinberger, F.\n</span>\n\n  \n\n</span>\n\n  <i>Antonie van Leeuwenhoek</i>, 114(12): 2189–2203. December 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://link.springer.com/10.1007/s10482-021-01672-x\"\n     onclick=\"log_download('bonthond-shalygin-bayer-weinberger-draftgenomeanddescriptionofwaterburyaagarophytonicolagennovspnovpleurocapsalescyanobacteriaaseaweedsymbiont-2021', 'https://link.springer.com/10.1007/s10482-021-01672-x', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Draft genome and description of Waterburya agarophytonicola gen. nov. sp. nov. (Pleurocapsales, Cyanobacteria): a seaweed symbiont [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s10482-021-01672-x\"\n     onclick=\"log_download('bonthond-shalygin-bayer-weinberger-draftgenomeanddescriptionofwaterburyaagarophytonicolagennovspnovpleurocapsalescyanobacteriaaseaweedsymbiont-2021', 'http://doi.org/10.1007/s10482-021-01672-x', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/bonthond-shalygin-bayer-weinberger-draftgenomeanddescriptionofwaterburyaagarophytonicolagennovspnovpleurocapsalescyanobacteriaaseaweedsymbiont-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('bonthond-shalygin-bayer-weinberger-draftgenomeanddescriptionofwaterburyaagarophytonicolagennovspnovpleurocapsalescyanobacteriaaseaweedsymbiont-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{bonthond_draft_2021,\n\ttitle = {Draft genome and description of {Waterburya} agarophytonicola gen. nov. sp. nov. ({Pleurocapsales}, {Cyanobacteria}): a seaweed symbiont},\n\tvolume = {114},\n\tissn = {0003-6072, 1572-9699},\n\tshorttitle = {Draft genome and description of {Waterburya} agarophytonicola gen. nov. sp. nov. ({Pleurocapsales}, {Cyanobacteria})},\n\turl = {https://link.springer.com/10.1007/s10482-021-01672-x},\n\tdoi = {10.1007/s10482-021-01672-x},\n\tabstract = {Abstract\n            \n              This work introduces\n              Waterburya agarophytonicola\n              Bonthond and Shalygin gen. nov., sp. nov, a baeocyte producing cyanobacterium that was isolated from the rhodophyte\n              Agarophyton vermiculophyllum\n              (Ohmi) Gurgel et al., an invasive seaweed that has spread across the northern hemisphere. The new species genome reveals a diverse repertoire of chemotaxis and adhesion related genes, including genes coding for type IV pili assembly proteins and a high number of genes coding for filamentous hemagglutinin family (FHA) proteins. Among a genetic basis for the synthesis of siderophores, carotenoids and numerous vitamins,\n              W. agarophytonicola\n              is potentially capable of producing cobalamin (vitamin B\n              12\n              ), for which\n              A\n              .\n              vermiculophyllum\n              is an auxotroph. With a taxonomic description of the genus and species and a draft genome, this study provides as a basis for future research, to uncover the nature of this geographically independent association between seaweed and cyanobiont.},\n\tlanguage = {en},\n\tnumber = {12},\n\turldate = {2022-11-03},\n\tjournal = {Antonie van Leeuwenhoek},\n\tauthor = {Bonthond, Guido and Shalygin, Sergei and Bayer, Till and Weinberger, Florian},\n\tmonth = dec,\n\tyear = {2021},\n\tpages = {2189--2203},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract This work introduces Waterburya agarophytonicola Bonthond and Shalygin gen. nov., sp. nov, a baeocyte producing cyanobacterium that was isolated from the rhodophyte Agarophyton vermiculophyllum (Ohmi) Gurgel et al., an invasive seaweed that has spread across the northern hemisphere. The new species genome reveals a diverse repertoire of chemotaxis and adhesion related genes, including genes coding for type IV pili assembly proteins and a high number of genes coding for filamentous hemagglutinin family (FHA) proteins. Among a genetic basis for the synthesis of siderophores, carotenoids and numerous vitamins, W. agarophytonicola is potentially capable of producing cobalamin (vitamin B 12 ), for which A . vermiculophyllum is an auxotroph. With a taxonomic description of the genus and species and a draft genome, this study provides as a basis for future research, to uncover the nature of this geographically independent association between seaweed and cyanobiont.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"reverter-jackson-rohde-moeller-bara-lasut-segrereinach-schupp-hightaxonomicresolutionsurveysandtraitbasedanalysesrevealmultiplebenthicregimesinnorthsulawesiindonesia-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.nature.com/articles/s41598-021-95905-8\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'reverter-jackson-rohde-moeller-bara-lasut-segrereinach-schupp-hightaxonomicresolutionsurveysandtraitbasedanalysesrevealmultiplebenthicregimesinnorthsulawesiindonesia-2021', 'https://www.nature.com/articles/s41598-021-95905-8', event);\">\n    High taxonomic resolution surveys and trait-based analyses reveal multiple benthic regimes in North Sulawesi (Indonesia).\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Reverter, M., Jackson, M., Rohde, S., Moeller, M., Bara, R., Lasut, M. T., Segre Reinach, M.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Scientific Reports</i>, 11(1): 16554. December 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.nature.com/articles/s41598-021-95905-8\"\n     onclick=\"log_download('reverter-jackson-rohde-moeller-bara-lasut-segrereinach-schupp-hightaxonomicresolutionsurveysandtraitbasedanalysesrevealmultiplebenthicregimesinnorthsulawesiindonesia-2021', 'https://www.nature.com/articles/s41598-021-95905-8', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"High taxonomic resolution surveys and trait-based analyses reveal multiple benthic regimes in North Sulawesi (Indonesia) [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1038/s41598-021-95905-8\"\n     onclick=\"log_download('reverter-jackson-rohde-moeller-bara-lasut-segrereinach-schupp-hightaxonomicresolutionsurveysandtraitbasedanalysesrevealmultiplebenthicregimesinnorthsulawesiindonesia-2021', 'http://doi.org/10.1038/s41598-021-95905-8', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/reverter-jackson-rohde-moeller-bara-lasut-segrereinach-schupp-hightaxonomicresolutionsurveysandtraitbasedanalysesrevealmultiplebenthicregimesinnorthsulawesiindonesia-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('reverter-jackson-rohde-moeller-bara-lasut-segrereinach-schupp-hightaxonomicresolutionsurveysandtraitbasedanalysesrevealmultiplebenthicregimesinnorthsulawesiindonesia-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{reverter_high_2021,\n\ttitle = {High taxonomic resolution surveys and trait-based analyses reveal multiple benthic regimes in {North} {Sulawesi} ({Indonesia})},\n\tvolume = {11},\n\tissn = {2045-2322},\n\turl = {https://www.nature.com/articles/s41598-021-95905-8},\n\tdoi = {10.1038/s41598-021-95905-8},\n\tabstract = {Abstract\n            As coral reef communities change and reorganise in response to increasing disturbances, there is a growing need for understanding species regimes and their contribution to ecosystem processes. Using a case study on coral reefs at the epicentre of tropical marine biodiversity (North Sulawesi, Indonesia), we explored how application of different biodiversity approaches (i.e., use of major taxonomic categories, high taxonomic resolution categories and trait-based approaches) affects the detection of distinct fish and benthic communities. Our results show that using major categories fails to identify distinct coral reef regimes. We also show that monitoring of only scleractinian coral communities is insufficient to detect different benthic regimes, especially communities dominated by non-coral organisms, and that all types of benthic organisms need to be considered. We have implemented the use of a trait-based approach to study the functional diversity of whole coral reef benthic assemblages, which allowed us to detect five different community regimes, only one of which was dominated by scleractinian corals. Furthermore, by the parallel study of benthic and fish communities we provide new insights into key processes and functions that might dominate or be compromised in the different community regimes.},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Scientific Reports},\n\tauthor = {Reverter, Miriam and Jackson, Matthew and Rohde, Sven and Moeller, Mareen and Bara, Robert and Lasut, Markus T. and Segre Reinach, Marco and Schupp, Peter J.},\n\tmonth = dec,\n\tyear = {2021},\n\tpages = {16554},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract As coral reef communities change and reorganise in response to increasing disturbances, there is a growing need for understanding species regimes and their contribution to ecosystem processes. Using a case study on coral reefs at the epicentre of tropical marine biodiversity (North Sulawesi, Indonesia), we explored how application of different biodiversity approaches (i.e., use of major taxonomic categories, high taxonomic resolution categories and trait-based approaches) affects the detection of distinct fish and benthic communities. Our results show that using major categories fails to identify distinct coral reef regimes. We also show that monitoring of only scleractinian coral communities is insufficient to detect different benthic regimes, especially communities dominated by non-coral organisms, and that all types of benthic organisms need to be considered. We have implemented the use of a trait-based approach to study the functional diversity of whole coral reef benthic assemblages, which allowed us to detect five different community regimes, only one of which was dominated by scleractinian corals. Furthermore, by the parallel study of benthic and fish communities we provide new insights into key processes and functions that might dominate or be compromised in the different community regimes.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"miller-pawlowski-kellermann-petersenthiery-moeller-nietzer-schupp-toxiceffectsofuvfiltersfromsunscreensoncoralreefsrevisitedregulatoryaspectsforreefsafeproducts-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://enveurope.springeropen.com/articles/10.1186/s12302-021-00515-w\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'miller-pawlowski-kellermann-petersenthiery-moeller-nietzer-schupp-toxiceffectsofuvfiltersfromsunscreensoncoralreefsrevisitedregulatoryaspectsforreefsafeproducts-2021', 'https://enveurope.springeropen.com/articles/10.1186/s12302-021-00515-w', event);\">\n    Toxic effects of UV filters from sunscreens on coral reefs revisited: regulatory aspects for “reef safe” products.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Miller, I. B., Pawlowski, S., Kellermann, M. Y., Petersen-Thiery, M., Moeller, M., Nietzer, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Environmental Sciences Europe</i>, 33(1): 74. December 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://enveurope.springeropen.com/articles/10.1186/s12302-021-00515-w\"\n     onclick=\"log_download('miller-pawlowski-kellermann-petersenthiery-moeller-nietzer-schupp-toxiceffectsofuvfiltersfromsunscreensoncoralreefsrevisitedregulatoryaspectsforreefsafeproducts-2021', 'https://enveurope.springeropen.com/articles/10.1186/s12302-021-00515-w', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Toxic effects of UV filters from sunscreens on coral reefs revisited: regulatory aspects for “reef safe” products [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1186/s12302-021-00515-w\"\n     onclick=\"log_download('miller-pawlowski-kellermann-petersenthiery-moeller-nietzer-schupp-toxiceffectsofuvfiltersfromsunscreensoncoralreefsrevisitedregulatoryaspectsforreefsafeproducts-2021', 'http://doi.org/10.1186/s12302-021-00515-w', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/miller-pawlowski-kellermann-petersenthiery-moeller-nietzer-schupp-toxiceffectsofuvfiltersfromsunscreensoncoralreefsrevisitedregulatoryaspectsforreefsafeproducts-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('miller-pawlowski-kellermann-petersenthiery-moeller-nietzer-schupp-toxiceffectsofuvfiltersfromsunscreensoncoralreefsrevisitedregulatoryaspectsforreefsafeproducts-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{miller_toxic_2021,\n\ttitle = {Toxic effects of {UV} filters from sunscreens on coral reefs revisited: regulatory aspects for “reef safe” products},\n\tvolume = {33},\n\tissn = {2190-4707, 2190-4715},\n\tshorttitle = {Toxic effects of {UV} filters from sunscreens on coral reefs revisited},\n\turl = {https://enveurope.springeropen.com/articles/10.1186/s12302-021-00515-w},\n\tdoi = {10.1186/s12302-021-00515-w},\n\tabstract = {Abstract\n            \n              Background\n              Tropical coral reefs have been recognized for their significant ecological and economical value. However, increasing anthropogenic disturbances have led to progressively declining coral reef ecosystems on a global scale. More recently, several studies implicated UV filters used in sunscreen products to negatively affect corals and possibly contribute to regional trends in coral decline. Following a public debate, bans were implemented on several organic UV filters and sunscreen products in different locations including Hawaii, the U.S. Virgin Islands and Palau. This included banning the widely used oxybenzone and octinoxate, while promoting the use of inorganic filters such as zinc oxide even although their toxicity towards aquatic organisms had been documented previously. The bans of organic UV filters were based on preliminary scientific studies that showed several weaknesses as there is to this point no standardized testing scheme for scleractinian corals. Despite the lack of sound scientific proof, the latter controversial bans have already resulted in the emergence of a new sunscreen market for products claimed to be ‘reef safe’ (or similar). Thus, a market analysis of ‘reef safe’ sunscreen products was conducted to assess relevant environmental safety aspects of approved UV filters, especially for coral reefs. Further, a scientifically sound decision-making process in a regulatory context is proposed.\n            \n            \n              Results\n              Our market analysis revealed that about 80\\% of surveyed sunscreens contained inorganic UV filters and that there is a variety of unregulated claims being used in the marketing of ‘reef safe’ products with ‘reef friendly’ being the most frequently used term. Predominantly, four organic UV filters are used in ‘reef safe’ sunscreens in the absence of the banned filters oxybenzone and octinoxate. Analysis of safe threshold concentrations for marine water retrieved from existing REACH registration dossiers could currently also safeguard corals.\n            \n            \n              Conclusion\n              There is a substantial discrepancy of treatments of organic versus inorganic UV filters in politics as well as in the ‘reef safe’ sunscreen market, which to this point is not scientifically justified. Thus, a risk-based approach with equal consideration of organic and inorganic UV filters is recommended for future regulatory measures as well as a clear definition and regulation of the ‘reef safe’ terminology.},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Environmental Sciences Europe},\n\tauthor = {Miller, Ingo B. and Pawlowski, Sascha and Kellermann, Matthias Y. and Petersen-Thiery, Mechtild and Moeller, Mareen and Nietzer, Samuel and Schupp, Peter J.},\n\tmonth = dec,\n\tyear = {2021},\n\tpages = {74},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract Background Tropical coral reefs have been recognized for their significant ecological and economical value. However, increasing anthropogenic disturbances have led to progressively declining coral reef ecosystems on a global scale. More recently, several studies implicated UV filters used in sunscreen products to negatively affect corals and possibly contribute to regional trends in coral decline. Following a public debate, bans were implemented on several organic UV filters and sunscreen products in different locations including Hawaii, the U.S. Virgin Islands and Palau. This included banning the widely used oxybenzone and octinoxate, while promoting the use of inorganic filters such as zinc oxide even although their toxicity towards aquatic organisms had been documented previously. The bans of organic UV filters were based on preliminary scientific studies that showed several weaknesses as there is to this point no standardized testing scheme for scleractinian corals. Despite the lack of sound scientific proof, the latter controversial bans have already resulted in the emergence of a new sunscreen market for products claimed to be ‘reef safe’ (or similar). Thus, a market analysis of ‘reef safe’ sunscreen products was conducted to assess relevant environmental safety aspects of approved UV filters, especially for coral reefs. Further, a scientifically sound decision-making process in a regulatory context is proposed. Results Our market analysis revealed that about 80% of surveyed sunscreens contained inorganic UV filters and that there is a variety of unregulated claims being used in the marketing of ‘reef safe’ products with ‘reef friendly’ being the most frequently used term. Predominantly, four organic UV filters are used in ‘reef safe’ sunscreens in the absence of the banned filters oxybenzone and octinoxate. Analysis of safe threshold concentrations for marine water retrieved from existing REACH registration dossiers could currently also safeguard corals. Conclusion There is a substantial discrepancy of treatments of organic versus inorganic UV filters in politics as well as in the ‘reef safe’ sunscreen market, which to this point is not scientifically justified. Thus, a risk-based approach with equal consideration of organic and inorganic UV filters is recommended for future regulatory measures as well as a clear definition and regulation of the ‘reef safe’ terminology.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"wibowo-kellermann-kck-putra-murniasih-mohr-wink-praditya-etal-antiinfectiveandantiviralactivityofvalinomycinanditsanaloguesfromaseacucumberassociatedbacteriumstreptomycesspsv21-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/1660-3397/19/2/81\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'wibowo-kellermann-kck-putra-murniasih-mohr-wink-praditya-etal-antiinfectiveandantiviralactivityofvalinomycinanditsanaloguesfromaseacucumberassociatedbacteriumstreptomycesspsv21-2021', 'https://www.mdpi.com/1660-3397/19/2/81', event);\">\n    Anti-Infective and Antiviral Activity of Valinomycin and Its Analogues from a Sea Cucumber-Associated Bacterium, Streptomyces sp. SV 21.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Wibowo, J. T., Kellermann, M. Y., Köck, M., Putra, M. Y., Murniasih, T., Mohr, K. I., Wink, J., Praditya, D. F., Steinmann, E.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Drugs</i>, 19(2): 81. February 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/1660-3397/19/2/81\"\n     onclick=\"log_download('wibowo-kellermann-kck-putra-murniasih-mohr-wink-praditya-etal-antiinfectiveandantiviralactivityofvalinomycinanditsanaloguesfromaseacucumberassociatedbacteriumstreptomycesspsv21-2021', 'https://www.mdpi.com/1660-3397/19/2/81', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Anti-Infective and Antiviral Activity of Valinomycin and Its Analogues from a Sea Cucumber-Associated Bacterium, Streptomyces sp. SV 21 [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/md19020081\"\n     onclick=\"log_download('wibowo-kellermann-kck-putra-murniasih-mohr-wink-praditya-etal-antiinfectiveandantiviralactivityofvalinomycinanditsanaloguesfromaseacucumberassociatedbacteriumstreptomycesspsv21-2021', 'http://doi.org/10.3390/md19020081', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/wibowo-kellermann-kck-putra-murniasih-mohr-wink-praditya-etal-antiinfectiveandantiviralactivityofvalinomycinanditsanaloguesfromaseacucumberassociatedbacteriumstreptomycesspsv21-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n  &nbsp;\n  <span class=\"bibbase_stats_paper\" style=\"color: #777;\">\n    <span>1 download</span>\n  </span>\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('wibowo-kellermann-kck-putra-murniasih-mohr-wink-praditya-etal-antiinfectiveandantiviralactivityofvalinomycinanditsanaloguesfromaseacucumberassociatedbacteriumstreptomycesspsv21-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{wibowo_anti-infective_2021,\n\ttitle = {Anti-{Infective} and {Antiviral} {Activity} of {Valinomycin} and {Its} {Analogues} from a {Sea} {Cucumber}-{Associated} {Bacterium}, {Streptomyces} sp. {SV} 21},\n\tvolume = {19},\n\tissn = {1660-3397},\n\turl = {https://www.mdpi.com/1660-3397/19/2/81},\n\tdoi = {10.3390/md19020081},\n\tabstract = {The manuscript investigated the isolation, characterization and anti-infective potential of valinomycin (3), streptodepsipeptide P11A (2), streptodepsipeptide P11B (1), and one novel valinomycin analogue, streptodepsipeptide SV21 (4), which were all produced by the Gram-positive strain Streptomycescavourensis SV 21. Although the exact molecular weight and major molecular fragments were recently reported for compound 4, its structure elucidation was not based on compound isolation and spectroscopic techniques. We successfully isolated and elucidated the structure based on the MS2 fragmentation pathways as well as 1H and 13C NMR spectra and found that the previously reported structure of compound 4 differs from our analysis. Our findings showed the importance of isolation and structure elucidation of bacterial compounds in the era of fast omics technologies. The here performed anti-infective assays showed moderate to potent activity against fungi, multi drug resistant (MDR) bacteria and infectivity of the Hepatitis C Virus (HCV). While compounds 2, 3 and 4 revealed potent antiviral activity, the observed minor cytotoxicity needs further investigation. Furthermore, the here performed anti-infective assays disclosed that the symmetry of the valinomycin molecule is most important for its bioactivity, a fact that has not been reported so far.},\n\tlanguage = {en},\n\tnumber = {2},\n\turldate = {2022-11-08},\n\tjournal = {Marine Drugs},\n\tauthor = {Wibowo, Joko T. and Kellermann, Matthias Y. and Köck, Matthias and Putra, Masteria Y. and Murniasih, Tutik and Mohr, Kathrin I. and Wink, Joachim and Praditya, Dimas F. and Steinmann, Eike and Schupp, Peter J.},\n\tmonth = feb,\n\tyear = {2021},\n\tpages = {81},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  The manuscript investigated the isolation, characterization and anti-infective potential of valinomycin (3), streptodepsipeptide P11A (2), streptodepsipeptide P11B (1), and one novel valinomycin analogue, streptodepsipeptide SV21 (4), which were all produced by the Gram-positive strain Streptomycescavourensis SV 21. Although the exact molecular weight and major molecular fragments were recently reported for compound 4, its structure elucidation was not based on compound isolation and spectroscopic techniques. We successfully isolated and elucidated the structure based on the MS2 fragmentation pathways as well as 1H and 13C NMR spectra and found that the previously reported structure of compound 4 differs from our analysis. Our findings showed the importance of isolation and structure elucidation of bacterial compounds in the era of fast omics technologies. The here performed anti-infective assays showed moderate to potent activity against fungi, multi drug resistant (MDR) bacteria and infectivity of the Hepatitis C Virus (HCV). While compounds 2, 3 and 4 revealed potent antiviral activity, the observed minor cytotoxicity needs further investigation. Furthermore, the here performed anti-infective assays disclosed that the symmetry of the valinomycin molecule is most important for its bioactivity, a fact that has not been reported so far.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"doering-wall-putchim-rattanawongwan-schroeder-hentschel-roik-towardsenhancingcoralheattoleranceamicrobiometransplantationtreatmentusinginoculationsofhomogenizedcoraltissues-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-021-01053-6\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'doering-wall-putchim-rattanawongwan-schroeder-hentschel-roik-towardsenhancingcoralheattoleranceamicrobiometransplantationtreatmentusinginoculationsofhomogenizedcoraltissues-2021', 'https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-021-01053-6', event);\">\n    Towards enhancing coral heat tolerance: a “microbiome transplantation” treatment using inoculations of homogenized coral tissues.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Doering, T., Wall, M., Putchim, L., Rattanawongwan, T., Schroeder, R., Hentschel, U.,  &amp; Roik, A.\n</span>\n\n  \n\n</span>\n\n  <i>Microbiome</i>, 9(1): 102. December 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-021-01053-6\"\n     onclick=\"log_download('doering-wall-putchim-rattanawongwan-schroeder-hentschel-roik-towardsenhancingcoralheattoleranceamicrobiometransplantationtreatmentusinginoculationsofhomogenizedcoraltissues-2021', 'https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-021-01053-6', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Towards enhancing coral heat tolerance: a “microbiome transplantation” treatment using inoculations of homogenized coral tissues [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1186/s40168-021-01053-6\"\n     onclick=\"log_download('doering-wall-putchim-rattanawongwan-schroeder-hentschel-roik-towardsenhancingcoralheattoleranceamicrobiometransplantationtreatmentusinginoculationsofhomogenizedcoraltissues-2021', 'http://doi.org/10.1186/s40168-021-01053-6', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/doering-wall-putchim-rattanawongwan-schroeder-hentschel-roik-towardsenhancingcoralheattoleranceamicrobiometransplantationtreatmentusinginoculationsofhomogenizedcoraltissues-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n  &nbsp;\n  <span class=\"bibbase_stats_paper\" style=\"color: #777;\">\n    <span>1 download</span>\n  </span>\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('doering-wall-putchim-rattanawongwan-schroeder-hentschel-roik-towardsenhancingcoralheattoleranceamicrobiometransplantationtreatmentusinginoculationsofhomogenizedcoraltissues-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{doering_towards_2021,\n\ttitle = {Towards enhancing coral heat tolerance: a “microbiome transplantation” treatment using inoculations of homogenized coral tissues},\n\tvolume = {9},\n\tissn = {2049-2618},\n\tshorttitle = {Towards enhancing coral heat tolerance},\n\turl = {https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-021-01053-6},\n\tdoi = {10.1186/s40168-021-01053-6},\n\tabstract = {Abstract\n            \n              Background\n              \n                Microbiome manipulation could enhance heat tolerance and help corals survive the pressures of ocean warming. We conducted coral microbiome transplantation (CMT) experiments using the reef-building corals,\n                Pocillopora\n                and\n                Porites\n                , and investigated whether this technique can benefit coral heat resistance while modifying the bacterial microbiome. Initially, heat-tolerant donors were identified in the wild. We then used fresh homogenates made from coral donor tissues to inoculate conspecific, heat-susceptible recipients and documented their bleaching responses and microbiomes by 16S rRNA gene metabarcoding.\n              \n            \n            \n              Results\n              \n                Recipients of both coral species bleached at lower rates compared to the control group when exposed to short-term heat stress (34 °C). One hundred twelve (\n                Pocillopora\n                sp.) and sixteen (\n                Porites\n                sp.) donor-specific bacterial species were identified in the microbiomes of recipients indicating transmission of bacteria. The amplicon sequence variants of the majority of these transmitted bacteria belonged to known, putatively symbiotic bacterial taxa of corals and were linked to the observed beneficial effect on the coral stress response. Microbiome dynamics in our experiments support the notion that microbiome community evenness and dominance of one or few bacterial species, rather than host-species identity, were drivers for microbiome stability in a holobiont context.\n              \n            \n            \n              Conclusions\n              Our results suggest that coral recipients likely favor the uptake of putative bacterial symbionts, recommending to include these taxonomic groups in future coral probiotics screening efforts. Our study suggests a scenario where these donor-specific bacterial symbionts might have been more efficient in supporting the recipients to resist heat stress compared to the native symbionts present in the control group. These findings urgently call for further experimental investigation of the mechanisms of action underlying the beneficial effect of CMT and for field-based long-term studies testing the persistence of the effect.},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-08},\n\tjournal = {Microbiome},\n\tauthor = {Doering, Talisa and Wall, Marlene and Putchim, Lalita and Rattanawongwan, Tipwimon and Schroeder, Roman and Hentschel, Ute and Roik, Anna},\n\tmonth = dec,\n\tyear = {2021},\n\tpages = {102},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract Background Microbiome manipulation could enhance heat tolerance and help corals survive the pressures of ocean warming. We conducted coral microbiome transplantation (CMT) experiments using the reef-building corals, Pocillopora and Porites , and investigated whether this technique can benefit coral heat resistance while modifying the bacterial microbiome. Initially, heat-tolerant donors were identified in the wild. We then used fresh homogenates made from coral donor tissues to inoculate conspecific, heat-susceptible recipients and documented their bleaching responses and microbiomes by 16S rRNA gene metabarcoding. Results Recipients of both coral species bleached at lower rates compared to the control group when exposed to short-term heat stress (34 °C). One hundred twelve ( Pocillopora sp.) and sixteen ( Porites sp.) donor-specific bacterial species were identified in the microbiomes of recipients indicating transmission of bacteria. The amplicon sequence variants of the majority of these transmitted bacteria belonged to known, putatively symbiotic bacterial taxa of corals and were linked to the observed beneficial effect on the coral stress response. Microbiome dynamics in our experiments support the notion that microbiome community evenness and dominance of one or few bacterial species, rather than host-species identity, were drivers for microbiome stability in a holobiont context. Conclusions Our results suggest that coral recipients likely favor the uptake of putative bacterial symbionts, recommending to include these taxonomic groups in future coral probiotics screening efforts. Our study suggests a scenario where these donor-specific bacterial symbionts might have been more efficient in supporting the recipients to resist heat stress compared to the native symbionts present in the control group. These findings urgently call for further experimental investigation of the mechanisms of action underlying the beneficial effect of CMT and for field-based long-term studies testing the persistence of the effect.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"risdian-landwehr-rohde-schumann-hahnke-sprer-bunk-kmpfer-etal-streptomycesbathyalisspnovanactinobacteriumisolatedfromthespongeinadeepsea-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s10482-021-01528-4\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'risdian-landwehr-rohde-schumann-hahnke-sprer-bunk-kmpfer-etal-streptomycesbathyalisspnovanactinobacteriumisolatedfromthespongeinadeepsea-2021', 'http://link.springer.com/10.1007/s10482-021-01528-4', event);\">\n    Streptomyces bathyalis sp. nov., an actinobacterium isolated from the sponge in a deep sea.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Risdian, C., Landwehr, W., Rohde, M., Schumann, P., Hahnke, R. L., Spröer, C., Bunk, B., Kämpfer, P., Schupp, P. J.,  &amp; Wink, J.\n</span>\n\n  \n\n</span>\n\n  <i>Antonie van Leeuwenhoek</i>, 114(4): 425–435. April 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s10482-021-01528-4\"\n     onclick=\"log_download('risdian-landwehr-rohde-schumann-hahnke-sprer-bunk-kmpfer-etal-streptomycesbathyalisspnovanactinobacteriumisolatedfromthespongeinadeepsea-2021', 'http://link.springer.com/10.1007/s10482-021-01528-4', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Streptomyces bathyalis sp. nov., an actinobacterium isolated from the sponge in a deep sea [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s10482-021-01528-4\"\n     onclick=\"log_download('risdian-landwehr-rohde-schumann-hahnke-sprer-bunk-kmpfer-etal-streptomycesbathyalisspnovanactinobacteriumisolatedfromthespongeinadeepsea-2021', 'http://doi.org/10.1007/s10482-021-01528-4', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/risdian-landwehr-rohde-schumann-hahnke-sprer-bunk-kmpfer-etal-streptomycesbathyalisspnovanactinobacteriumisolatedfromthespongeinadeepsea-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('risdian-landwehr-rohde-schumann-hahnke-sprer-bunk-kmpfer-etal-streptomycesbathyalisspnovanactinobacteriumisolatedfromthespongeinadeepsea-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{risdian_streptomyces_2021,\n\ttitle = {Streptomyces bathyalis sp. nov., an actinobacterium isolated from the sponge in a deep sea},\n\tvolume = {114},\n\tissn = {0003-6072, 1572-9699},\n\turl = {http://link.springer.com/10.1007/s10482-021-01528-4},\n\tdoi = {10.1007/s10482-021-01528-4},\n\tabstract = {Abstract\n            \n              A novel actinobacterium, designated ASO4wet\n              T\n              , was isolated from the unidentified sponge (SO4) in the deep sea collected of the North Atlantic Ocean. Study of 16S rRNA gene sequences indicated that strain ASO4wet\n              T\n              is a member of the genus\n              Streptomyces\n              and showed the closest similarities to\n              Streptomyces karpasiensis\n              K413\n              T\n              (98.87 \\%),\n              Streptomyces glycovorans\n              YIM M 10366\n              T\n              (98.38 \\%), and\n              Streptomyces abyssalis\n              YIM M 10400\n              T\n              (97.53 \\%). Strain ASO4wet\n              T\n              contained MK-9(H8) as the predominant menaquinone and the major fatty acids are iso-C\n              16:0\n              , anteiso-C\n              15:0\n              , and iso-C\n              15:0\n              . Polyphasic taxonomy was carried out between strain ASO4wet\n              T\n              and its phylogenetically closely related\n              Streptomyces\n              strains, which further elucidated their relatedness and revealed that strain ASO4wet\n              T\n              could be distinguished from currently known\n              Streptomyces\n              species. Strain ASO4wet\n              T\n              clearly represents a novel species in genus\n              Streptomyces\n              . We propose the name\n              Streptomyces bathyalis\n              sp. nov., with the type strain ASO4wet\n              T\n              (= DSM 106605\n              T\n               = NCCB 100657\n              T\n              ). Analysis of the whole-genome sequence of\n              S. bathyalis\n              revealed that genome size is 7,377,472 bp with 6332 coding sequences.},\n\tlanguage = {en},\n\tnumber = {4},\n\turldate = {2022-11-09},\n\tjournal = {Antonie van Leeuwenhoek},\n\tauthor = {Risdian, Chandra and Landwehr, Wiebke and Rohde, Manfred and Schumann, Peter and Hahnke, Richard L. and Spröer, Cathrin and Bunk, Boyke and Kämpfer, Peter and Schupp, Peter J. and Wink, Joachim},\n\tmonth = apr,\n\tyear = {2021},\n\tpages = {425--435},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract A novel actinobacterium, designated ASO4wet T , was isolated from the unidentified sponge (SO4) in the deep sea collected of the North Atlantic Ocean. Study of 16S rRNA gene sequences indicated that strain ASO4wet T is a member of the genus Streptomyces and showed the closest similarities to Streptomyces karpasiensis K413 T (98.87 %), Streptomyces glycovorans YIM M 10366 T (98.38 %), and Streptomyces abyssalis YIM M 10400 T (97.53 %). Strain ASO4wet T contained MK-9(H8) as the predominant menaquinone and the major fatty acids are iso-C 16:0 , anteiso-C 15:0 , and iso-C 15:0 . Polyphasic taxonomy was carried out between strain ASO4wet T and its phylogenetically closely related Streptomyces strains, which further elucidated their relatedness and revealed that strain ASO4wet T could be distinguished from currently known Streptomyces species. Strain ASO4wet T clearly represents a novel species in genus Streptomyces . We propose the name Streptomyces bathyalis sp. nov., with the type strain ASO4wet T (= DSM 106605 T  = NCCB 100657 T ). Analysis of the whole-genome sequence of S. bathyalis revealed that genome size is 7,377,472 bp with 6332 coding sequences.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"moeller-pawlowski-petersenthiery-miller-nietzer-heiselsure-kellermann-schupp-challengesincurrentcoralreefprotectionpossibleimpactsofuvfiltersusedinsunscreensacriticalreview-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.frontiersin.org/articles/10.3389/fmars.2021.665548/full\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'moeller-pawlowski-petersenthiery-miller-nietzer-heiselsure-kellermann-schupp-challengesincurrentcoralreefprotectionpossibleimpactsofuvfiltersusedinsunscreensacriticalreview-2021', 'https://www.frontiersin.org/articles/10.3389/fmars.2021.665548/full', event);\">\n    Challenges in Current Coral Reef Protection – Possible Impacts of UV Filters Used in Sunscreens, a Critical Review.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Moeller, M., Pawlowski, S., Petersen-Thiery, M., Miller, I. B., Nietzer, S., Heisel-Sure, Y., Kellermann, M. Y.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Frontiers in Marine Science</i>, 8: 665548. April 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.frontiersin.org/articles/10.3389/fmars.2021.665548/full\"\n     onclick=\"log_download('moeller-pawlowski-petersenthiery-miller-nietzer-heiselsure-kellermann-schupp-challengesincurrentcoralreefprotectionpossibleimpactsofuvfiltersusedinsunscreensacriticalreview-2021', 'https://www.frontiersin.org/articles/10.3389/fmars.2021.665548/full', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Challenges in Current Coral Reef Protection – Possible Impacts of UV Filters Used in Sunscreens, a Critical Review [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3389/fmars.2021.665548\"\n     onclick=\"log_download('moeller-pawlowski-petersenthiery-miller-nietzer-heiselsure-kellermann-schupp-challengesincurrentcoralreefprotectionpossibleimpactsofuvfiltersusedinsunscreensacriticalreview-2021', 'http://doi.org/10.3389/fmars.2021.665548', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/moeller-pawlowski-petersenthiery-miller-nietzer-heiselsure-kellermann-schupp-challengesincurrentcoralreefprotectionpossibleimpactsofuvfiltersusedinsunscreensacriticalreview-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('moeller-pawlowski-petersenthiery-miller-nietzer-heiselsure-kellermann-schupp-challengesincurrentcoralreefprotectionpossibleimpactsofuvfiltersusedinsunscreensacriticalreview-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{moeller_challenges_2021,\n\ttitle = {Challenges in {Current} {Coral} {Reef} {Protection} – {Possible} {Impacts} of {UV} {Filters} {Used} in {Sunscreens}, a {Critical} {Review}},\n\tvolume = {8},\n\tissn = {2296-7745},\n\turl = {https://www.frontiersin.org/articles/10.3389/fmars.2021.665548/full},\n\tdoi = {10.3389/fmars.2021.665548},\n\tabstract = {Coral reefs are highly endangered ecosystems. The identification and quantification of potential stress factors are essential to protect them. UV filters from sunscreens that are introduced to coral reef areas are considered as one of these stressors and their impact on corals needs to be further investigated. Even though UV filters are functionally similar, their structural features are very diverse. Their impact on limnic organisms have also been shown to be highly variable ranging from no or low to high toxicity. It is therefore to be expected that their effect on corals also differs significantly and that each compound has to be evaluated individually. The demand for conclusive benchmarks and guidelines from policy makers and the public over the past years shows the necessity for an objective literature review on the effects of various UV filters on scleractinian corals. Here, we review the present literature, summarize the data on the different UV filters and discuss the different approaches, advantages and limitations of the studies. However, the methods used in the latter studies vary greatly. They differ in many aspects such as species and life stage used, field and laboratory approaches, with exposure times ranging from hours to weeks. Some studies include analytics and measure the actual test concentration, others only provide nominal concentrations. The lack of standardized methods renders comparisons between studies futile. Additionally, most UV filters have only been investigated in a single or a few studies of different quality. Reliable thresholds are therefore impossible to draw on the basis of currently available studies. Nevertheless, certain UV filters repeatedly showed comparable toxicity in both freshwater and marine species tested. Yet, existing differences in results from coral tests emphasize the need for a standardized testing method comparable to those established for other aquatic organisms in order to allow for a more conclusive assessment. In this review, we describe what a scientifically sound testing proposal should include in order to obtain reliable and reproducible data, which ultimately should result in an internationally organized standardized ring test trial. Such standardized toxicity tests would enable validation of coral toxicity data related to UV filters, but also testing of other types of compounds that are known to be introduced and effect coral reefs, thus helping to identify significant stressors and enabling objective policy decisions.},\n\turldate = {2022-11-09},\n\tjournal = {Frontiers in Marine Science},\n\tauthor = {Moeller, Mareen and Pawlowski, Sascha and Petersen-Thiery, Mechtild and Miller, Ingo B. and Nietzer, Samuel and Heisel-Sure, Yannik and Kellermann, Matthias Y. and Schupp, Peter J.},\n\tmonth = apr,\n\tyear = {2021},\n\tpages = {665548},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Coral reefs are highly endangered ecosystems. The identification and quantification of potential stress factors are essential to protect them. UV filters from sunscreens that are introduced to coral reef areas are considered as one of these stressors and their impact on corals needs to be further investigated. Even though UV filters are functionally similar, their structural features are very diverse. Their impact on limnic organisms have also been shown to be highly variable ranging from no or low to high toxicity. It is therefore to be expected that their effect on corals also differs significantly and that each compound has to be evaluated individually. The demand for conclusive benchmarks and guidelines from policy makers and the public over the past years shows the necessity for an objective literature review on the effects of various UV filters on scleractinian corals. Here, we review the present literature, summarize the data on the different UV filters and discuss the different approaches, advantages and limitations of the studies. However, the methods used in the latter studies vary greatly. They differ in many aspects such as species and life stage used, field and laboratory approaches, with exposure times ranging from hours to weeks. Some studies include analytics and measure the actual test concentration, others only provide nominal concentrations. The lack of standardized methods renders comparisons between studies futile. Additionally, most UV filters have only been investigated in a single or a few studies of different quality. Reliable thresholds are therefore impossible to draw on the basis of currently available studies. Nevertheless, certain UV filters repeatedly showed comparable toxicity in both freshwater and marine species tested. Yet, existing differences in results from coral tests emphasize the need for a standardized testing method comparable to those established for other aquatic organisms in order to allow for a more conclusive assessment. In this review, we describe what a scientifically sound testing proposal should include in order to obtain reliable and reproducible data, which ultimately should result in an internationally organized standardized ring test trial. Such standardized toxicity tests would enable validation of coral toxicity data related to UV filters, but also testing of other types of compounds that are known to be introduced and effect coral reefs, thus helping to identify significant stressors and enabling objective policy decisions.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"galitz-nakao-schupp-wrheide-erpenbeck-asoftspotforchemistrycurrenttaxonomicandevolutionaryimplicationsofspongesecondarymetabolitedistribution-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/1660-3397/19/8/448\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'galitz-nakao-schupp-wrheide-erpenbeck-asoftspotforchemistrycurrenttaxonomicandevolutionaryimplicationsofspongesecondarymetabolitedistribution-2021', 'https://www.mdpi.com/1660-3397/19/8/448', event);\">\n    A Soft Spot for Chemistry–Current Taxonomic and Evolutionary Implications of Sponge Secondary Metabolite Distribution.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Galitz, A., Nakao, Y., Schupp, P. J., Wörheide, G.,  &amp; Erpenbeck, D.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Drugs</i>, 19(8): 448. August 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/1660-3397/19/8/448\"\n     onclick=\"log_download('galitz-nakao-schupp-wrheide-erpenbeck-asoftspotforchemistrycurrenttaxonomicandevolutionaryimplicationsofspongesecondarymetabolitedistribution-2021', 'https://www.mdpi.com/1660-3397/19/8/448', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"A Soft Spot for Chemistry–Current Taxonomic and Evolutionary Implications of Sponge Secondary Metabolite Distribution [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/md19080448\"\n     onclick=\"log_download('galitz-nakao-schupp-wrheide-erpenbeck-asoftspotforchemistrycurrenttaxonomicandevolutionaryimplicationsofspongesecondarymetabolitedistribution-2021', 'http://doi.org/10.3390/md19080448', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/galitz-nakao-schupp-wrheide-erpenbeck-asoftspotforchemistrycurrenttaxonomicandevolutionaryimplicationsofspongesecondarymetabolitedistribution-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('galitz-nakao-schupp-wrheide-erpenbeck-asoftspotforchemistrycurrenttaxonomicandevolutionaryimplicationsofspongesecondarymetabolitedistribution-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{galitz_soft_2021,\n\ttitle = {A {Soft} {Spot} for {Chemistry}–{Current} {Taxonomic} and {Evolutionary} {Implications} of {Sponge} {Secondary} {Metabolite} {Distribution}},\n\tvolume = {19},\n\tissn = {1660-3397},\n\turl = {https://www.mdpi.com/1660-3397/19/8/448},\n\tdoi = {10.3390/md19080448},\n\tabstract = {Marine sponges are the most prolific marine sources for discovery of novel bioactive compounds. Sponge secondary metabolites are sought-after for their potential in pharmaceutical applications, and in the past, they were also used as taxonomic markers alongside the difficult and homoplasy-prone sponge morphology for species delineation (chemotaxonomy). The understanding of phylogenetic distribution and distinctiveness of metabolites to sponge lineages is pivotal to reveal pathways and evolution of compound production in sponges. This benefits the discovery rate and yield of bioprospecting for novel marine natural products by identifying lineages with high potential of being new sources of valuable sponge compounds. In this review, we summarize the current biochemical data on sponges and compare the metabolite distribution against a sponge phylogeny. We assess compound specificity to lineages, potential convergences, and suitability as diagnostic phylogenetic markers. Our study finds compound distribution corroborating current (molecular) phylogenetic hypotheses, which include yet unaccepted polyphyly of several demosponge orders and families. Likewise, several compounds and compound groups display a high degree of lineage specificity, which suggests homologous biosynthetic pathways among their taxa, which identifies yet unstudied species of this lineage as promising bioprospecting targets.},\n\tlanguage = {en},\n\tnumber = {8},\n\turldate = {2022-11-09},\n\tjournal = {Marine Drugs},\n\tauthor = {Galitz, Adrian and Nakao, Yoichi and Schupp, Peter J. and Wörheide, Gert and Erpenbeck, Dirk},\n\tmonth = aug,\n\tyear = {2021},\n\tpages = {448},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Marine sponges are the most prolific marine sources for discovery of novel bioactive compounds. Sponge secondary metabolites are sought-after for their potential in pharmaceutical applications, and in the past, they were also used as taxonomic markers alongside the difficult and homoplasy-prone sponge morphology for species delineation (chemotaxonomy). The understanding of phylogenetic distribution and distinctiveness of metabolites to sponge lineages is pivotal to reveal pathways and evolution of compound production in sponges. This benefits the discovery rate and yield of bioprospecting for novel marine natural products by identifying lineages with high potential of being new sources of valuable sponge compounds. In this review, we summarize the current biochemical data on sponges and compare the metabolite distribution against a sponge phylogeny. We assess compound specificity to lineages, potential convergences, and suitability as diagnostic phylogenetic markers. Our study finds compound distribution corroborating current (molecular) phylogenetic hypotheses, which include yet unaccepted polyphyly of several demosponge orders and families. Likewise, several compounds and compound groups display a high degree of lineage specificity, which suggests homologous biosynthetic pathways among their taxa, which identifies yet unstudied species of this lineage as promising bioprospecting targets.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"faisal-kellermann-rohde-putra-murniasih-risdian-mohr-wink-etal-ecologicalandpharmacologicalactivitiesofpolybrominateddiphenyletherspbdesfromtheindonesianmarinespongelamellodysideaherbacea-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/1660-3397/19/11/611\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'faisal-kellermann-rohde-putra-murniasih-risdian-mohr-wink-etal-ecologicalandpharmacologicalactivitiesofpolybrominateddiphenyletherspbdesfromtheindonesianmarinespongelamellodysideaherbacea-2021', 'https://www.mdpi.com/1660-3397/19/11/611', event);\">\n    Ecological and Pharmacological Activities of Polybrominated Diphenyl Ethers (PBDEs) from the Indonesian Marine Sponge Lamellodysidea herbacea.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Faisal, M. R., Kellermann, M. Y., Rohde, S., Putra, M. Y., Murniasih, T., Risdian, C., Mohr, K. I., Wink, J., Praditya, D. F., Steinmann, E., Köck, M.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Drugs</i>, 19(11): 611. October 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/1660-3397/19/11/611\"\n     onclick=\"log_download('faisal-kellermann-rohde-putra-murniasih-risdian-mohr-wink-etal-ecologicalandpharmacologicalactivitiesofpolybrominateddiphenyletherspbdesfromtheindonesianmarinespongelamellodysideaherbacea-2021', 'https://www.mdpi.com/1660-3397/19/11/611', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Ecological and Pharmacological Activities of Polybrominated Diphenyl Ethers (PBDEs) from the Indonesian Marine Sponge Lamellodysidea herbacea [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/md19110611\"\n     onclick=\"log_download('faisal-kellermann-rohde-putra-murniasih-risdian-mohr-wink-etal-ecologicalandpharmacologicalactivitiesofpolybrominateddiphenyletherspbdesfromtheindonesianmarinespongelamellodysideaherbacea-2021', 'http://doi.org/10.3390/md19110611', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/faisal-kellermann-rohde-putra-murniasih-risdian-mohr-wink-etal-ecologicalandpharmacologicalactivitiesofpolybrominateddiphenyletherspbdesfromtheindonesianmarinespongelamellodysideaherbacea-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('faisal-kellermann-rohde-putra-murniasih-risdian-mohr-wink-etal-ecologicalandpharmacologicalactivitiesofpolybrominateddiphenyletherspbdesfromtheindonesianmarinespongelamellodysideaherbacea-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{faisal_ecological_2021,\n\ttitle = {Ecological and {Pharmacological} {Activities} of {Polybrominated} {Diphenyl} {Ethers} ({PBDEs}) from the {Indonesian} {Marine} {Sponge} {Lamellodysidea} herbacea},\n\tvolume = {19},\n\tissn = {1660-3397},\n\turl = {https://www.mdpi.com/1660-3397/19/11/611},\n\tdoi = {10.3390/md19110611},\n\tabstract = {Two known Polybrominated Diphenyl Ethers (PBDEs), 3,4,5-tribromo-2-(2′,4′-dibromophenoxy)phenol (1d) and 3,4,5,6-tetrabromo-2-(2′,4′-dibromophenoxy)phenol (2b), were isolated from the Indonesian marine sponge Lamellodysidea herbacea. The structure was confirmed using 13C chemical shift average deviation and was compared to the predicted structures and recorded chemical shifts in previous studies. We found a wide range of bioactivities from the organic crude extract, such as (1) a strong deterrence against the generalist pufferfish Canthigaster solandri, (2) potent inhibition against environmental and human pathogenic bacterial and fungal strains, and (3) the inhibition of the Hepatitis C Virus (HCV). The addition of a bromine atom into the A-ring of compound 2b resulted in higher fish feeding deterrence compared to compound 1d. On the contrary, compound 2b showed only more potent inhibition against the Gram-negative bacteria Rhodotorula glutinis (MIC 2.1 μg/mL), while compound 1d showed more powerful inhibition against the other human pathogenic bacteria and fungi. The first report of a chemical defense by compounds 1d and 2b against fish feeding and environmental relevant bacteria, especially pathogenic bacteria, might be one reason for the widespread occurrence of the shallow water sponge Lamellodysidea herbacea in Indonesia and the Indo-Pacific.},\n\tlanguage = {en},\n\tnumber = {11},\n\turldate = {2022-11-09},\n\tjournal = {Marine Drugs},\n\tauthor = {Faisal, Muhammad R. and Kellermann, Matthias Y. and Rohde, Sven and Putra, Masteria Y. and Murniasih, Tutik and Risdian, Chandra and Mohr, Kathrin I. and Wink, Joachim and Praditya, Dimas F. and Steinmann, Eike and Köck, Matthias and Schupp, Peter J.},\n\tmonth = oct,\n\tyear = {2021},\n\tpages = {611},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Two known Polybrominated Diphenyl Ethers (PBDEs), 3,4,5-tribromo-2-(2′,4′-dibromophenoxy)phenol (1d) and 3,4,5,6-tetrabromo-2-(2′,4′-dibromophenoxy)phenol (2b), were isolated from the Indonesian marine sponge Lamellodysidea herbacea. The structure was confirmed using 13C chemical shift average deviation and was compared to the predicted structures and recorded chemical shifts in previous studies. We found a wide range of bioactivities from the organic crude extract, such as (1) a strong deterrence against the generalist pufferfish Canthigaster solandri, (2) potent inhibition against environmental and human pathogenic bacterial and fungal strains, and (3) the inhibition of the Hepatitis C Virus (HCV). The addition of a bromine atom into the A-ring of compound 2b resulted in higher fish feeding deterrence compared to compound 1d. On the contrary, compound 2b showed only more potent inhibition against the Gram-negative bacteria Rhodotorula glutinis (MIC 2.1 μg/mL), while compound 1d showed more powerful inhibition against the other human pathogenic bacteria and fungi. The first report of a chemical defense by compounds 1d and 2b against fish feeding and environmental relevant bacteria, especially pathogenic bacteria, might be one reason for the widespread occurrence of the shallow water sponge Lamellodysidea herbacea in Indonesia and the Indo-Pacific.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"petersen-kellermann-nietzer-schupp-photosensitivityofthebacterialpigmentcycloprodigiosinenablessettlementincorallarvaelightasanunderstudiedenvironmentalfactor-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.frontiersin.org/articles/10.3389/fmars.2021.749070/full\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'petersen-kellermann-nietzer-schupp-photosensitivityofthebacterialpigmentcycloprodigiosinenablessettlementincorallarvaelightasanunderstudiedenvironmentalfactor-2021', 'https://www.frontiersin.org/articles/10.3389/fmars.2021.749070/full', event);\">\n    Photosensitivity of the Bacterial Pigment Cycloprodigiosin Enables Settlement in Coral Larvae—Light as an Understudied Environmental Factor.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Petersen, L., Kellermann, M. Y., Nietzer, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Frontiers in Marine Science</i>, 8: 749070. October 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.frontiersin.org/articles/10.3389/fmars.2021.749070/full\"\n     onclick=\"log_download('petersen-kellermann-nietzer-schupp-photosensitivityofthebacterialpigmentcycloprodigiosinenablessettlementincorallarvaelightasanunderstudiedenvironmentalfactor-2021', 'https://www.frontiersin.org/articles/10.3389/fmars.2021.749070/full', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Photosensitivity of the Bacterial Pigment Cycloprodigiosin Enables Settlement in Coral Larvae—Light as an Understudied Environmental Factor [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3389/fmars.2021.749070\"\n     onclick=\"log_download('petersen-kellermann-nietzer-schupp-photosensitivityofthebacterialpigmentcycloprodigiosinenablessettlementincorallarvaelightasanunderstudiedenvironmentalfactor-2021', 'http://doi.org/10.3389/fmars.2021.749070', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/petersen-kellermann-nietzer-schupp-photosensitivityofthebacterialpigmentcycloprodigiosinenablessettlementincorallarvaelightasanunderstudiedenvironmentalfactor-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('petersen-kellermann-nietzer-schupp-photosensitivityofthebacterialpigmentcycloprodigiosinenablessettlementincorallarvaelightasanunderstudiedenvironmentalfactor-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{petersen_photosensitivity_2021,\n\ttitle = {Photosensitivity of the {Bacterial} {Pigment} {Cycloprodigiosin} {Enables} {Settlement} in {Coral} {Larvae}—{Light} as an {Understudied} {Environmental} {Factor}},\n\tvolume = {8},\n\tissn = {2296-7745},\n\turl = {https://www.frontiersin.org/articles/10.3389/fmars.2021.749070/full},\n\tdoi = {10.3389/fmars.2021.749070},\n\tabstract = {The survival of coral reefs largely depends among other factors on the recruitment of a new generation of coral individuals that are more adapted to a rapidly changing climate and other anthropogenic stressors (e.g., pollution, sedimentation). Therefore, a better understanding of the coral settlement process, the molecules involved as well as crucial environmental drivers that control settlement success are needed. In this study, we identified a novel settlement inducer for the brooding scleractinian coral\n              Leptastrea purpurea\n              and highlight the importance of light for the settlement process. Crude extract of the red-pigmented bacterium\n              Pseudoalteromonas rubra\n              reliably triggered attachment and metamorphosis in\n              L. purpurea\n              larvae in less than 24 h. Prodigiosin (II) and the two derivatives, cycloprodigiosin (I) and 2-methyl-3-hexyl prodiginine (III) were isolated and structurally elucidated from the crude extract of\n              P. rubra.\n              We demonstrated that the photosensitive pigment cycloprodigiosin (I) was the responsible compound for attachment and metamorphosis in\n              L. purpurea\n              larvae. Under the tested light regimes (i.e., darkness, constant light and a dark-light alternation), cycloprodigiosin (I) triggered approximately 90\\% settlement at a concentration of 0.2 μg mL\n              –1\n              under a 12 h alternating dark-light cycle, mimicking the light-flooded coral reef environment. Our findings enable for the first time a mechanistic understanding of the light-dependent larva to polyp transformation by discovering the novel bacterial settlement cue cycloprodigiosin and its photosensitivity as a determining factor for coral settlement.},\n\turldate = {2022-11-09},\n\tjournal = {Frontiers in Marine Science},\n\tauthor = {Petersen, Lars-Erik and Kellermann, Matthias Y. and Nietzer, Samuel and Schupp, Peter J.},\n\tmonth = oct,\n\tyear = {2021},\n\tpages = {749070},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  The survival of coral reefs largely depends among other factors on the recruitment of a new generation of coral individuals that are more adapted to a rapidly changing climate and other anthropogenic stressors (e.g., pollution, sedimentation). Therefore, a better understanding of the coral settlement process, the molecules involved as well as crucial environmental drivers that control settlement success are needed. In this study, we identified a novel settlement inducer for the brooding scleractinian coral Leptastrea purpurea and highlight the importance of light for the settlement process. Crude extract of the red-pigmented bacterium Pseudoalteromonas rubra reliably triggered attachment and metamorphosis in L. purpurea larvae in less than 24 h. Prodigiosin (II) and the two derivatives, cycloprodigiosin (I) and 2-methyl-3-hexyl prodiginine (III) were isolated and structurally elucidated from the crude extract of P. rubra. We demonstrated that the photosensitive pigment cycloprodigiosin (I) was the responsible compound for attachment and metamorphosis in L. purpurea larvae. Under the tested light regimes (i.e., darkness, constant light and a dark-light alternation), cycloprodigiosin (I) triggered approximately 90% settlement at a concentration of 0.2 μg mL –1 under a 12 h alternating dark-light cycle, mimicking the light-flooded coral reef environment. Our findings enable for the first time a mechanistic understanding of the light-dependent larva to polyp transformation by discovering the novel bacterial settlement cue cycloprodigiosin and its photosensitivity as a determining factor for coral settlement.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"reiswig-dohrmann-kelly-mills-schupp-wrheide-rossellidglassspongesporiferahexactinellidafromnewzealandwaterswithdescriptionofonenewgenusandsixnewspecies-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://zookeys.pensoft.net/article/63307/\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'reiswig-dohrmann-kelly-mills-schupp-wrheide-rossellidglassspongesporiferahexactinellidafromnewzealandwaterswithdescriptionofonenewgenusandsixnewspecies-2021', 'https://zookeys.pensoft.net/article/63307/', event);\">\n    Rossellid glass sponges (Porifera, Hexactinellida) from New Zealand waters, with description of one new genus and six new species.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Reiswig, H. M., Dohrmann, M., Kelly, M., Mills, S., Schupp, P. J.,  &amp; Wörheide, G.\n</span>\n\n  \n\n</span>\n\n  <i>ZooKeys</i>, 1060: 33–84. September 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://zookeys.pensoft.net/article/63307/\"\n     onclick=\"log_download('reiswig-dohrmann-kelly-mills-schupp-wrheide-rossellidglassspongesporiferahexactinellidafromnewzealandwaterswithdescriptionofonenewgenusandsixnewspecies-2021', 'https://zookeys.pensoft.net/article/63307/', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Rossellid glass sponges (Porifera, Hexactinellida) from New Zealand waters, with description of one new genus and six new species [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3897/zookeys.1060.63307\"\n     onclick=\"log_download('reiswig-dohrmann-kelly-mills-schupp-wrheide-rossellidglassspongesporiferahexactinellidafromnewzealandwaterswithdescriptionofonenewgenusandsixnewspecies-2021', 'http://doi.org/10.3897/zookeys.1060.63307', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/reiswig-dohrmann-kelly-mills-schupp-wrheide-rossellidglassspongesporiferahexactinellidafromnewzealandwaterswithdescriptionofonenewgenusandsixnewspecies-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('reiswig-dohrmann-kelly-mills-schupp-wrheide-rossellidglassspongesporiferahexactinellidafromnewzealandwaterswithdescriptionofonenewgenusandsixnewspecies-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{reiswig_rossellid_2021,\n\ttitle = {Rossellid glass sponges ({Porifera}, {Hexactinellida}) from {New} {Zealand} waters, with description of one new genus and six new species},\n\tvolume = {1060},\n\tissn = {1313-2970, 1313-2989},\n\turl = {https://zookeys.pensoft.net/article/63307/},\n\tdoi = {10.3897/zookeys.1060.63307},\n\tabstract = {New Zealand’s surrounding deep waters have become known as a diversity hotspot for glass sponges (Porifera: Hexactinellida) in recent years, and description and collection efforts are continuing. Here we report on eight rossellids (Hexasterophora: Lyssacinosida: Rossellidae) collected during the 2017 RV Sonne cruise SO254 by ROV Kiel 6000 as part of Project PoribacNewZ of the University of Oldenburg, Germany. The material includes six species new to science, two of which are assigned to a so far undescribed genus; we further re-describe two previously known species. The known extant rossellid diversity from the New Zealand region is thus almost doubled, from nine species in five genera to 17 species in eight genera. The specimens described here are only a small fraction of hexactinellids collected on cruise SO254. Unfortunately, the first author passed away while working on this collection, only being able to complete the nine descriptions reported here. The paper concludes with an obituary to him, the world-leading expert on glass sponge taxonomy who will be greatly missed.},\n\turldate = {2022-11-09},\n\tjournal = {ZooKeys},\n\tauthor = {Reiswig, Henry M. and Dohrmann, Martin and Kelly, Michelle and Mills, Sadie and Schupp, Peter J. and Wörheide, Gert},\n\tmonth = sep,\n\tyear = {2021},\n\tpages = {33--84},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  New Zealand’s surrounding deep waters have become known as a diversity hotspot for glass sponges (Porifera: Hexactinellida) in recent years, and description and collection efforts are continuing. Here we report on eight rossellids (Hexasterophora: Lyssacinosida: Rossellidae) collected during the 2017 RV Sonne cruise SO254 by ROV Kiel 6000 as part of Project PoribacNewZ of the University of Oldenburg, Germany. The material includes six species new to science, two of which are assigned to a so far undescribed genus; we further re-describe two previously known species. The known extant rossellid diversity from the New Zealand region is thus almost doubled, from nine species in five genera to 17 species in eight genera. The specimens described here are only a small fraction of hexactinellids collected on cruise SO254. Unfortunately, the first author passed away while working on this collection, only being able to complete the nine descriptions reported here. The paper concludes with an obituary to him, the world-leading expert on glass sponge taxonomy who will be greatly missed.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"pira-risdian-kmpfer-msken-schupp-wink-zooshikellaharenaespnovisolatedfrompacificoystercrassostreagigasandestablishmentofzooshikellaganghwensissubspmarinasubspnovandzooshikellaganghwensissubspganghwensissubspnov-2021\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/1424-2818/13/12/641\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'pira-risdian-kmpfer-msken-schupp-wink-zooshikellaharenaespnovisolatedfrompacificoystercrassostreagigasandestablishmentofzooshikellaganghwensissubspmarinasubspnovandzooshikellaganghwensissubspganghwensissubspnov-2021', 'https://www.mdpi.com/1424-2818/13/12/641', event);\">\n    Zooshikella harenae sp. nov., Isolated from Pacific Oyster Crassostrea gigas, and Establishment of Zooshikella ganghwensis subsp. marina subsp. nov. and Zooshikella ganghwensis subsp. ganghwensis subsp. nov.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Pira, H., Risdian, C., Kämpfer, P., Müsken, M., Schupp, P. J.,  &amp; Wink, J.\n</span>\n\n  \n\n</span>\n\n  <i>Diversity</i>, 13(12): 641. December 2021.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/1424-2818/13/12/641\"\n     onclick=\"log_download('pira-risdian-kmpfer-msken-schupp-wink-zooshikellaharenaespnovisolatedfrompacificoystercrassostreagigasandestablishmentofzooshikellaganghwensissubspmarinasubspnovandzooshikellaganghwensissubspganghwensissubspnov-2021', 'https://www.mdpi.com/1424-2818/13/12/641', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Zooshikella harenae sp. nov., Isolated from Pacific Oyster Crassostrea gigas, and Establishment of Zooshikella ganghwensis subsp. marina subsp. nov. and Zooshikella ganghwensis subsp. ganghwensis subsp. nov. [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/d13120641\"\n     onclick=\"log_download('pira-risdian-kmpfer-msken-schupp-wink-zooshikellaharenaespnovisolatedfrompacificoystercrassostreagigasandestablishmentofzooshikellaganghwensissubspmarinasubspnovandzooshikellaganghwensissubspganghwensissubspnov-2021', 'http://doi.org/10.3390/d13120641', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/pira-risdian-kmpfer-msken-schupp-wink-zooshikellaharenaespnovisolatedfrompacificoystercrassostreagigasandestablishmentofzooshikellaganghwensissubspmarinasubspnovandzooshikellaganghwensissubspganghwensissubspnov-2021\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('pira-risdian-kmpfer-msken-schupp-wink-zooshikellaharenaespnovisolatedfrompacificoystercrassostreagigasandestablishmentofzooshikellaganghwensissubspmarinasubspnovandzooshikellaganghwensissubspganghwensissubspnov-2021')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{pira_zooshikella_2021,\n\ttitle = {Zooshikella harenae sp. nov., {Isolated} from {Pacific} {Oyster} {Crassostrea} gigas, and {Establishment} of {Zooshikella} ganghwensis subsp. marina subsp. nov. and {Zooshikella} ganghwensis subsp. ganghwensis subsp. nov.},\n\tvolume = {13},\n\tissn = {1424-2818},\n\turl = {https://www.mdpi.com/1424-2818/13/12/641},\n\tdoi = {10.3390/d13120641},\n\tabstract = {Here, we describe the polyphasic taxonomy of a novel isolated strain WH53T from the genus Zooshikella isolated from the sand sediment located between the lumen of the Crassostrea gigas From Germany. Phylogenetic analysis determined that the strain WH53T had a high similarity to Zooshikella ganghwensis JC2044T (99.57\\%) and Zooshikella marina LMG 28823T (99.36\\%). Strain WH53T contained ubiquinone-9 (Q-9) as the predominant menaquinone, and the major fatty acids were C16:0, C16:1ω7c, and C18:1ω7c. Diphosphatidylglycerol, phosphatidylglycerol, phosphatidylethanolamine, amino phospholipids, and unidentified phospholipids were identified as their polar lipid composition. The DNA G+C content and genome size of strain WH53T were 40.08 mol\\% and 5,914,969 bp, respectively. Digital DNA–DNA hybridisation (dDDH) for strain WH53T against Z. ganghwensis JC2044T and Z. marina LMG 28823T showed low relatedness values of 26.3\\% and 26.1\\%, respectively. The extract of strain WH53T exhibited antimicrobial property. Strain WH53T represents a novel species in the genus Zooshikella. We propose the name of Zooshikella harenae sp. nov., with the type strain WH53T (= DSM 111628T = NCCB 100808T). Furthermore, the dDDH, average nucleotide identity (ANI), percentage of conserved proteins (POCP), and amino acid identity (AAI) value between Z. marina LGM 28823T and Z. ganghwensis DSM 15267T were 79.9\\%, 97.84\\%, 76.08\\%, and 87.01\\%, respectively, suggesting that both of them should be reclassified as Z. ganghwensis subsp. marina subsp. nov. and Z. ganghwensis subsp. ganghwensis DSM 15267 subsp. nov.},\n\tlanguage = {en},\n\tnumber = {12},\n\turldate = {2022-11-09},\n\tjournal = {Diversity},\n\tauthor = {Pira, Hani and Risdian, Chandra and Kämpfer, Peter and Müsken, Mathias and Schupp, Peter J. and Wink, Joachim},\n\tmonth = dec,\n\tyear = {2021},\n\tpages = {641},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Here, we describe the polyphasic taxonomy of a novel isolated strain WH53T from the genus Zooshikella isolated from the sand sediment located between the lumen of the Crassostrea gigas From Germany. Phylogenetic analysis determined that the strain WH53T had a high similarity to Zooshikella ganghwensis JC2044T (99.57%) and Zooshikella marina LMG 28823T (99.36%). Strain WH53T contained ubiquinone-9 (Q-9) as the predominant menaquinone, and the major fatty acids were C16:0, C16:1ω7c, and C18:1ω7c. Diphosphatidylglycerol, phosphatidylglycerol, phosphatidylethanolamine, amino phospholipids, and unidentified phospholipids were identified as their polar lipid composition. The DNA G+C content and genome size of strain WH53T were 40.08 mol% and 5,914,969 bp, respectively. Digital DNA–DNA hybridisation (dDDH) for strain WH53T against Z. ganghwensis JC2044T and Z. marina LMG 28823T showed low relatedness values of 26.3% and 26.1%, respectively. The extract of strain WH53T exhibited antimicrobial property. Strain WH53T represents a novel species in the genus Zooshikella. We propose the name of Zooshikella harenae sp. nov., with the type strain WH53T (= DSM 111628T = NCCB 100808T). Furthermore, the dDDH, average nucleotide identity (ANI), percentage of conserved proteins (POCP), and amino acid identity (AAI) value between Z. marina LGM 28823T and Z. ganghwensis DSM 15267T were 79.9%, 97.84%, 76.08%, and 87.01%, respectively, suggesting that both of them should be reclassified as Z. ganghwensis subsp. marina subsp. nov. and Z. ganghwensis subsp. ganghwensis DSM 15267 subsp. nov.\n</div>\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2020\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2020')\"\n      onkeypress=\"toggleGroup('group_2020')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2020</span>\n      <span class=\"bibbase_group_count\">\n        \n        (7)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"petersen-kellermann-schupp-secondarymetabolitesofmarinemicrobesfromnaturalproductschemistrytochemicalecology-2020\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/978-3-030-20389-4_8\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'petersen-kellermann-schupp-secondarymetabolitesofmarinemicrobesfromnaturalproductschemistrytochemicalecology-2020', 'http://link.springer.com/10.1007/978-3-030-20389-4_8', event);\">\n    Secondary Metabolites of Marine Microbes: From Natural Products Chemistry to Chemical Ecology.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Petersen, L., Kellermann, M. Y.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  In Jungblut, S., Liebich, V.,  &amp; Bode-Dalby, M., editor(s), <i>YOUMARES 9 - The Oceans: Our Research, Our Future</i>, pages 159–180. Springer International Publishing, Cham,  2020.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/978-3-030-20389-4_8\"\n     onclick=\"log_download('petersen-kellermann-schupp-secondarymetabolitesofmarinemicrobesfromnaturalproductschemistrytochemicalecology-2020', 'http://link.springer.com/10.1007/978-3-030-20389-4_8', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Secondary Metabolites of Marine Microbes: From Natural Products Chemistry to Chemical Ecology [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/978-3-030-20389-4_8\"\n     onclick=\"log_download('petersen-kellermann-schupp-secondarymetabolitesofmarinemicrobesfromnaturalproductschemistrytochemicalecology-2020', 'http://doi.org/10.1007/978-3-030-20389-4_8', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/petersen-kellermann-schupp-secondarymetabolitesofmarinemicrobesfromnaturalproductschemistrytochemicalecology-2020\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('petersen-kellermann-schupp-secondarymetabolitesofmarinemicrobesfromnaturalproductschemistrytochemicalecology-2020')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@incollection{jungblut_secondary_2020,\n\taddress = {Cham},\n\ttitle = {Secondary {Metabolites} of {Marine} {Microbes}: {From} {Natural} {Products} {Chemistry} to {Chemical} {Ecology}},\n\tisbn = {978-3-030-20388-7 978-3-030-20389-4},\n\tshorttitle = {Secondary {Metabolites} of {Marine} {Microbes}},\n\turl = {http://link.springer.com/10.1007/978-3-030-20389-4_8},\n\tlanguage = {en},\n\turldate = {2022-11-09},\n\tbooktitle = {{YOUMARES} 9 - {The} {Oceans}: {Our} {Research}, {Our} {Future}},\n\tpublisher = {Springer International Publishing},\n\tauthor = {Petersen, Lars-Erik and Kellermann, Matthias Y. and Schupp, Peter J.},\n\teditor = {Jungblut, Simon and Liebich, Viola and Bode-Dalby, Maya},\n\tyear = {2020},\n\tdoi = {10.1007/978-3-030-20389-4_8},\n\tpages = {159--180},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"kamyab-kellermann-kunzmann-schupp-chemicalbiodiversityandbioactivitiesofsaponinsinechinodermatawithanemphasisonseacucumbersholothuroidea-2020\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/978-3-030-20389-4_7\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'kamyab-kellermann-kunzmann-schupp-chemicalbiodiversityandbioactivitiesofsaponinsinechinodermatawithanemphasisonseacucumbersholothuroidea-2020', 'http://link.springer.com/10.1007/978-3-030-20389-4_7', event);\">\n    Chemical Biodiversity and Bioactivities of Saponins in Echinodermata with an Emphasis on Sea Cucumbers (Holothuroidea).\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Kamyab, E., Kellermann, M. Y., Kunzmann, A.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  In Jungblut, S., Liebich, V.,  &amp; Bode-Dalby, M., editor(s), <i>YOUMARES 9 - The Oceans: Our Research, Our Future</i>, pages 121–157. Springer International Publishing, Cham,  2020.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/978-3-030-20389-4_7\"\n     onclick=\"log_download('kamyab-kellermann-kunzmann-schupp-chemicalbiodiversityandbioactivitiesofsaponinsinechinodermatawithanemphasisonseacucumbersholothuroidea-2020', 'http://link.springer.com/10.1007/978-3-030-20389-4_7', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Chemical Biodiversity and Bioactivities of Saponins in Echinodermata with an Emphasis on Sea Cucumbers (Holothuroidea) [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/978-3-030-20389-4_7\"\n     onclick=\"log_download('kamyab-kellermann-kunzmann-schupp-chemicalbiodiversityandbioactivitiesofsaponinsinechinodermatawithanemphasisonseacucumbersholothuroidea-2020', 'http://doi.org/10.1007/978-3-030-20389-4_7', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/kamyab-kellermann-kunzmann-schupp-chemicalbiodiversityandbioactivitiesofsaponinsinechinodermatawithanemphasisonseacucumbersholothuroidea-2020\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('kamyab-kellermann-kunzmann-schupp-chemicalbiodiversityandbioactivitiesofsaponinsinechinodermatawithanemphasisonseacucumbersholothuroidea-2020')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@incollection{jungblut_chemical_2020,\n\taddress = {Cham},\n\ttitle = {Chemical {Biodiversity} and {Bioactivities} of {Saponins} in {Echinodermata} with an {Emphasis} on {Sea} {Cucumbers} ({Holothuroidea})},\n\tisbn = {978-3-030-20388-7 978-3-030-20389-4},\n\turl = {http://link.springer.com/10.1007/978-3-030-20389-4_7},\n\tlanguage = {en},\n\turldate = {2022-11-09},\n\tbooktitle = {{YOUMARES} 9 - {The} {Oceans}: {Our} {Research}, {Our} {Future}},\n\tpublisher = {Springer International Publishing},\n\tauthor = {Kamyab, Elham and Kellermann, Matthias Y. and Kunzmann, Andreas and Schupp, Peter J.},\n\teditor = {Jungblut, Simon and Liebich, Viola and Bode-Dalby, Maya},\n\tyear = {2020},\n\tdoi = {10.1007/978-3-030-20389-4_7},\n\tpages = {121--157},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"mueller-schupp-shadingbymarinelitterimpairsthehealthofthetwoindopacificscleractiniancoralsporitesrusandpavonacactus-2020\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0025326X20305476\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'mueller-schupp-shadingbymarinelitterimpairsthehealthofthetwoindopacificscleractiniancoralsporitesrusandpavonacactus-2020', 'https://linkinghub.elsevier.com/retrieve/pii/S0025326X20305476', event);\">\n    Shading by marine litter impairs the health of the two Indo-Pacific scleractinian corals Porites rus and Pavona cactus.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Mueller, J. S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Pollution Bulletin</i>, 158: 111429. September 2020.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0025326X20305476\"\n     onclick=\"log_download('mueller-schupp-shadingbymarinelitterimpairsthehealthofthetwoindopacificscleractiniancoralsporitesrusandpavonacactus-2020', 'https://linkinghub.elsevier.com/retrieve/pii/S0025326X20305476', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Shading by marine litter impairs the health of the two Indo-Pacific scleractinian corals Porites rus and Pavona cactus [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.marpolbul.2020.111429\"\n     onclick=\"log_download('mueller-schupp-shadingbymarinelitterimpairsthehealthofthetwoindopacificscleractiniancoralsporitesrusandpavonacactus-2020', 'http://doi.org/10.1016/j.marpolbul.2020.111429', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/mueller-schupp-shadingbymarinelitterimpairsthehealthofthetwoindopacificscleractiniancoralsporitesrusandpavonacactus-2020\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('mueller-schupp-shadingbymarinelitterimpairsthehealthofthetwoindopacificscleractiniancoralsporitesrusandpavonacactus-2020')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{mueller_shading_2020,\n\ttitle = {Shading by marine litter impairs the health of the two {Indo}-{Pacific} scleractinian corals {Porites} rus and {Pavona} cactus},\n\tvolume = {158},\n\tissn = {0025326X},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0025326X20305476},\n\tdoi = {10.1016/j.marpolbul.2020.111429},\n\tlanguage = {en},\n\turldate = {2022-11-09},\n\tjournal = {Marine Pollution Bulletin},\n\tauthor = {Mueller, Jasmin S. and Schupp, Peter J.},\n\tmonth = sep,\n\tyear = {2020},\n\tpages = {111429},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"kamyab-goebeler-kellermann-rohde-reverter-striebel-schupp-antifoulingeffectsofsaponincontainingcrudeextractsfromtropicalindopacificseacucumbers-2020\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/1660-3397/18/4/181\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'kamyab-goebeler-kellermann-rohde-reverter-striebel-schupp-antifoulingeffectsofsaponincontainingcrudeextractsfromtropicalindopacificseacucumbers-2020', 'https://www.mdpi.com/1660-3397/18/4/181', event);\">\n    Anti-Fouling Effects of Saponin-Containing Crude Extracts from Tropical Indo-Pacific Sea Cucumbers.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Kamyab, E., Goebeler, N., Kellermann, M. Y., Rohde, S., Reverter, M., Striebel, M.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Drugs</i>, 18(4): 181. March 2020.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/1660-3397/18/4/181\"\n     onclick=\"log_download('kamyab-goebeler-kellermann-rohde-reverter-striebel-schupp-antifoulingeffectsofsaponincontainingcrudeextractsfromtropicalindopacificseacucumbers-2020', 'https://www.mdpi.com/1660-3397/18/4/181', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Anti-Fouling Effects of Saponin-Containing Crude Extracts from Tropical Indo-Pacific Sea Cucumbers [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/md18040181\"\n     onclick=\"log_download('kamyab-goebeler-kellermann-rohde-reverter-striebel-schupp-antifoulingeffectsofsaponincontainingcrudeextractsfromtropicalindopacificseacucumbers-2020', 'http://doi.org/10.3390/md18040181', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/kamyab-goebeler-kellermann-rohde-reverter-striebel-schupp-antifoulingeffectsofsaponincontainingcrudeextractsfromtropicalindopacificseacucumbers-2020\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('kamyab-goebeler-kellermann-rohde-reverter-striebel-schupp-antifoulingeffectsofsaponincontainingcrudeextractsfromtropicalindopacificseacucumbers-2020')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{kamyab_anti-fouling_2020,\n\ttitle = {Anti-{Fouling} {Effects} of {Saponin}-{Containing} {Crude} {Extracts} from {Tropical} {Indo}-{Pacific} {Sea} {Cucumbers}},\n\tvolume = {18},\n\tissn = {1660-3397},\n\turl = {https://www.mdpi.com/1660-3397/18/4/181},\n\tdoi = {10.3390/md18040181},\n\tabstract = {Sea cucumbers are bottom dwelling invertebrates, which are mostly found on subtropical and tropical sea grass beds, sandy reef flats, or reef slopes. Although constantly exposed to fouling communities in these habitats, many species are surprisingly free of invertebrate epibionts and microfouling algae such as diatoms. In our study, we investigated the anti-fouling (AF) activities of different crude extracts of tropical Indo-Pacific sea cucumber species against the fouling diatom Cylindrotheca closterium. Nine sea cucumber species from three genera (i.e., Holothuria, Bohadschia, Actinopyga) were selected and extracted to assess their AF activities. To verify whether the sea cucumber characteristic triterpene glycosides were responsible for the observed potent AF activities, we tested purified fractions enriched in saponins isolated from Bohadschia argus, representing one of the most active anti-fouling extracts. Saponins were quantified by vanillin-sulfuric acid colorimetric assays and identified by LC-MS and LC-MS/MS analyses. We were able to demonstrate that AF activities in sea cucumber extracts were species-specific, and growth inhibition as well as attachment of the diatom to surfaces is dependent on the saponin concentration (i.e., Actinopyga contained the highest quantities), as well as on the molecular composition and structure of the present saponins (i.e., Bivittoside D derivative was the most bioactive compound). In conclusion, the here performed AF assay represents a promising and fast method for selecting the most promising bioactive organism as well as for identifying novel compounds with potent AF activities for the discovery of potentially novel pharmacologically active natural products.},\n\tlanguage = {en},\n\tnumber = {4},\n\turldate = {2022-11-09},\n\tjournal = {Marine Drugs},\n\tauthor = {Kamyab, Elham and Goebeler, Norman and Kellermann, Matthias Y. and Rohde, Sven and Reverter, Miriam and Striebel, Maren and Schupp, Peter J.},\n\tmonth = mar,\n\tyear = {2020},\n\tpages = {181},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Sea cucumbers are bottom dwelling invertebrates, which are mostly found on subtropical and tropical sea grass beds, sandy reef flats, or reef slopes. Although constantly exposed to fouling communities in these habitats, many species are surprisingly free of invertebrate epibionts and microfouling algae such as diatoms. In our study, we investigated the anti-fouling (AF) activities of different crude extracts of tropical Indo-Pacific sea cucumber species against the fouling diatom Cylindrotheca closterium. Nine sea cucumber species from three genera (i.e., Holothuria, Bohadschia, Actinopyga) were selected and extracted to assess their AF activities. To verify whether the sea cucumber characteristic triterpene glycosides were responsible for the observed potent AF activities, we tested purified fractions enriched in saponins isolated from Bohadschia argus, representing one of the most active anti-fouling extracts. Saponins were quantified by vanillin-sulfuric acid colorimetric assays and identified by LC-MS and LC-MS/MS analyses. We were able to demonstrate that AF activities in sea cucumber extracts were species-specific, and growth inhibition as well as attachment of the diatom to surfaces is dependent on the saponin concentration (i.e., Actinopyga contained the highest quantities), as well as on the molecular composition and structure of the present saponins (i.e., Bivittoside D derivative was the most bioactive compound). In conclusion, the here performed AF assay represents a promising and fast method for selecting the most promising bioactive organism as well as for identifying novel compounds with potent AF activities for the discovery of potentially novel pharmacologically active natural products.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"steinert-busch-bayer-kodami-arbizu-kelly-mills-erpenbeck-etal-compositionalandquantitativeinsightsintobacterialandarchaealcommunitiesofsouthpacificdeepseaspongesdemospongiaeandhexactinellida-2020\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.frontiersin.org/article/10.3389/fmicb.2020.00716/full\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'steinert-busch-bayer-kodami-arbizu-kelly-mills-erpenbeck-etal-compositionalandquantitativeinsightsintobacterialandarchaealcommunitiesofsouthpacificdeepseaspongesdemospongiaeandhexactinellida-2020', 'https://www.frontiersin.org/article/10.3389/fmicb.2020.00716/full', event);\">\n    Compositional and Quantitative Insights Into Bacterial and Archaeal Communities of South Pacific Deep-Sea Sponges (Demospongiae and Hexactinellida).\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Steinert, G., Busch, K., Bayer, K., Kodami, S., Arbizu, P. M., Kelly, M., Mills, S., Erpenbeck, D., Dohrmann, M., Wörheide, G., Hentschel, U.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Frontiers in Microbiology</i>, 11: 716. April 2020.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.frontiersin.org/article/10.3389/fmicb.2020.00716/full\"\n     onclick=\"log_download('steinert-busch-bayer-kodami-arbizu-kelly-mills-erpenbeck-etal-compositionalandquantitativeinsightsintobacterialandarchaealcommunitiesofsouthpacificdeepseaspongesdemospongiaeandhexactinellida-2020', 'https://www.frontiersin.org/article/10.3389/fmicb.2020.00716/full', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Compositional and Quantitative Insights Into Bacterial and Archaeal Communities of South Pacific Deep-Sea Sponges (Demospongiae and Hexactinellida) [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3389/fmicb.2020.00716\"\n     onclick=\"log_download('steinert-busch-bayer-kodami-arbizu-kelly-mills-erpenbeck-etal-compositionalandquantitativeinsightsintobacterialandarchaealcommunitiesofsouthpacificdeepseaspongesdemospongiaeandhexactinellida-2020', 'http://doi.org/10.3389/fmicb.2020.00716', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/steinert-busch-bayer-kodami-arbizu-kelly-mills-erpenbeck-etal-compositionalandquantitativeinsightsintobacterialandarchaealcommunitiesofsouthpacificdeepseaspongesdemospongiaeandhexactinellida-2020\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('steinert-busch-bayer-kodami-arbizu-kelly-mills-erpenbeck-etal-compositionalandquantitativeinsightsintobacterialandarchaealcommunitiesofsouthpacificdeepseaspongesdemospongiaeandhexactinellida-2020')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{steinert_compositional_2020,\n\ttitle = {Compositional and {Quantitative} {Insights} {Into} {Bacterial} and {Archaeal} {Communities} of {South} {Pacific} {Deep}-{Sea} {Sponges} ({Demospongiae} and {Hexactinellida})},\n\tvolume = {11},\n\tissn = {1664-302X},\n\turl = {https://www.frontiersin.org/article/10.3389/fmicb.2020.00716/full},\n\tdoi = {10.3389/fmicb.2020.00716},\n\turldate = {2022-11-09},\n\tjournal = {Frontiers in Microbiology},\n\tauthor = {Steinert, Georg and Busch, Kathrin and Bayer, Kristina and Kodami, Sahar and Arbizu, Pedro Martinez and Kelly, Michelle and Mills, Sadie and Erpenbeck, Dirk and Dohrmann, Martin and Wörheide, Gert and Hentschel, Ute and Schupp, Peter J.},\n\tmonth = apr,\n\tyear = {2020},\n\tpages = {716},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"reverter-rohde-parchemin-tapissierbontemps-schupp-metabolomicsandmarinebiotechnologycouplingmetaboliteprofilingandorganismbiologyforthediscoveryofnewcompounds-2020\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.frontiersin.org/articles/10.3389/fmars.2020.613471/full\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'reverter-rohde-parchemin-tapissierbontemps-schupp-metabolomicsandmarinebiotechnologycouplingmetaboliteprofilingandorganismbiologyforthediscoveryofnewcompounds-2020', 'https://www.frontiersin.org/articles/10.3389/fmars.2020.613471/full', event);\">\n    Metabolomics and Marine Biotechnology: Coupling Metabolite Profiling and Organism Biology for the Discovery of New Compounds.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Reverter, M., Rohde, S., Parchemin, C., Tapissier-Bontemps, N.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Frontiers in Marine Science</i>, 7: 613471. December 2020.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.frontiersin.org/articles/10.3389/fmars.2020.613471/full\"\n     onclick=\"log_download('reverter-rohde-parchemin-tapissierbontemps-schupp-metabolomicsandmarinebiotechnologycouplingmetaboliteprofilingandorganismbiologyforthediscoveryofnewcompounds-2020', 'https://www.frontiersin.org/articles/10.3389/fmars.2020.613471/full', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Metabolomics and Marine Biotechnology: Coupling Metabolite Profiling and Organism Biology for the Discovery of New Compounds [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3389/fmars.2020.613471\"\n     onclick=\"log_download('reverter-rohde-parchemin-tapissierbontemps-schupp-metabolomicsandmarinebiotechnologycouplingmetaboliteprofilingandorganismbiologyforthediscoveryofnewcompounds-2020', 'http://doi.org/10.3389/fmars.2020.613471', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/reverter-rohde-parchemin-tapissierbontemps-schupp-metabolomicsandmarinebiotechnologycouplingmetaboliteprofilingandorganismbiologyforthediscoveryofnewcompounds-2020\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('reverter-rohde-parchemin-tapissierbontemps-schupp-metabolomicsandmarinebiotechnologycouplingmetaboliteprofilingandorganismbiologyforthediscoveryofnewcompounds-2020')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{reverter_metabolomics_2020,\n\ttitle = {Metabolomics and {Marine} {Biotechnology}: {Coupling} {Metabolite} {Profiling} and {Organism} {Biology} for the {Discovery} of {New} {Compounds}},\n\tvolume = {7},\n\tissn = {2296-7745},\n\tshorttitle = {Metabolomics and {Marine} {Biotechnology}},\n\turl = {https://www.frontiersin.org/articles/10.3389/fmars.2020.613471/full},\n\tdoi = {10.3389/fmars.2020.613471},\n\tabstract = {The high diversity of marine natural products represents promising opportunities for drug discovery, an important area in marine biotechnology. Within this context, high-throughput techniques such as metabolomics are extremely useful in unveiling unexplored chemical diversity at much faster rates than classical bioassay-guided approaches. Metabolomics approaches enable studying large sets of metabolites, even if they are produced at low concentrations. Although, metabolite identification remains the main metabolomics bottleneck, bioinformatic tools such as molecular networks can lead to the annotation of unknown metabolites and discovery of new compounds. A metabolomic approach in drug discovery has two major advantages: it enables analyses of multiple samples, allowing fast dereplication of already known compounds and provides a unique opportunity to relate metabolite profiles to organisms’ biology. Understanding the ecological and biological factors behind a certain metabolite production can be extremely useful in enhancing compound yields, optimizing compound extraction or in selecting bioactive compounds. Metazoan-associated microbiota are often responsible for metabolite synthesis, however, classical approaches only allow studying metabolites produced from cultivatable microbiota, which often differ from the compounds produced within the host. Therefore, coupling holobiome metabolomics with microbiome analysis can bring new insights to the role of microbiota in compound production. The ultimate potential of metabolomics is its coupling with other “omics” (i.e., transcriptomics and metagenomics). Although, such approaches are still challenging, especially in non-model species where genomes have not been annotated, this innovative approach is extremely valuable in elucidating gene clusters associated with biosynthetic pathways and will certainly become increasingly important in marine drug discovery.},\n\turldate = {2022-11-09},\n\tjournal = {Frontiers in Marine Science},\n\tauthor = {Reverter, Miriam and Rohde, Sven and Parchemin, Christelle and Tapissier-Bontemps, Nathalie and Schupp, Peter J.},\n\tmonth = dec,\n\tyear = {2020},\n\tpages = {613471},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  The high diversity of marine natural products represents promising opportunities for drug discovery, an important area in marine biotechnology. Within this context, high-throughput techniques such as metabolomics are extremely useful in unveiling unexplored chemical diversity at much faster rates than classical bioassay-guided approaches. Metabolomics approaches enable studying large sets of metabolites, even if they are produced at low concentrations. Although, metabolite identification remains the main metabolomics bottleneck, bioinformatic tools such as molecular networks can lead to the annotation of unknown metabolites and discovery of new compounds. A metabolomic approach in drug discovery has two major advantages: it enables analyses of multiple samples, allowing fast dereplication of already known compounds and provides a unique opportunity to relate metabolite profiles to organisms’ biology. Understanding the ecological and biological factors behind a certain metabolite production can be extremely useful in enhancing compound yields, optimizing compound extraction or in selecting bioactive compounds. Metazoan-associated microbiota are often responsible for metabolite synthesis, however, classical approaches only allow studying metabolites produced from cultivatable microbiota, which often differ from the compounds produced within the host. Therefore, coupling holobiome metabolomics with microbiome analysis can bring new insights to the role of microbiota in compound production. The ultimate potential of metabolomics is its coupling with other “omics” (i.e., transcriptomics and metagenomics). Although, such approaches are still challenging, especially in non-model species where genomes have not been annotated, this innovative approach is extremely valuable in elucidating gene clusters associated with biosynthetic pathways and will certainly become increasingly important in marine drug discovery.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"kamyab-rohde-kellermann-schupp-chemicaldefensemechanismsandecologicalimplicationsofindopacificholothurians-2020\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/1420-3049/25/20/4808\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'kamyab-rohde-kellermann-schupp-chemicaldefensemechanismsandecologicalimplicationsofindopacificholothurians-2020', 'https://www.mdpi.com/1420-3049/25/20/4808', event);\">\n    Chemical Defense Mechanisms and Ecological Implications of Indo-Pacific Holothurians.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Kamyab, E., Rohde, S., Kellermann, M. Y.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Molecules</i>, 25(20): 4808. October 2020.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/1420-3049/25/20/4808\"\n     onclick=\"log_download('kamyab-rohde-kellermann-schupp-chemicaldefensemechanismsandecologicalimplicationsofindopacificholothurians-2020', 'https://www.mdpi.com/1420-3049/25/20/4808', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Chemical Defense Mechanisms and Ecological Implications of Indo-Pacific Holothurians [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/molecules25204808\"\n     onclick=\"log_download('kamyab-rohde-kellermann-schupp-chemicaldefensemechanismsandecologicalimplicationsofindopacificholothurians-2020', 'http://doi.org/10.3390/molecules25204808', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/kamyab-rohde-kellermann-schupp-chemicaldefensemechanismsandecologicalimplicationsofindopacificholothurians-2020\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('kamyab-rohde-kellermann-schupp-chemicaldefensemechanismsandecologicalimplicationsofindopacificholothurians-2020')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{kamyab_chemical_2020,\n\ttitle = {Chemical {Defense} {Mechanisms} and {Ecological} {Implications} of {Indo}-{Pacific} {Holothurians}},\n\tvolume = {25},\n\tissn = {1420-3049},\n\turl = {https://www.mdpi.com/1420-3049/25/20/4808},\n\tdoi = {10.3390/molecules25204808},\n\tabstract = {Sea cucumbers are slow-moving organisms that use morphological, but also a diverse combination of chemical defenses to improve their overall fitness and chances of survival. Since chemical defense compounds are also of great pharmaceutical interest, we pinpoint the importance of biological screenings that are a relatively fast, informative and inexpensive way to identify the most bioactive organisms prior to further costly and elaborate pharmacological screenings. In this study, we investigated the presence and absence of chemical defenses of 14 different sea cucumber species from three families (Holothuriidae, Stichopodidae and Synaptidae) against ecological factors such as predation and pathogenic attacks. We used the different sea cucumber crude extracts as well as purified fractions and pure saponin compounds in a portfolio of ecological activity tests including fish feeding assays, cytotoxicity tests and antimicrobial assays against environmental pathogenic and non-pathogenic bacteria. Furthermore, we quantified and correlated the concentrations of sea cucumber characteristic saponin compounds as effective chemical defensive compounds in all 14 crude extracts by using the vanillin–sulfuric acid test. The initial results revealed that among all tested sea cucumber species that were defended against at least one ecological threat (predation and/or bacterial attack), Bohadschiaargus, Stichopuscholoronotus and Holothuria fuscopunctata were the three most promising bioactive sea cucumber species. Therefore, following further fractionation and purification attempts, we also tested saponin-containing butanol fractions of the latter, as well as two purified saponin species from B. argus. We could demonstrate that both, the amount of saponin compounds and their structure likely play a significant role in the chemical defense strategy of the sea cucumbers. Our study concludes that the chemical and morphological defense mechanisms (and combinations thereof) differ among the ecological strategies of the investigated holothurian species in order to increase their general fitness and level of survival. Finally, our observations and experiments on the chemical ecology of marine organisms can not only lead to a better understanding of their ecology and environmental roles but also can help in the better selection of bioactive organisms/compounds for the discovery of novel, pharmacologically active secondary metabolites in the near future.},\n\tlanguage = {en},\n\tnumber = {20},\n\turldate = {2022-11-09},\n\tjournal = {Molecules},\n\tauthor = {Kamyab, Elham and Rohde, Sven and Kellermann, Matthias Y. and Schupp, Peter J.},\n\tmonth = oct,\n\tyear = {2020},\n\tpages = {4808},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Sea cucumbers are slow-moving organisms that use morphological, but also a diverse combination of chemical defenses to improve their overall fitness and chances of survival. Since chemical defense compounds are also of great pharmaceutical interest, we pinpoint the importance of biological screenings that are a relatively fast, informative and inexpensive way to identify the most bioactive organisms prior to further costly and elaborate pharmacological screenings. In this study, we investigated the presence and absence of chemical defenses of 14 different sea cucumber species from three families (Holothuriidae, Stichopodidae and Synaptidae) against ecological factors such as predation and pathogenic attacks. We used the different sea cucumber crude extracts as well as purified fractions and pure saponin compounds in a portfolio of ecological activity tests including fish feeding assays, cytotoxicity tests and antimicrobial assays against environmental pathogenic and non-pathogenic bacteria. Furthermore, we quantified and correlated the concentrations of sea cucumber characteristic saponin compounds as effective chemical defensive compounds in all 14 crude extracts by using the vanillin–sulfuric acid test. The initial results revealed that among all tested sea cucumber species that were defended against at least one ecological threat (predation and/or bacterial attack), Bohadschiaargus, Stichopuscholoronotus and Holothuria fuscopunctata were the three most promising bioactive sea cucumber species. Therefore, following further fractionation and purification attempts, we also tested saponin-containing butanol fractions of the latter, as well as two purified saponin species from B. argus. We could demonstrate that both, the amount of saponin compounds and their structure likely play a significant role in the chemical defense strategy of the sea cucumbers. Our study concludes that the chemical and morphological defense mechanisms (and combinations thereof) differ among the ecological strategies of the investigated holothurian species in order to increase their general fitness and level of survival. Finally, our observations and experiments on the chemical ecology of marine organisms can not only lead to a better understanding of their ecology and environmental roles but also can help in the better selection of bioactive organisms/compounds for the discovery of novel, pharmacologically active secondary metabolites in the near future.\n</div>\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2019\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2019')\"\n      onkeypress=\"toggleGroup('group_2019')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2019</span>\n      <span class=\"bibbase_group_count\">\n        \n        (9)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"boman-bervoets-degraaf-dewenter-maitz-meijerzuschlochtern-stapel-smaal-etal-dietandgrowthofjuvenilequeenconchlobatusgigasgastropodastrombidaeinnativemixedandinvasiveseagrasshabitats-2019\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.int-res.com/abstracts/meps/v621/p143-154/\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'boman-bervoets-degraaf-dewenter-maitz-meijerzuschlochtern-stapel-smaal-etal-dietandgrowthofjuvenilequeenconchlobatusgigasgastropodastrombidaeinnativemixedandinvasiveseagrasshabitats-2019', 'https://www.int-res.com/abstracts/meps/v621/p143-154/', event);\">\n    Diet and growth of juvenile queen conch Lobatus gigas (Gastropoda: Strombidae) in native, mixed and invasive seagrass habitats.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Boman, E., Bervoets, T, de Graaf, M, Dewenter, J, Maitz, A, Meijer Zu Schlochtern, M., Stapel, J, Smaal, A.,  &amp; Nagelkerke, L.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Ecology Progress Series</i>, 621: 143–154. July 2019.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.int-res.com/abstracts/meps/v621/p143-154/\"\n     onclick=\"log_download('boman-bervoets-degraaf-dewenter-maitz-meijerzuschlochtern-stapel-smaal-etal-dietandgrowthofjuvenilequeenconchlobatusgigasgastropodastrombidaeinnativemixedandinvasiveseagrasshabitats-2019', 'https://www.int-res.com/abstracts/meps/v621/p143-154/', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Diet and growth of juvenile queen conch Lobatus gigas (Gastropoda: Strombidae) in native, mixed and invasive seagrass habitats [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3354/meps12990\"\n     onclick=\"log_download('boman-bervoets-degraaf-dewenter-maitz-meijerzuschlochtern-stapel-smaal-etal-dietandgrowthofjuvenilequeenconchlobatusgigasgastropodastrombidaeinnativemixedandinvasiveseagrasshabitats-2019', 'http://doi.org/10.3354/meps12990', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/boman-bervoets-degraaf-dewenter-maitz-meijerzuschlochtern-stapel-smaal-etal-dietandgrowthofjuvenilequeenconchlobatusgigasgastropodastrombidaeinnativemixedandinvasiveseagrasshabitats-2019\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('boman-bervoets-degraaf-dewenter-maitz-meijerzuschlochtern-stapel-smaal-etal-dietandgrowthofjuvenilequeenconchlobatusgigasgastropodastrombidaeinnativemixedandinvasiveseagrasshabitats-2019')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{boman_diet_2019,\n\ttitle = {Diet and growth of juvenile queen conch {Lobatus} gigas ({Gastropoda}: {Strombidae}) in native, mixed and invasive seagrass habitats},\n\tvolume = {621},\n\tissn = {0171-8630, 1616-1599},\n\tshorttitle = {Diet and growth of juvenile queen conch {Lobatus} gigas ({Gastropoda}},\n\turl = {https://www.int-res.com/abstracts/meps/v621/p143-154/},\n\tdoi = {10.3354/meps12990},\n\tlanguage = {en},\n\turldate = {2022-11-10},\n\tjournal = {Marine Ecology Progress Series},\n\tauthor = {Boman, Em and Bervoets, T and de Graaf, M and Dewenter, J and Maitz, A and Meijer Zu Schlochtern, Mp and Stapel, J and Smaal, Ac and Nagelkerke, Laj},\n\tmonth = jul,\n\tyear = {2019},\n\tpages = {143--154},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"lange-schmitt-krncke-moorthi-rohde-scheu-schupp-theroleofinvasivemarineplantsformacrofaunanutritioninthewaddensea-2019\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0022098118302843\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'lange-schmitt-krncke-moorthi-rohde-scheu-schupp-theroleofinvasivemarineplantsformacrofaunanutritioninthewaddensea-2019', 'https://linkinghub.elsevier.com/retrieve/pii/S0022098118302843', event);\">\n    The role of invasive marine plants for macrofauna nutrition in the Wadden Sea.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Lange, G., Schmitt, J. A., Kröncke, I., Moorthi, S. D., Rohde, S., Scheu, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Experimental Marine Biology and Ecology</i>, 512: 1–11. March 2019.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0022098118302843\"\n     onclick=\"log_download('lange-schmitt-krncke-moorthi-rohde-scheu-schupp-theroleofinvasivemarineplantsformacrofaunanutritioninthewaddensea-2019', 'https://linkinghub.elsevier.com/retrieve/pii/S0022098118302843', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"The role of invasive marine plants for macrofauna nutrition in the Wadden Sea [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.jembe.2018.12.005\"\n     onclick=\"log_download('lange-schmitt-krncke-moorthi-rohde-scheu-schupp-theroleofinvasivemarineplantsformacrofaunanutritioninthewaddensea-2019', 'http://doi.org/10.1016/j.jembe.2018.12.005', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/lange-schmitt-krncke-moorthi-rohde-scheu-schupp-theroleofinvasivemarineplantsformacrofaunanutritioninthewaddensea-2019\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('lange-schmitt-krncke-moorthi-rohde-scheu-schupp-theroleofinvasivemarineplantsformacrofaunanutritioninthewaddensea-2019')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{lange_role_2019,\n\ttitle = {The role of invasive marine plants for macrofauna nutrition in the {Wadden} {Sea}},\n\tvolume = {512},\n\tissn = {00220981},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0022098118302843},\n\tdoi = {10.1016/j.jembe.2018.12.005},\n\tlanguage = {en},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Experimental Marine Biology and Ecology},\n\tauthor = {Lange, Gesine and Schmitt, Jennifer A. and Kröncke, Ingrid and Moorthi, Stefanie D. and Rohde, Sven and Scheu, Stefan and Schupp, Peter J.},\n\tmonth = mar,\n\tyear = {2019},\n\tpages = {1--11},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"moeller-nietzer-schupp-neuroactivecompoundsinducelarvalsettlementinthescleractiniancoralleptastreapurpurea-2019\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://www.nature.com/articles/s41598-019-38794-2\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'moeller-nietzer-schupp-neuroactivecompoundsinducelarvalsettlementinthescleractiniancoralleptastreapurpurea-2019', 'http://www.nature.com/articles/s41598-019-38794-2', event);\">\n    Neuroactive compounds induce larval settlement in the scleractinian coral Leptastrea purpurea.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Moeller, M., Nietzer, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Scientific Reports</i>, 9(1): 2291. December 2019.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://www.nature.com/articles/s41598-019-38794-2\"\n     onclick=\"log_download('moeller-nietzer-schupp-neuroactivecompoundsinducelarvalsettlementinthescleractiniancoralleptastreapurpurea-2019', 'http://www.nature.com/articles/s41598-019-38794-2', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Neuroactive compounds induce larval settlement in the scleractinian coral Leptastrea purpurea [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1038/s41598-019-38794-2\"\n     onclick=\"log_download('moeller-nietzer-schupp-neuroactivecompoundsinducelarvalsettlementinthescleractiniancoralleptastreapurpurea-2019', 'http://doi.org/10.1038/s41598-019-38794-2', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/moeller-nietzer-schupp-neuroactivecompoundsinducelarvalsettlementinthescleractiniancoralleptastreapurpurea-2019\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('moeller-nietzer-schupp-neuroactivecompoundsinducelarvalsettlementinthescleractiniancoralleptastreapurpurea-2019')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{moeller_neuroactive_2019,\n\ttitle = {Neuroactive compounds induce larval settlement in the scleractinian coral {Leptastrea} purpurea},\n\tvolume = {9},\n\tissn = {2045-2322},\n\turl = {http://www.nature.com/articles/s41598-019-38794-2},\n\tdoi = {10.1038/s41598-019-38794-2},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Scientific Reports},\n\tauthor = {Moeller, Mareen and Nietzer, Samuel and Schupp, Peter J.},\n\tmonth = dec,\n\tyear = {2019},\n\tpages = {2291},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"khnhold-novais-alves-kamyab-lemos-slater-kunzmann-acclimationcapabilityinferredbymetabolicperformanceintwoseacucumberspeciesfromdifferentlatitudes-2019\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0306456519302116\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'khnhold-novais-alves-kamyab-lemos-slater-kunzmann-acclimationcapabilityinferredbymetabolicperformanceintwoseacucumberspeciesfromdifferentlatitudes-2019', 'https://linkinghub.elsevier.com/retrieve/pii/S0306456519302116', event);\">\n    Acclimation capability inferred by metabolic performance in two sea cucumber species from different latitudes.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Kühnhold, H., Novais, S. C., Alves, L. M., Kamyab, E., Lemos, M. F., Slater, M. J.,  &amp; Kunzmann, A.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Thermal Biology</i>, 84: 407–413. August 2019.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0306456519302116\"\n     onclick=\"log_download('khnhold-novais-alves-kamyab-lemos-slater-kunzmann-acclimationcapabilityinferredbymetabolicperformanceintwoseacucumberspeciesfromdifferentlatitudes-2019', 'https://linkinghub.elsevier.com/retrieve/pii/S0306456519302116', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Acclimation capability inferred by metabolic performance in two sea cucumber species from different latitudes [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.jtherbio.2019.07.019\"\n     onclick=\"log_download('khnhold-novais-alves-kamyab-lemos-slater-kunzmann-acclimationcapabilityinferredbymetabolicperformanceintwoseacucumberspeciesfromdifferentlatitudes-2019', 'http://doi.org/10.1016/j.jtherbio.2019.07.019', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/khnhold-novais-alves-kamyab-lemos-slater-kunzmann-acclimationcapabilityinferredbymetabolicperformanceintwoseacucumberspeciesfromdifferentlatitudes-2019\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('khnhold-novais-alves-kamyab-lemos-slater-kunzmann-acclimationcapabilityinferredbymetabolicperformanceintwoseacucumberspeciesfromdifferentlatitudes-2019')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n  \n  \n  \n  \n  \n  \n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{kuhnhold_acclimation_2019,\n\ttitle = {Acclimation capability inferred by metabolic performance in two sea cucumber species from different latitudes},\n\tvolume = {84},\n\tissn = {03064565},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0306456519302116},\n\tdoi = {10.1016/j.jtherbio.2019.07.019},\n\tlanguage = {en},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Thermal Biology},\n\tauthor = {Kühnhold, Holger and Novais, Sara C. and Alves, Luis M.F. and Kamyab, Elham and Lemos, Marco F.L. and Slater, Matthew J. and Kunzmann, Andreas},\n\tmonth = aug,\n\tyear = {2019},\n\tkeywords = {Energy metabolism, Eurytherms, Stenotherms, Temperature stress},\n\tpages = {407--413},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"tawfike-attia-desoukey-hajjar-makki-schupp-edradaebel-abdelmohsen-newbioactivemetabolitesfromtheelicitedmarinespongederivedbacteriumactinokineosporaspheciospongiaespnov-2019\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://amb-express.springeropen.com/articles/10.1186/s13568-018-0730-0\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'tawfike-attia-desoukey-hajjar-makki-schupp-edradaebel-abdelmohsen-newbioactivemetabolitesfromtheelicitedmarinespongederivedbacteriumactinokineosporaspheciospongiaespnov-2019', 'https://amb-express.springeropen.com/articles/10.1186/s13568-018-0730-0', event);\">\n    New bioactive metabolites from the elicited marine sponge-derived bacterium Actinokineospora spheciospongiae sp. nov.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Tawfike, A., Attia, E. Z., Desoukey, S. Y., Hajjar, D., Makki, A. A., Schupp, P. J., Edrada-Ebel, R.,  &amp; Abdelmohsen, U. R.\n</span>\n\n  \n\n</span>\n\n  <i>AMB Express</i>, 9(1): 12. December 2019.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://amb-express.springeropen.com/articles/10.1186/s13568-018-0730-0\"\n     onclick=\"log_download('tawfike-attia-desoukey-hajjar-makki-schupp-edradaebel-abdelmohsen-newbioactivemetabolitesfromtheelicitedmarinespongederivedbacteriumactinokineosporaspheciospongiaespnov-2019', 'https://amb-express.springeropen.com/articles/10.1186/s13568-018-0730-0', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"New bioactive metabolites from the elicited marine sponge-derived bacterium Actinokineospora spheciospongiae sp. nov. [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1186/s13568-018-0730-0\"\n     onclick=\"log_download('tawfike-attia-desoukey-hajjar-makki-schupp-edradaebel-abdelmohsen-newbioactivemetabolitesfromtheelicitedmarinespongederivedbacteriumactinokineosporaspheciospongiaespnov-2019', 'http://doi.org/10.1186/s13568-018-0730-0', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/tawfike-attia-desoukey-hajjar-makki-schupp-edradaebel-abdelmohsen-newbioactivemetabolitesfromtheelicitedmarinespongederivedbacteriumactinokineosporaspheciospongiaespnov-2019\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('tawfike-attia-desoukey-hajjar-makki-schupp-edradaebel-abdelmohsen-newbioactivemetabolitesfromtheelicitedmarinespongederivedbacteriumactinokineosporaspheciospongiaespnov-2019')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{tawfike_new_2019,\n\ttitle = {New bioactive metabolites from the elicited marine sponge-derived bacterium {Actinokineospora} spheciospongiae sp. nov.},\n\tvolume = {9},\n\tissn = {2191-0855},\n\turl = {https://amb-express.springeropen.com/articles/10.1186/s13568-018-0730-0},\n\tdoi = {10.1186/s13568-018-0730-0},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {AMB Express},\n\tauthor = {Tawfike, Ahmed and Attia, Eman Zekry and Desoukey, Samar Yehia and Hajjar, Dina and Makki, Arwa A. and Schupp, Peter J. and Edrada-Ebel, RuAngelie and Abdelmohsen, Usama Ramadan},\n\tmonth = dec,\n\tyear = {2019},\n\tpages = {12},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"helber-steinert-wu-rohde-hentschel-muhando-schupp-spongesfromzanzibarhostdiverseprokaryoticcommunitieswithpotentialfornaturalproductsynthesis-2019\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://academic.oup.com/femsec/article/doi/10.1093/femsec/fiz026/5369420\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'helber-steinert-wu-rohde-hentschel-muhando-schupp-spongesfromzanzibarhostdiverseprokaryoticcommunitieswithpotentialfornaturalproductsynthesis-2019', 'https://academic.oup.com/femsec/article/doi/10.1093/femsec/fiz026/5369420', event);\">\n    Sponges from Zanzibar host diverse prokaryotic communities with potential for natural product synthesis.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Helber, S. B, Steinert, G., Wu, Y., Rohde, S., Hentschel, U., Muhando, C. A,  &amp; Schupp, P. J\n</span>\n\n  \n\n</span>\n\n  <i>FEMS Microbiology Ecology</i>, 95(4). April 2019.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://academic.oup.com/femsec/article/doi/10.1093/femsec/fiz026/5369420\"\n     onclick=\"log_download('helber-steinert-wu-rohde-hentschel-muhando-schupp-spongesfromzanzibarhostdiverseprokaryoticcommunitieswithpotentialfornaturalproductsynthesis-2019', 'https://academic.oup.com/femsec/article/doi/10.1093/femsec/fiz026/5369420', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Sponges from Zanzibar host diverse prokaryotic communities with potential for natural product synthesis [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1093/femsec/fiz026\"\n     onclick=\"log_download('helber-steinert-wu-rohde-hentschel-muhando-schupp-spongesfromzanzibarhostdiverseprokaryoticcommunitieswithpotentialfornaturalproductsynthesis-2019', 'http://doi.org/10.1093/femsec/fiz026', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/helber-steinert-wu-rohde-hentschel-muhando-schupp-spongesfromzanzibarhostdiverseprokaryoticcommunitieswithpotentialfornaturalproductsynthesis-2019\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('helber-steinert-wu-rohde-hentschel-muhando-schupp-spongesfromzanzibarhostdiverseprokaryoticcommunitieswithpotentialfornaturalproductsynthesis-2019')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{helber_sponges_2019,\n\ttitle = {Sponges from {Zanzibar} host diverse prokaryotic communities with potential for natural product synthesis},\n\tvolume = {95},\n\tissn = {1574-6941},\n\turl = {https://academic.oup.com/femsec/article/doi/10.1093/femsec/fiz026/5369420},\n\tdoi = {10.1093/femsec/fiz026},\n\tlanguage = {en},\n\tnumber = {4},\n\turldate = {2022-11-09},\n\tjournal = {FEMS Microbiology Ecology},\n\tauthor = {Helber, Stephanie B and Steinert, Georg and Wu, Yu-Chen and Rohde, Sven and Hentschel, Ute and Muhando, Christopher A and Schupp, Peter J},\n\tmonth = apr,\n\tyear = {2019},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"klinger-towskaaksamitowska-wysokowski-tsurkan-galli-petrenko-machaowski-ereskovsky-etal-expressmethodforisolationofreadytouse3dchitinscaffoldsfromaplysinaarcheriaplysineidaeverongiidademosponge-2019\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://www.mdpi.com/1660-3397/17/2/131\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'klinger-towskaaksamitowska-wysokowski-tsurkan-galli-petrenko-machaowski-ereskovsky-etal-expressmethodforisolationofreadytouse3dchitinscaffoldsfromaplysinaarcheriaplysineidaeverongiidademosponge-2019', 'http://www.mdpi.com/1660-3397/17/2/131', event);\">\n    Express Method for Isolation of Ready-to-Use 3D Chitin Scaffolds from Aplysina archeri (Aplysineidae: Verongiida) Demosponge.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Klinger, C., Żółtowska-Aksamitowska, S., Wysokowski, M., Tsurkan, M. V., Galli, R., Petrenko, I., Machałowski, T., Ereskovsky, A., Martinović, R., Muzychka, L., Smolii, O. B., Bechmann, N., Ivanenko, V., Schupp, P. J., Jesionowski, T., Giovine, M., Joseph, Y., Bornstein, S. R., Voronkina, A.,  &amp; Ehrlich, H.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Drugs</i>, 17(2): 131. February 2019.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://www.mdpi.com/1660-3397/17/2/131\"\n     onclick=\"log_download('klinger-towskaaksamitowska-wysokowski-tsurkan-galli-petrenko-machaowski-ereskovsky-etal-expressmethodforisolationofreadytouse3dchitinscaffoldsfromaplysinaarcheriaplysineidaeverongiidademosponge-2019', 'http://www.mdpi.com/1660-3397/17/2/131', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Express Method for Isolation of Ready-to-Use 3D Chitin Scaffolds from Aplysina archeri (Aplysineidae: Verongiida) Demosponge [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/md17020131\"\n     onclick=\"log_download('klinger-towskaaksamitowska-wysokowski-tsurkan-galli-petrenko-machaowski-ereskovsky-etal-expressmethodforisolationofreadytouse3dchitinscaffoldsfromaplysinaarcheriaplysineidaeverongiidademosponge-2019', 'http://doi.org/10.3390/md17020131', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/klinger-towskaaksamitowska-wysokowski-tsurkan-galli-petrenko-machaowski-ereskovsky-etal-expressmethodforisolationofreadytouse3dchitinscaffoldsfromaplysinaarcheriaplysineidaeverongiidademosponge-2019\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('klinger-towskaaksamitowska-wysokowski-tsurkan-galli-petrenko-machaowski-ereskovsky-etal-expressmethodforisolationofreadytouse3dchitinscaffoldsfromaplysinaarcheriaplysineidaeverongiidademosponge-2019')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{klinger_express_2019,\n\ttitle = {Express {Method} for {Isolation} of {Ready}-to-{Use} {3D} {Chitin} {Scaffolds} from {Aplysina} archeri ({Aplysineidae}: {Verongiida}) {Demosponge}},\n\tvolume = {17},\n\tissn = {1660-3397},\n\tshorttitle = {Express {Method} for {Isolation} of {Ready}-to-{Use} {3D} {Chitin} {Scaffolds} from {Aplysina} archeri ({Aplysineidae}},\n\turl = {http://www.mdpi.com/1660-3397/17/2/131},\n\tdoi = {10.3390/md17020131},\n\tabstract = {Sponges are a valuable source of natural compounds and biomaterials for many biotechnological applications. Marine sponges belonging to the order Verongiida are known to contain both chitin and biologically active bromotyrosines. Aplysina archeri (Aplysineidae: Verongiida) is well known to contain bromotyrosines with relevant bioactivity against human and animal diseases. The aim of this study was to develop an express method for the production of naturally prefabricated 3D chitin and bromotyrosine-containing extracts simultaneously. This new method is based on microwave irradiation (MWI) together with stepwise treatment using 1\\% sodium hydroxide, 20\\% acetic acid, and 30\\% hydrogen peroxide. This approach, which takes up to 1 h, made it possible to isolate chitin from the tube-like skeleton of A. archeri and to demonstrate the presence of this biopolymer in this sponge for the first time. Additionally, this procedure does not deacetylate chitin to chitosan and enables the recovery of ready-to-use 3D chitin scaffolds without destruction of the unique tube-like fibrous interconnected structure of the isolated biomaterial. Furthermore, these mechanically stressed fibers still have the capacity for saturation with water, methylene blue dye, crude oil, and blood, which is necessary for the application of such renewable 3D chitinous centimeter-sized scaffolds in diverse technological and biomedical fields.},\n\tlanguage = {en},\n\tnumber = {2},\n\turldate = {2022-11-09},\n\tjournal = {Marine Drugs},\n\tauthor = {Klinger, Christine and Żółtowska-Aksamitowska, Sonia and Wysokowski, Marcin and Tsurkan, Mikhail V. and Galli, Roberta and Petrenko, Iaroslav and Machałowski, Tomasz and Ereskovsky, Alexander and Martinović, Rajko and Muzychka, Lyubov and Smolii, Oleg B. and Bechmann, Nicole and Ivanenko, Viatcheslav and Schupp, Peter J. and Jesionowski, Teofil and Giovine, Marco and Joseph, Yvonne and Bornstein, Stefan R. and Voronkina, Alona and Ehrlich, Hermann},\n\tmonth = feb,\n\tyear = {2019},\n\tpages = {131},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Sponges are a valuable source of natural compounds and biomaterials for many biotechnological applications. Marine sponges belonging to the order Verongiida are known to contain both chitin and biologically active bromotyrosines. Aplysina archeri (Aplysineidae: Verongiida) is well known to contain bromotyrosines with relevant bioactivity against human and animal diseases. The aim of this study was to develop an express method for the production of naturally prefabricated 3D chitin and bromotyrosine-containing extracts simultaneously. This new method is based on microwave irradiation (MWI) together with stepwise treatment using 1% sodium hydroxide, 20% acetic acid, and 30% hydrogen peroxide. This approach, which takes up to 1 h, made it possible to isolate chitin from the tube-like skeleton of A. archeri and to demonstrate the presence of this biopolymer in this sponge for the first time. Additionally, this procedure does not deacetylate chitin to chitosan and enables the recovery of ready-to-use 3D chitin scaffolds without destruction of the unique tube-like fibrous interconnected structure of the isolated biomaterial. Furthermore, these mechanically stressed fibers still have the capacity for saturation with water, methylene blue dye, crude oil, and blood, which is necessary for the application of such renewable 3D chitinous centimeter-sized scaffolds in diverse technological and biomedical fields.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"steinert-wemheuer-janussen-erpenbeck-daniel-simon-brinkhoff-schupp-prokaryoticdiversityandcommunitypatternsinantarcticcontinentalshelfsponges-2019\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.frontiersin.org/article/10.3389/fmars.2019.00297/full\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'steinert-wemheuer-janussen-erpenbeck-daniel-simon-brinkhoff-schupp-prokaryoticdiversityandcommunitypatternsinantarcticcontinentalshelfsponges-2019', 'https://www.frontiersin.org/article/10.3389/fmars.2019.00297/full', event);\">\n    Prokaryotic Diversity and Community Patterns in Antarctic Continental Shelf Sponges.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Steinert, G., Wemheuer, B., Janussen, D., Erpenbeck, D., Daniel, R., Simon, M., Brinkhoff, T.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Frontiers in Marine Science</i>, 6: 297. June 2019.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.frontiersin.org/article/10.3389/fmars.2019.00297/full\"\n     onclick=\"log_download('steinert-wemheuer-janussen-erpenbeck-daniel-simon-brinkhoff-schupp-prokaryoticdiversityandcommunitypatternsinantarcticcontinentalshelfsponges-2019', 'https://www.frontiersin.org/article/10.3389/fmars.2019.00297/full', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Prokaryotic Diversity and Community Patterns in Antarctic Continental Shelf Sponges [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3389/fmars.2019.00297\"\n     onclick=\"log_download('steinert-wemheuer-janussen-erpenbeck-daniel-simon-brinkhoff-schupp-prokaryoticdiversityandcommunitypatternsinantarcticcontinentalshelfsponges-2019', 'http://doi.org/10.3389/fmars.2019.00297', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/steinert-wemheuer-janussen-erpenbeck-daniel-simon-brinkhoff-schupp-prokaryoticdiversityandcommunitypatternsinantarcticcontinentalshelfsponges-2019\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('steinert-wemheuer-janussen-erpenbeck-daniel-simon-brinkhoff-schupp-prokaryoticdiversityandcommunitypatternsinantarcticcontinentalshelfsponges-2019')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{steinert_prokaryotic_2019,\n\ttitle = {Prokaryotic {Diversity} and {Community} {Patterns} in {Antarctic} {Continental} {Shelf} {Sponges}},\n\tvolume = {6},\n\tissn = {2296-7745},\n\turl = {https://www.frontiersin.org/article/10.3389/fmars.2019.00297/full},\n\tdoi = {10.3389/fmars.2019.00297},\n\turldate = {2022-11-09},\n\tjournal = {Frontiers in Marine Science},\n\tauthor = {Steinert, Georg and Wemheuer, Bernd and Janussen, Dorte and Erpenbeck, Dirk and Daniel, Rolf and Simon, Meinhard and Brinkhoff, Thorsten and Schupp, Peter J.},\n\tmonth = jun,\n\tyear = {2019},\n\tpages = {297},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"wibowo-kellermann-versluis-putra-murniasih-mohr-wink-engelmann-etal-biotechnologicalpotentialofbacteriaisolatedfromtheseacucumberholothurialeucospilotaandstichopusvastusfromlampungindonesia-2019\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.mdpi.com/1660-3397/17/11/635\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'wibowo-kellermann-versluis-putra-murniasih-mohr-wink-engelmann-etal-biotechnologicalpotentialofbacteriaisolatedfromtheseacucumberholothurialeucospilotaandstichopusvastusfromlampungindonesia-2019', 'https://www.mdpi.com/1660-3397/17/11/635', event);\">\n    Biotechnological Potential of Bacteria Isolated from the Sea Cucumber Holothuria leucospilota and Stichopus vastus from Lampung, Indonesia.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Wibowo, J. T., Kellermann, M. Y., Versluis, D., Putra, M. Y., Murniasih, T., Mohr, K. I., Wink, J., Engelmann, M., Praditya, D. F., Steinmann, E.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Drugs</i>, 17(11): 635. November 2019.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.mdpi.com/1660-3397/17/11/635\"\n     onclick=\"log_download('wibowo-kellermann-versluis-putra-murniasih-mohr-wink-engelmann-etal-biotechnologicalpotentialofbacteriaisolatedfromtheseacucumberholothurialeucospilotaandstichopusvastusfromlampungindonesia-2019', 'https://www.mdpi.com/1660-3397/17/11/635', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Biotechnological Potential of Bacteria Isolated from the Sea Cucumber Holothuria leucospilota and Stichopus vastus from Lampung, Indonesia [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/md17110635\"\n     onclick=\"log_download('wibowo-kellermann-versluis-putra-murniasih-mohr-wink-engelmann-etal-biotechnologicalpotentialofbacteriaisolatedfromtheseacucumberholothurialeucospilotaandstichopusvastusfromlampungindonesia-2019', 'http://doi.org/10.3390/md17110635', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/wibowo-kellermann-versluis-putra-murniasih-mohr-wink-engelmann-etal-biotechnologicalpotentialofbacteriaisolatedfromtheseacucumberholothurialeucospilotaandstichopusvastusfromlampungindonesia-2019\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('wibowo-kellermann-versluis-putra-murniasih-mohr-wink-engelmann-etal-biotechnologicalpotentialofbacteriaisolatedfromtheseacucumberholothurialeucospilotaandstichopusvastusfromlampungindonesia-2019')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{wibowo_biotechnological_2019,\n\ttitle = {Biotechnological {Potential} of {Bacteria} {Isolated} from the {Sea} {Cucumber} {Holothuria} leucospilota and {Stichopus} vastus from {Lampung}, {Indonesia}},\n\tvolume = {17},\n\tissn = {1660-3397},\n\turl = {https://www.mdpi.com/1660-3397/17/11/635},\n\tdoi = {10.3390/md17110635},\n\tabstract = {In order to minimize re-discovery of already known anti-infective compounds, we focused our screening approach on understudied, almost untapped marine environments including marine invertebrates and their associated bacteria. Therefore, two sea cucumber species, Holothuria leucospilota and Stichopus vastus, were collected from Lampung (Indonesia), and 127 bacterial strains were identified by partial 16S rRNA-gene sequencing analysis and compared with the NCBI database. In addition, the overall bacterial diversity from tissue samples of the sea cucumbers H. leucospilota and S. vastus was analyzed using the cultivation-independent Illumina MiSEQ analysis. Selected bacterial isolates were grown to high densities and the extracted biomass was tested against a selection of bacteria and fungi as well as the hepatitis C virus (HCV). Identification of putative bioactive bacterial-derived compounds were performed by analyzing the accurate mass of the precursor/parent ions (MS1) as well as product/daughter ions (MS2) using high resolution mass spectrometry (HRMS) analysis of all active fractions. With this attempt we were able to identify 23 putatively known and two previously unidentified precursor ions. Moreover, through 16S rRNA-gene sequencing we were able to identify putatively novel bacterial species from the phyla Actinobacteria, Proteobacteria and also Firmicutes. Our findings suggest that sea cucumbers like H. leucospilota and S. vastus are promising sources for the isolation of novel bacterial species that produce compounds with potentially high biotechnological potential.},\n\tlanguage = {en},\n\tnumber = {11},\n\turldate = {2022-11-09},\n\tjournal = {Marine Drugs},\n\tauthor = {Wibowo, Joko T. and Kellermann, Matthias Y. and Versluis, Dennis and Putra, Masteria Y. and Murniasih, Tutik and Mohr, Kathrin I. and Wink, Joachim and Engelmann, Michael and Praditya, Dimas F. and Steinmann, Eike and Schupp, Peter J.},\n\tmonth = nov,\n\tyear = {2019},\n\tpages = {635},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  In order to minimize re-discovery of already known anti-infective compounds, we focused our screening approach on understudied, almost untapped marine environments including marine invertebrates and their associated bacteria. Therefore, two sea cucumber species, Holothuria leucospilota and Stichopus vastus, were collected from Lampung (Indonesia), and 127 bacterial strains were identified by partial 16S rRNA-gene sequencing analysis and compared with the NCBI database. In addition, the overall bacterial diversity from tissue samples of the sea cucumbers H. leucospilota and S. vastus was analyzed using the cultivation-independent Illumina MiSEQ analysis. Selected bacterial isolates were grown to high densities and the extracted biomass was tested against a selection of bacteria and fungi as well as the hepatitis C virus (HCV). Identification of putative bioactive bacterial-derived compounds were performed by analyzing the accurate mass of the precursor/parent ions (MS1) as well as product/daughter ions (MS2) using high resolution mass spectrometry (HRMS) analysis of all active fractions. With this attempt we were able to identify 23 putatively known and two previously unidentified precursor ions. Moreover, through 16S rRNA-gene sequencing we were able to identify putatively novel bacterial species from the phyla Actinobacteria, Proteobacteria and also Firmicutes. Our findings suggest that sea cucumbers like H. leucospilota and S. vastus are promising sources for the isolation of novel bacterial species that produce compounds with potentially high biotechnological potential.\n</div>\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2018\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2018')\"\n      onkeypress=\"toggleGroup('group_2018')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2018</span>\n      <span class=\"bibbase_group_count\">\n        \n        (2)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"versluis-nijsse-naim-koehorst-wiese-imhoff-schaap-vanpassel-etal-comparativegenomicshighlightssymbioticcapacitiesandhighmetabolicflexibilityofthemarinegenuspseudovibrio-2018\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://academic.oup.com/gbe/article/10/1/125/4793240\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'versluis-nijsse-naim-koehorst-wiese-imhoff-schaap-vanpassel-etal-comparativegenomicshighlightssymbioticcapacitiesandhighmetabolicflexibilityofthemarinegenuspseudovibrio-2018', 'http://academic.oup.com/gbe/article/10/1/125/4793240', event);\">\n    Comparative Genomics Highlights Symbiotic Capacities and High Metabolic Flexibility of the Marine Genus Pseudovibrio.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Versluis, D., Nijsse, B., Naim, M. A., Koehorst, J. J, Wiese, J., Imhoff, J. F, Schaap, P. J, van Passel, M. W J, Smidt, H.,  &amp; Sipkema, D.\n</span>\n\n  \n\n</span>\n\n  <i>Genome Biology and Evolution</i>, 10(1): 125–142. January 2018.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://academic.oup.com/gbe/article/10/1/125/4793240\"\n     onclick=\"log_download('versluis-nijsse-naim-koehorst-wiese-imhoff-schaap-vanpassel-etal-comparativegenomicshighlightssymbioticcapacitiesandhighmetabolicflexibilityofthemarinegenuspseudovibrio-2018', 'http://academic.oup.com/gbe/article/10/1/125/4793240', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Comparative Genomics Highlights Symbiotic Capacities and High Metabolic Flexibility of the Marine Genus Pseudovibrio [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1093/gbe/evx271\"\n     onclick=\"log_download('versluis-nijsse-naim-koehorst-wiese-imhoff-schaap-vanpassel-etal-comparativegenomicshighlightssymbioticcapacitiesandhighmetabolicflexibilityofthemarinegenuspseudovibrio-2018', 'http://doi.org/10.1093/gbe/evx271', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/versluis-nijsse-naim-koehorst-wiese-imhoff-schaap-vanpassel-etal-comparativegenomicshighlightssymbioticcapacitiesandhighmetabolicflexibilityofthemarinegenuspseudovibrio-2018\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('versluis-nijsse-naim-koehorst-wiese-imhoff-schaap-vanpassel-etal-comparativegenomicshighlightssymbioticcapacitiesandhighmetabolicflexibilityofthemarinegenuspseudovibrio-2018')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{versluis_comparative_2018,\n\ttitle = {Comparative {Genomics} {Highlights} {Symbiotic} {Capacities} and {High} {Metabolic} {Flexibility} of the {Marine} {Genus} {Pseudovibrio}},\n\tvolume = {10},\n\tissn = {1759-6653},\n\turl = {http://academic.oup.com/gbe/article/10/1/125/4793240},\n\tdoi = {10.1093/gbe/evx271},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Genome Biology and Evolution},\n\tauthor = {Versluis, Dennis and Nijsse, Bart and Naim, Mohd Azrul and Koehorst, Jasper J and Wiese, Jutta and Imhoff, Johannes F and Schaap, Peter J and van Passel, Mark W J and Smidt, Hauke and Sipkema, Detmer},\n\tmonth = jan,\n\tyear = {2018},\n\tpages = {125--142},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"helber-hoeijmakers-muhando-rohde-schupp-spongechemicaldefensesareapossiblemechanismforincreasingspongeabundanceonreefsinzanzibar-2018\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://dx.plos.org/10.1371/journal.pone.0197617\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'helber-hoeijmakers-muhando-rohde-schupp-spongechemicaldefensesareapossiblemechanismforincreasingspongeabundanceonreefsinzanzibar-2018', 'https://dx.plos.org/10.1371/journal.pone.0197617', event);\">\n    Sponge chemical defenses are a possible mechanism for increasing sponge abundance on reefs in Zanzibar.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Helber, S. B., Hoeijmakers, D. J. J., Muhando, C. A., Rohde, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>PLOS ONE</i>, 13(6): e0197617. June 2018.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://dx.plos.org/10.1371/journal.pone.0197617\"\n     onclick=\"log_download('helber-hoeijmakers-muhando-rohde-schupp-spongechemicaldefensesareapossiblemechanismforincreasingspongeabundanceonreefsinzanzibar-2018', 'https://dx.plos.org/10.1371/journal.pone.0197617', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Sponge chemical defenses are a possible mechanism for increasing sponge abundance on reefs in Zanzibar [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1371/journal.pone.0197617\"\n     onclick=\"log_download('helber-hoeijmakers-muhando-rohde-schupp-spongechemicaldefensesareapossiblemechanismforincreasingspongeabundanceonreefsinzanzibar-2018', 'http://doi.org/10.1371/journal.pone.0197617', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/helber-hoeijmakers-muhando-rohde-schupp-spongechemicaldefensesareapossiblemechanismforincreasingspongeabundanceonreefsinzanzibar-2018\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('helber-hoeijmakers-muhando-rohde-schupp-spongechemicaldefensesareapossiblemechanismforincreasingspongeabundanceonreefsinzanzibar-2018')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{helber_sponge_2018,\n\ttitle = {Sponge chemical defenses are a possible mechanism for increasing sponge abundance on reefs in {Zanzibar}},\n\tvolume = {13},\n\tissn = {1932-6203},\n\turl = {https://dx.plos.org/10.1371/journal.pone.0197617},\n\tdoi = {10.1371/journal.pone.0197617},\n\tlanguage = {en},\n\tnumber = {6},\n\turldate = {2022-11-09},\n\tjournal = {PLOS ONE},\n\tauthor = {Helber, Stephanie B. and Hoeijmakers, Dieuwke J. J. and Muhando, Christopher A. and Rohde, Sven and Schupp, Peter J.},\n\teditor = {Pronzato, Roberto},\n\tmonth = jun,\n\tyear = {2018},\n\tpages = {e0197617},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2017\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2017')\"\n      onkeypress=\"toggleGroup('group_2017')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2017</span>\n      <span class=\"bibbase_group_count\">\n        \n        (12)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"moeller-nietzer-schils-schupp-lowsedimentloadsaffectsurvivalofcoralrecruitsthefirstweeksarecrucial-2017\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s00338-016-1513-1\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'moeller-nietzer-schils-schupp-lowsedimentloadsaffectsurvivalofcoralrecruitsthefirstweeksarecrucial-2017', 'http://link.springer.com/10.1007/s00338-016-1513-1', event);\">\n    Low sediment loads affect survival of coral recruits: the first weeks are crucial.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Moeller, M., Nietzer, S., Schils, T.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Coral Reefs</i>, 36(1): 39–49. March 2017.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s00338-016-1513-1\"\n     onclick=\"log_download('moeller-nietzer-schils-schupp-lowsedimentloadsaffectsurvivalofcoralrecruitsthefirstweeksarecrucial-2017', 'http://link.springer.com/10.1007/s00338-016-1513-1', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Low sediment loads affect survival of coral recruits: the first weeks are crucial [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s00338-016-1513-1\"\n     onclick=\"log_download('moeller-nietzer-schils-schupp-lowsedimentloadsaffectsurvivalofcoralrecruitsthefirstweeksarecrucial-2017', 'http://doi.org/10.1007/s00338-016-1513-1', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/moeller-nietzer-schils-schupp-lowsedimentloadsaffectsurvivalofcoralrecruitsthefirstweeksarecrucial-2017\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('moeller-nietzer-schils-schupp-lowsedimentloadsaffectsurvivalofcoralrecruitsthefirstweeksarecrucial-2017')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{moeller_low_2017,\n\ttitle = {Low sediment loads affect survival of coral recruits: the first weeks are crucial},\n\tvolume = {36},\n\tissn = {0722-4028, 1432-0975},\n\tshorttitle = {Low sediment loads affect survival of coral recruits},\n\turl = {http://link.springer.com/10.1007/s00338-016-1513-1},\n\tdoi = {10.1007/s00338-016-1513-1},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Coral Reefs},\n\tauthor = {Moeller, Mareen and Nietzer, Samuel and Schils, Tom and Schupp, Peter J.},\n\tmonth = mar,\n\tyear = {2017},\n\tpages = {39--49},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"madduppa-schupp-faisal-sastria-thoms-persistentoutbreaksoftheblackdiseasespongeterpioshoshinotainindonesiancoralreefs-2017\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s12526-015-0426-5\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'madduppa-schupp-faisal-sastria-thoms-persistentoutbreaksoftheblackdiseasespongeterpioshoshinotainindonesiancoralreefs-2017', 'http://link.springer.com/10.1007/s12526-015-0426-5', event);\">\n    Persistent outbreaks of the “black disease” sponge Terpios hoshinota in Indonesian coral reefs.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Madduppa, H., Schupp, P. J., Faisal, M. R., Sastria, M. Y.,  &amp; Thoms, C.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Biodiversity</i>, 47(1): 149–151. March 2017.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s12526-015-0426-5\"\n     onclick=\"log_download('madduppa-schupp-faisal-sastria-thoms-persistentoutbreaksoftheblackdiseasespongeterpioshoshinotainindonesiancoralreefs-2017', 'http://link.springer.com/10.1007/s12526-015-0426-5', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Persistent outbreaks of the “black disease” sponge Terpios hoshinota in Indonesian coral reefs [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s12526-015-0426-5\"\n     onclick=\"log_download('madduppa-schupp-faisal-sastria-thoms-persistentoutbreaksoftheblackdiseasespongeterpioshoshinotainindonesiancoralreefs-2017', 'http://doi.org/10.1007/s12526-015-0426-5', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/madduppa-schupp-faisal-sastria-thoms-persistentoutbreaksoftheblackdiseasespongeterpioshoshinotainindonesiancoralreefs-2017\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('madduppa-schupp-faisal-sastria-thoms-persistentoutbreaksoftheblackdiseasespongeterpioshoshinotainindonesiancoralreefs-2017')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{madduppa_persistent_2017,\n\ttitle = {Persistent outbreaks of the “black disease” sponge {Terpios} hoshinota in {Indonesian} coral reefs},\n\tvolume = {47},\n\tissn = {1867-1616, 1867-1624},\n\turl = {http://link.springer.com/10.1007/s12526-015-0426-5},\n\tdoi = {10.1007/s12526-015-0426-5},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Marine Biodiversity},\n\tauthor = {Madduppa, Hawis and Schupp, Peter J. and Faisal, Muhammad Reza and Sastria, Mustami Yuda and Thoms, Carsten},\n\tmonth = mar,\n\tyear = {2017},\n\tpages = {149--151},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"helber-devoogd-muhando-rohde-schupp-antipredatoryeffectsoforganicextractsof10commonreefspongesfromzanzibar-2017\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s10750-016-3036-8\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'helber-devoogd-muhando-rohde-schupp-antipredatoryeffectsoforganicextractsof10commonreefspongesfromzanzibar-2017', 'http://link.springer.com/10.1007/s10750-016-3036-8', event);\">\n    Anti-predatory effects of organic extracts of 10 common reef sponges from Zanzibar.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Helber, S. B., de Voogd, N. J., Muhando, C. A., Rohde, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Hydrobiologia</i>, 790(1): 247–258. April 2017.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s10750-016-3036-8\"\n     onclick=\"log_download('helber-devoogd-muhando-rohde-schupp-antipredatoryeffectsoforganicextractsof10commonreefspongesfromzanzibar-2017', 'http://link.springer.com/10.1007/s10750-016-3036-8', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Anti-predatory effects of organic extracts of 10 common reef sponges from Zanzibar [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s10750-016-3036-8\"\n     onclick=\"log_download('helber-devoogd-muhando-rohde-schupp-antipredatoryeffectsoforganicextractsof10commonreefspongesfromzanzibar-2017', 'http://doi.org/10.1007/s10750-016-3036-8', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/helber-devoogd-muhando-rohde-schupp-antipredatoryeffectsoforganicextractsof10commonreefspongesfromzanzibar-2017\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('helber-devoogd-muhando-rohde-schupp-antipredatoryeffectsoforganicextractsof10commonreefspongesfromzanzibar-2017')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{helber_anti-predatory_2017,\n\ttitle = {Anti-predatory effects of organic extracts of 10 common reef sponges from {Zanzibar}},\n\tvolume = {790},\n\tissn = {0018-8158, 1573-5117},\n\turl = {http://link.springer.com/10.1007/s10750-016-3036-8},\n\tdoi = {10.1007/s10750-016-3036-8},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Hydrobiologia},\n\tauthor = {Helber, S. B. and de Voogd, N. J. and Muhando, C. A. and Rohde, S. and Schupp, P. J.},\n\tmonth = apr,\n\tyear = {2017},\n\tpages = {247--258},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"rohde-schupp-markert-wehrmann-onlyhalfofthetruthmanaginginvasivealienspeciesbyrapidassessment-2017\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0964569116303155\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'rohde-schupp-markert-wehrmann-onlyhalfofthetruthmanaginginvasivealienspeciesbyrapidassessment-2017', 'https://linkinghub.elsevier.com/retrieve/pii/S0964569116303155', event);\">\n    Only half of the truth: Managing invasive alien species by rapid assessment.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Rohde, S., Schupp, P. J., Markert, A.,  &amp; Wehrmann, A.\n</span>\n\n  \n\n</span>\n\n  <i>Ocean & Coastal Management</i>, 146: 26–35. September 2017.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0964569116303155\"\n     onclick=\"log_download('rohde-schupp-markert-wehrmann-onlyhalfofthetruthmanaginginvasivealienspeciesbyrapidassessment-2017', 'https://linkinghub.elsevier.com/retrieve/pii/S0964569116303155', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Only half of the truth: Managing invasive alien species by rapid assessment [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.ocecoaman.2017.05.013\"\n     onclick=\"log_download('rohde-schupp-markert-wehrmann-onlyhalfofthetruthmanaginginvasivealienspeciesbyrapidassessment-2017', 'http://doi.org/10.1016/j.ocecoaman.2017.05.013', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/rohde-schupp-markert-wehrmann-onlyhalfofthetruthmanaginginvasivealienspeciesbyrapidassessment-2017\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('rohde-schupp-markert-wehrmann-onlyhalfofthetruthmanaginginvasivealienspeciesbyrapidassessment-2017')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{rohde_only_2017,\n\ttitle = {Only half of the truth: {Managing} invasive alien species by rapid assessment},\n\tvolume = {146},\n\tissn = {09645691},\n\tshorttitle = {Only half of the truth},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0964569116303155},\n\tdoi = {10.1016/j.ocecoaman.2017.05.013},\n\tlanguage = {en},\n\turldate = {2022-11-09},\n\tjournal = {Ocean \\&amp; Coastal Management},\n\tauthor = {Rohde, Sven and Schupp, Peter J. and Markert, Alexandra and Wehrmann, Achim},\n\tmonth = sep,\n\tyear = {2017},\n\tpages = {26--35},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"petrenko-bazhenov-galli-wysokowski-fromont-schupp-stelling-niederschlag-etal-chitinofporiferanoriginandthebioelectrometallurgyofcoppercopperoxide-2017\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0141813016326915\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'petrenko-bazhenov-galli-wysokowski-fromont-schupp-stelling-niederschlag-etal-chitinofporiferanoriginandthebioelectrometallurgyofcoppercopperoxide-2017', 'https://linkinghub.elsevier.com/retrieve/pii/S0141813016326915', event);\">\n    Chitin of poriferan origin and the bioelectrometallurgy of copper/copper oxide.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Petrenko, I., Bazhenov, V. V., Galli, R., Wysokowski, M., Fromont, J., Schupp, P. J., Stelling, A. L., Niederschlag, E., Stöker, H., Kutsova, V. Z., Jesionowski, T.,  &amp; Ehrlich, H.\n</span>\n\n  \n\n</span>\n\n  <i>International Journal of Biological Macromolecules</i>, 104: 1626–1632. November 2017.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0141813016326915\"\n     onclick=\"log_download('petrenko-bazhenov-galli-wysokowski-fromont-schupp-stelling-niederschlag-etal-chitinofporiferanoriginandthebioelectrometallurgyofcoppercopperoxide-2017', 'https://linkinghub.elsevier.com/retrieve/pii/S0141813016326915', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Chitin of poriferan origin and the bioelectrometallurgy of copper/copper oxide [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.ijbiomac.2017.01.084\"\n     onclick=\"log_download('petrenko-bazhenov-galli-wysokowski-fromont-schupp-stelling-niederschlag-etal-chitinofporiferanoriginandthebioelectrometallurgyofcoppercopperoxide-2017', 'http://doi.org/10.1016/j.ijbiomac.2017.01.084', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/petrenko-bazhenov-galli-wysokowski-fromont-schupp-stelling-niederschlag-etal-chitinofporiferanoriginandthebioelectrometallurgyofcoppercopperoxide-2017\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('petrenko-bazhenov-galli-wysokowski-fromont-schupp-stelling-niederschlag-etal-chitinofporiferanoriginandthebioelectrometallurgyofcoppercopperoxide-2017')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{petrenko_chitin_2017,\n\ttitle = {Chitin of poriferan origin and the bioelectrometallurgy of copper/copper oxide},\n\tvolume = {104},\n\tissn = {01418130},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0141813016326915},\n\tdoi = {10.1016/j.ijbiomac.2017.01.084},\n\tlanguage = {en},\n\turldate = {2022-11-09},\n\tjournal = {International Journal of Biological Macromolecules},\n\tauthor = {Petrenko, Iaroslav and Bazhenov, Vasilii V. and Galli, Roberta and Wysokowski, Marcin and Fromont, Jane and Schupp, Peter J. and Stelling, Allison L. and Niederschlag, Elke and Stöker, Hartmut and Kutsova, Valentina Z. and Jesionowski, Teofil and Ehrlich, Hermann},\n\tmonth = nov,\n\tyear = {2017},\n\tpages = {1626--1632},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"erpenbeck-aryasari-benning-debitus-kaltenbacher-alaidaroos-schupp-hall-etal-diversityoftwowidespreadindopacificdemospongespeciesrevisited-2017\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s12526-017-0783-3\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'erpenbeck-aryasari-benning-debitus-kaltenbacher-alaidaroos-schupp-hall-etal-diversityoftwowidespreadindopacificdemospongespeciesrevisited-2017', 'http://link.springer.com/10.1007/s12526-017-0783-3', event);\">\n    Diversity of two widespread Indo-Pacific demosponge species revisited.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Erpenbeck, D., Aryasari, R., Benning, S., Debitus, C., Kaltenbacher, E., Al-Aidaroos, A. M., Schupp, P., Hall, K., Hooper, J. N. A., Voigt, O., de Voogd, N. J.,  &amp; Wörheide, G.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Biodiversity</i>, 47(4): 1035–1043. December 2017.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s12526-017-0783-3\"\n     onclick=\"log_download('erpenbeck-aryasari-benning-debitus-kaltenbacher-alaidaroos-schupp-hall-etal-diversityoftwowidespreadindopacificdemospongespeciesrevisited-2017', 'http://link.springer.com/10.1007/s12526-017-0783-3', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Diversity of two widespread Indo-Pacific demosponge species revisited [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s12526-017-0783-3\"\n     onclick=\"log_download('erpenbeck-aryasari-benning-debitus-kaltenbacher-alaidaroos-schupp-hall-etal-diversityoftwowidespreadindopacificdemospongespeciesrevisited-2017', 'http://doi.org/10.1007/s12526-017-0783-3', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/erpenbeck-aryasari-benning-debitus-kaltenbacher-alaidaroos-schupp-hall-etal-diversityoftwowidespreadindopacificdemospongespeciesrevisited-2017\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('erpenbeck-aryasari-benning-debitus-kaltenbacher-alaidaroos-schupp-hall-etal-diversityoftwowidespreadindopacificdemospongespeciesrevisited-2017')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{erpenbeck_diversity_2017,\n\ttitle = {Diversity of two widespread {Indo}-{Pacific} demosponge species revisited},\n\tvolume = {47},\n\tissn = {1867-1616, 1867-1624},\n\turl = {http://link.springer.com/10.1007/s12526-017-0783-3},\n\tdoi = {10.1007/s12526-017-0783-3},\n\tlanguage = {en},\n\tnumber = {4},\n\turldate = {2022-11-09},\n\tjournal = {Marine Biodiversity},\n\tauthor = {Erpenbeck, Dirk and Aryasari, Ratih and Benning, Sarah and Debitus, Cécile and Kaltenbacher, Emilie and Al-Aidaroos, Ali M. and Schupp, Peter and Hall, Kathryn and Hooper, John N. A. and Voigt, Oliver and de Voogd, Nicole J. and Wörheide, Gert},\n\tmonth = dec,\n\tyear = {2017},\n\tpages = {1035--1043},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"mutsenko-gryshkov-lauterboeck-rogulska-tarusin-bazhenov-schtz-brggemeier-etal-novelchitinscaffoldsderivedfrommarinespongeianthellabastafortissueengineeringapproachesbasedonhumanmesenchymalstromalcellsbiocompatibilityandcryopreservation-2017\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0141813016326605\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'mutsenko-gryshkov-lauterboeck-rogulska-tarusin-bazhenov-schtz-brggemeier-etal-novelchitinscaffoldsderivedfrommarinespongeianthellabastafortissueengineeringapproachesbasedonhumanmesenchymalstromalcellsbiocompatibilityandcryopreservation-2017', 'https://linkinghub.elsevier.com/retrieve/pii/S0141813016326605', event);\">\n    Novel chitin scaffolds derived from marine sponge Ianthella basta for tissue engineering approaches based on human mesenchymal stromal cells: Biocompatibility and cryopreservation.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Mutsenko, V. V., Gryshkov, O., Lauterboeck, L., Rogulska, O., Tarusin, D. N., Bazhenov, V. V., Schütz, K., Brüggemeier, S., Gossla, E., Akkineni, A. R., Meißner, H., Lode, A., Meschke, S., Fromont, J., Stelling, A. L., Tabachnik, K. R., Gelinsky, M., Nikulin, S., Rodin, S., Tonevitsky, A. G., Petrenko, A. Y., Glasmacher, B., Schupp, P. J.,  &amp; Ehrlich, H.\n</span>\n\n  \n\n</span>\n\n  <i>International Journal of Biological Macromolecules</i>, 104: 1955–1965. November 2017.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0141813016326605\"\n     onclick=\"log_download('mutsenko-gryshkov-lauterboeck-rogulska-tarusin-bazhenov-schtz-brggemeier-etal-novelchitinscaffoldsderivedfrommarinespongeianthellabastafortissueengineeringapproachesbasedonhumanmesenchymalstromalcellsbiocompatibilityandcryopreservation-2017', 'https://linkinghub.elsevier.com/retrieve/pii/S0141813016326605', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Novel chitin scaffolds derived from marine sponge Ianthella basta for tissue engineering approaches based on human mesenchymal stromal cells: Biocompatibility and cryopreservation [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.ijbiomac.2017.03.161\"\n     onclick=\"log_download('mutsenko-gryshkov-lauterboeck-rogulska-tarusin-bazhenov-schtz-brggemeier-etal-novelchitinscaffoldsderivedfrommarinespongeianthellabastafortissueengineeringapproachesbasedonhumanmesenchymalstromalcellsbiocompatibilityandcryopreservation-2017', 'http://doi.org/10.1016/j.ijbiomac.2017.03.161', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/mutsenko-gryshkov-lauterboeck-rogulska-tarusin-bazhenov-schtz-brggemeier-etal-novelchitinscaffoldsderivedfrommarinespongeianthellabastafortissueengineeringapproachesbasedonhumanmesenchymalstromalcellsbiocompatibilityandcryopreservation-2017\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('mutsenko-gryshkov-lauterboeck-rogulska-tarusin-bazhenov-schtz-brggemeier-etal-novelchitinscaffoldsderivedfrommarinespongeianthellabastafortissueengineeringapproachesbasedonhumanmesenchymalstromalcellsbiocompatibilityandcryopreservation-2017')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{mutsenko_novel_2017,\n\ttitle = {Novel chitin scaffolds derived from marine sponge {Ianthella} basta for tissue engineering approaches based on human mesenchymal stromal cells: {Biocompatibility} and cryopreservation},\n\tvolume = {104},\n\tissn = {01418130},\n\tshorttitle = {Novel chitin scaffolds derived from marine sponge {Ianthella} basta for tissue engineering approaches based on human mesenchymal stromal cells},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0141813016326605},\n\tdoi = {10.1016/j.ijbiomac.2017.03.161},\n\tlanguage = {en},\n\turldate = {2022-11-09},\n\tjournal = {International Journal of Biological Macromolecules},\n\tauthor = {Mutsenko, Vitalii V. and Gryshkov, Oleksandr and Lauterboeck, Lothar and Rogulska, Olena and Tarusin, Dmitriy N. and Bazhenov, Vasilii V. and Schütz, Kathleen and Brüggemeier, Sophie and Gossla, Elke and Akkineni, Ashwini R. and Meißner, Heike and Lode, Anja and Meschke, Stephan and Fromont, Jane and Stelling, Allison L. and Tabachnik, Konstantin R. and Gelinsky, Michael and Nikulin, Sergey and Rodin, Sergey and Tonevitsky, Alexander G. and Petrenko, Alexander Y. and Glasmacher, Birgit and Schupp, Peter J. and Ehrlich, Hermann},\n\tmonth = nov,\n\tyear = {2017},\n\tpages = {1955--1965},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"steinert-rohde-janussen-blaurock-schupp-hostspecificassemblyofspongeassociatedprokaryotesathightaxonomicranks-2017\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://www.nature.com/articles/s41598-017-02656-6\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'steinert-rohde-janussen-blaurock-schupp-hostspecificassemblyofspongeassociatedprokaryotesathightaxonomicranks-2017', 'http://www.nature.com/articles/s41598-017-02656-6', event);\">\n    Host-specific assembly of sponge-associated prokaryotes at high taxonomic ranks.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Steinert, G., Rohde, S., Janussen, D., Blaurock, C.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Scientific Reports</i>, 7(1): 2542. December 2017.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://www.nature.com/articles/s41598-017-02656-6\"\n     onclick=\"log_download('steinert-rohde-janussen-blaurock-schupp-hostspecificassemblyofspongeassociatedprokaryotesathightaxonomicranks-2017', 'http://www.nature.com/articles/s41598-017-02656-6', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Host-specific assembly of sponge-associated prokaryotes at high taxonomic ranks [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1038/s41598-017-02656-6\"\n     onclick=\"log_download('steinert-rohde-janussen-blaurock-schupp-hostspecificassemblyofspongeassociatedprokaryotesathightaxonomicranks-2017', 'http://doi.org/10.1038/s41598-017-02656-6', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/steinert-rohde-janussen-blaurock-schupp-hostspecificassemblyofspongeassociatedprokaryotesathightaxonomicranks-2017\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('steinert-rohde-janussen-blaurock-schupp-hostspecificassemblyofspongeassociatedprokaryotesathightaxonomicranks-2017')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{steinert_host-specific_2017,\n\ttitle = {Host-specific assembly of sponge-associated prokaryotes at high taxonomic ranks},\n\tvolume = {7},\n\tissn = {2045-2322},\n\turl = {http://www.nature.com/articles/s41598-017-02656-6},\n\tdoi = {10.1038/s41598-017-02656-6},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Scientific Reports},\n\tauthor = {Steinert, Georg and Rohde, Sven and Janussen, Dorte and Blaurock, Claudia and Schupp, Peter J.},\n\tmonth = dec,\n\tyear = {2017},\n\tpages = {2542},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"schwartz-dobretsov-rohde-schupp-comparisonofantifoulingpropertiesofnativeandinvasiveisargassumifucalesphaeophyceaespecies-2017\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.tandfonline.com/doi/full/10.1080/09670262.2016.1231345\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'schwartz-dobretsov-rohde-schupp-comparisonofantifoulingpropertiesofnativeandinvasiveisargassumifucalesphaeophyceaespecies-2017', 'https://www.tandfonline.com/doi/full/10.1080/09670262.2016.1231345', event);\">\n    Comparison of antifouling properties of native and invasive <i>Sargassum</i> (Fucales, Phaeophyceae) species.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Schwartz, N., Dobretsov, S., Rohde, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>European Journal of Phycology</i>, 52(1): 116–131. January 2017.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.tandfonline.com/doi/full/10.1080/09670262.2016.1231345\"\n     onclick=\"log_download('schwartz-dobretsov-rohde-schupp-comparisonofantifoulingpropertiesofnativeandinvasiveisargassumifucalesphaeophyceaespecies-2017', 'https://www.tandfonline.com/doi/full/10.1080/09670262.2016.1231345', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Comparison of antifouling properties of native and invasive &lt;i&gt;Sargassum&lt;/i&gt; (Fucales, Phaeophyceae) species [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1080/09670262.2016.1231345\"\n     onclick=\"log_download('schwartz-dobretsov-rohde-schupp-comparisonofantifoulingpropertiesofnativeandinvasiveisargassumifucalesphaeophyceaespecies-2017', 'http://doi.org/10.1080/09670262.2016.1231345', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/schwartz-dobretsov-rohde-schupp-comparisonofantifoulingpropertiesofnativeandinvasiveisargassumifucalesphaeophyceaespecies-2017\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('schwartz-dobretsov-rohde-schupp-comparisonofantifoulingpropertiesofnativeandinvasiveisargassumifucalesphaeophyceaespecies-2017')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{schwartz_comparison_2017,\n\ttitle = {Comparison of antifouling properties of native and invasive \\textit{{Sargassum}} ({Fucales}, {Phaeophyceae}) species},\n\tvolume = {52},\n\tissn = {0967-0262, 1469-4433},\n\turl = {https://www.tandfonline.com/doi/full/10.1080/09670262.2016.1231345},\n\tdoi = {10.1080/09670262.2016.1231345},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {European Journal of Phycology},\n\tauthor = {Schwartz, Nicole and Dobretsov, Sergey and Rohde, Sven and Schupp, Peter J.},\n\tmonth = jan,\n\tyear = {2017},\n\tpages = {116--131},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"ueberlein-machill-schupp-brunner-determinationofthehalogenatedskeletonconstituentsofthemarinedemospongeianthellabasta-2017\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://www.mdpi.com/1660-3397/15/2/34\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'ueberlein-machill-schupp-brunner-determinationofthehalogenatedskeletonconstituentsofthemarinedemospongeianthellabasta-2017', 'http://www.mdpi.com/1660-3397/15/2/34', event);\">\n    Determination of the Halogenated Skeleton Constituents of the Marine Demosponge Ianthella basta.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Ueberlein, S., Machill, S., Schupp, P.,  &amp; Brunner, E.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Drugs</i>, 15(2): 34. February 2017.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://www.mdpi.com/1660-3397/15/2/34\"\n     onclick=\"log_download('ueberlein-machill-schupp-brunner-determinationofthehalogenatedskeletonconstituentsofthemarinedemospongeianthellabasta-2017', 'http://www.mdpi.com/1660-3397/15/2/34', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Determination of the Halogenated Skeleton Constituents of the Marine Demosponge Ianthella basta [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3390/md15020034\"\n     onclick=\"log_download('ueberlein-machill-schupp-brunner-determinationofthehalogenatedskeletonconstituentsofthemarinedemospongeianthellabasta-2017', 'http://doi.org/10.3390/md15020034', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/ueberlein-machill-schupp-brunner-determinationofthehalogenatedskeletonconstituentsofthemarinedemospongeianthellabasta-2017\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('ueberlein-machill-schupp-brunner-determinationofthehalogenatedskeletonconstituentsofthemarinedemospongeianthellabasta-2017')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{ueberlein_determination_2017,\n\ttitle = {Determination of the {Halogenated} {Skeleton} {Constituents} of the {Marine} {Demosponge} {Ianthella} basta},\n\tvolume = {15},\n\tissn = {1660-3397},\n\turl = {http://www.mdpi.com/1660-3397/15/2/34},\n\tdoi = {10.3390/md15020034},\n\tlanguage = {en},\n\tnumber = {2},\n\turldate = {2022-11-09},\n\tjournal = {Marine Drugs},\n\tauthor = {Ueberlein, Susanne and Machill, Susanne and Schupp, Peter and Brunner, Eike},\n\tmonth = feb,\n\tyear = {2017},\n\tpages = {34},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"bogdanov-hertzer-kehraus-nietzer-rohde-schupp-wgele-knig-secondarymetabolomeanditsdefensiveroleintheaeolidoideaniphyllodesmiumlongicirrumigastropodaheterobranchianudibranchia-2017\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.beilstein-journals.org/bjoc/articles/13/50\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'bogdanov-hertzer-kehraus-nietzer-rohde-schupp-wgele-knig-secondarymetabolomeanditsdefensiveroleintheaeolidoideaniphyllodesmiumlongicirrumigastropodaheterobranchianudibranchia-2017', 'https://www.beilstein-journals.org/bjoc/articles/13/50', event);\">\n    Secondary metabolome and its defensive role in the aeolidoidean <i>Phyllodesmium longicirrum</i> , (Gastropoda, Heterobranchia, Nudibranchia).\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Bogdanov, A., Hertzer, C., Kehraus, S., Nietzer, S., Rohde, S., Schupp, P. J, Wägele, H.,  &amp; König, G. M\n</span>\n\n  \n\n</span>\n\n  <i>Beilstein Journal of Organic Chemistry</i>, 13: 502–519. March 2017.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.beilstein-journals.org/bjoc/articles/13/50\"\n     onclick=\"log_download('bogdanov-hertzer-kehraus-nietzer-rohde-schupp-wgele-knig-secondarymetabolomeanditsdefensiveroleintheaeolidoideaniphyllodesmiumlongicirrumigastropodaheterobranchianudibranchia-2017', 'https://www.beilstein-journals.org/bjoc/articles/13/50', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Secondary metabolome and its defensive role in the aeolidoidean &lt;i&gt;Phyllodesmium longicirrum&lt;/i&gt; , (Gastropoda, Heterobranchia, Nudibranchia) [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3762/bjoc.13.50\"\n     onclick=\"log_download('bogdanov-hertzer-kehraus-nietzer-rohde-schupp-wgele-knig-secondarymetabolomeanditsdefensiveroleintheaeolidoideaniphyllodesmiumlongicirrumigastropodaheterobranchianudibranchia-2017', 'http://doi.org/10.3762/bjoc.13.50', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/bogdanov-hertzer-kehraus-nietzer-rohde-schupp-wgele-knig-secondarymetabolomeanditsdefensiveroleintheaeolidoideaniphyllodesmiumlongicirrumigastropodaheterobranchianudibranchia-2017\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('bogdanov-hertzer-kehraus-nietzer-rohde-schupp-wgele-knig-secondarymetabolomeanditsdefensiveroleintheaeolidoideaniphyllodesmiumlongicirrumigastropodaheterobranchianudibranchia-2017')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{bogdanov_secondary_2017,\n\ttitle = {Secondary metabolome and its defensive role in the aeolidoidean \\textit{{Phyllodesmium} longicirrum} , ({Gastropoda}, {Heterobranchia}, {Nudibranchia})},\n\tvolume = {13},\n\tissn = {1860-5397},\n\turl = {https://www.beilstein-journals.org/bjoc/articles/13/50},\n\tdoi = {10.3762/bjoc.13.50},\n\tabstract = {Phyllodesmium longicirrum\n              is the largest aeolidoidean species known to date, and extremely rich in terpenoid chemistry. Herein we report the isolation of a total of 19 secondary metabolites from a single specimen of this species, i.e., steroids\n              1–4\n              , cembranoid diterpenes\n              5–13\n              , complex biscembranoids\n              14\n              and\n              15\n              , and the chatancin-type diterpenes\n              16–19\n              . These compounds resemble those from soft corals of the genus\n              Sarcophyton\n              , of which to date, however, only\n              S. trocheliophorum\n              is described as a food source for\n              P. longicirrum\n              . Fish feeding deterrent activity was determined using the tropical puffer fish\n              Canthigaster solandri\n              , and showed activity for (2\n              S\n              )-isosarcophytoxide (\n              10\n              ), cembranoid bisepoxide\n              12\n              and 4-oxochatancin (\n              16\n              ). Determining the metabolome of\n              P. longicirrum\n              and its bioactivity, makes it evident that this seemingly vulnerable soft bodied animal is well protected from fish by its chemical arsenal.},\n\tlanguage = {en},\n\turldate = {2022-11-09},\n\tjournal = {Beilstein Journal of Organic Chemistry},\n\tauthor = {Bogdanov, Alexander and Hertzer, Cora and Kehraus, Stefan and Nietzer, Samuel and Rohde, Sven and Schupp, Peter J and Wägele, Heike and König, Gabriele M},\n\tmonth = mar,\n\tyear = {2017},\n\tpages = {502--519},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Phyllodesmium longicirrum is the largest aeolidoidean species known to date, and extremely rich in terpenoid chemistry. Herein we report the isolation of a total of 19 secondary metabolites from a single specimen of this species, i.e., steroids 1–4 , cembranoid diterpenes 5–13 , complex biscembranoids 14 and 15 , and the chatancin-type diterpenes 16–19 . These compounds resemble those from soft corals of the genus Sarcophyton , of which to date, however, only S. trocheliophorum is described as a food source for P. longicirrum . Fish feeding deterrent activity was determined using the tropical puffer fish Canthigaster solandri , and showed activity for (2 S )-isosarcophytoxide ( 10 ), cembranoid bisepoxide 12 and 4-oxochatancin ( 16 ). Determining the metabolome of P. longicirrum and its bioactivity, makes it evident that this seemingly vulnerable soft bodied animal is well protected from fish by its chemical arsenal.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"moitinhosilva-nielsen-amir-gonzalez-ackermann-cerrano-astudillogarcia-easson-etal-thespongemicrobiomeproject-2017\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://academic.oup.com/gigascience/article/doi/10.1093/gigascience/gix077/4082886\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'moitinhosilva-nielsen-amir-gonzalez-ackermann-cerrano-astudillogarcia-easson-etal-thespongemicrobiomeproject-2017', 'https://academic.oup.com/gigascience/article/doi/10.1093/gigascience/gix077/4082886', event);\">\n    The sponge microbiome project.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Moitinho-Silva, L., Nielsen, S., Amir, A., Gonzalez, A., Ackermann, G. L, Cerrano, C., Astudillo-Garcia, C., Easson, C., Sipkema, D., Liu, F., Steinert, G., Kotoulas, G., McCormack, G. P, Feng, G., Bell, J. J, Vicente, J., Björk, J. R, Montoya, J. M, Olson, J. B, Reveillaud, J., Steindler, L., Pineda, M., Marra, M. V, Ilan, M., Taylor, M. W, Polymenakou, P., Erwin, P. M, Schupp, P. J, Simister, R. L, Knight, R., Thacker, R. W, Costa, R., Hill, R. T, Lopez-Legentil, S., Dailianis, T., Ravasi, T., Hentschel, U., Li, Z., Webster, N. S,  &amp; Thomas, T.\n</span>\n\n  \n\n</span>\n\n  <i>GigaScience</i>, 6(10). October 2017.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://academic.oup.com/gigascience/article/doi/10.1093/gigascience/gix077/4082886\"\n     onclick=\"log_download('moitinhosilva-nielsen-amir-gonzalez-ackermann-cerrano-astudillogarcia-easson-etal-thespongemicrobiomeproject-2017', 'https://academic.oup.com/gigascience/article/doi/10.1093/gigascience/gix077/4082886', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"The sponge microbiome project [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1093/gigascience/gix077\"\n     onclick=\"log_download('moitinhosilva-nielsen-amir-gonzalez-ackermann-cerrano-astudillogarcia-easson-etal-thespongemicrobiomeproject-2017', 'http://doi.org/10.1093/gigascience/gix077', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/moitinhosilva-nielsen-amir-gonzalez-ackermann-cerrano-astudillogarcia-easson-etal-thespongemicrobiomeproject-2017\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('moitinhosilva-nielsen-amir-gonzalez-ackermann-cerrano-astudillogarcia-easson-etal-thespongemicrobiomeproject-2017')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{moitinho-silva_sponge_2017,\n\ttitle = {The sponge microbiome project},\n\tvolume = {6},\n\tissn = {2047-217X},\n\turl = {https://academic.oup.com/gigascience/article/doi/10.1093/gigascience/gix077/4082886},\n\tdoi = {10.1093/gigascience/gix077},\n\tlanguage = {en},\n\tnumber = {10},\n\turldate = {2022-11-09},\n\tjournal = {GigaScience},\n\tauthor = {Moitinho-Silva, Lucas and Nielsen, Shaun and Amir, Amnon and Gonzalez, Antonio and Ackermann, Gail L and Cerrano, Carlo and Astudillo-Garcia, Carmen and Easson, Cole and Sipkema, Detmer and Liu, Fang and Steinert, Georg and Kotoulas, Giorgos and McCormack, Grace P and Feng, Guofang and Bell, James J and Vicente, Jan and Björk, Johannes R and Montoya, Jose M and Olson, Julie B and Reveillaud, Julie and Steindler, Laura and Pineda, Mari-Carmen and Marra, Maria V and Ilan, Micha and Taylor, Michael W and Polymenakou, Paraskevi and Erwin, Patrick M and Schupp, Peter J and Simister, Rachel L and Knight, Rob and Thacker, Robert W and Costa, Rodrigo and Hill, Russell T and Lopez-Legentil, Susanna and Dailianis, Thanos and Ravasi, Timothy and Hentschel, Ute and Li, Zhiyong and Webster, Nicole S and Thomas, Torsten},\n\tmonth = oct,\n\tyear = {2017},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2016\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2016')\"\n      onkeypress=\"toggleGroup('group_2016')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2016</span>\n      <span class=\"bibbase_group_count\">\n        \n        (8)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"thomas-moitinhosilva-lurgi-bjrk-easson-astudillogarca-olson-erwin-etal-diversitystructureandconvergentevolutionoftheglobalspongemicrobiome-2016\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://www.nature.com/articles/ncomms11870\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'thomas-moitinhosilva-lurgi-bjrk-easson-astudillogarca-olson-erwin-etal-diversitystructureandconvergentevolutionoftheglobalspongemicrobiome-2016', 'http://www.nature.com/articles/ncomms11870', event);\">\n    Diversity, structure and convergent evolution of the global sponge microbiome.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Thomas, T., Moitinho-Silva, L., Lurgi, M., Björk, J. R., Easson, C., Astudillo-García, C., Olson, J. B., Erwin, P. M., López-Legentil, S., Luter, H., Chaves-Fonnegra, A., Costa, R., Schupp, P. J., Steindler, L., Erpenbeck, D., Gilbert, J., Knight, R., Ackermann, G., Victor Lopez, J., Taylor, M. W., Thacker, R. W., Montoya, J. M., Hentschel, U.,  &amp; Webster, N. S.\n</span>\n\n  \n\n</span>\n\n  <i>Nature Communications</i>, 7(1): 11870. September 2016.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://www.nature.com/articles/ncomms11870\"\n     onclick=\"log_download('thomas-moitinhosilva-lurgi-bjrk-easson-astudillogarca-olson-erwin-etal-diversitystructureandconvergentevolutionoftheglobalspongemicrobiome-2016', 'http://www.nature.com/articles/ncomms11870', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Diversity, structure and convergent evolution of the global sponge microbiome [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1038/ncomms11870\"\n     onclick=\"log_download('thomas-moitinhosilva-lurgi-bjrk-easson-astudillogarca-olson-erwin-etal-diversitystructureandconvergentevolutionoftheglobalspongemicrobiome-2016', 'http://doi.org/10.1038/ncomms11870', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/thomas-moitinhosilva-lurgi-bjrk-easson-astudillogarca-olson-erwin-etal-diversitystructureandconvergentevolutionoftheglobalspongemicrobiome-2016\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('thomas-moitinhosilva-lurgi-bjrk-easson-astudillogarca-olson-erwin-etal-diversitystructureandconvergentevolutionoftheglobalspongemicrobiome-2016')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{thomas_diversity_2016,\n\ttitle = {Diversity, structure and convergent evolution of the global sponge microbiome},\n\tvolume = {7},\n\tissn = {2041-1723},\n\turl = {http://www.nature.com/articles/ncomms11870},\n\tdoi = {10.1038/ncomms11870},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Nature Communications},\n\tauthor = {Thomas, Torsten and Moitinho-Silva, Lucas and Lurgi, Miguel and Björk, Johannes R. and Easson, Cole and Astudillo-García, Carmen and Olson, Julie B. and Erwin, Patrick M. and López-Legentil, Susanna and Luter, Heidi and Chaves-Fonnegra, Andia and Costa, Rodrigo and Schupp, Peter J. and Steindler, Laura and Erpenbeck, Dirk and Gilbert, Jack and Knight, Rob and Ackermann, Gail and Victor Lopez, Jose and Taylor, Michael W. and Thacker, Robert W. and Montoya, Jose M. and Hentschel, Ute and Webster, Nicole S.},\n\tmonth = sep,\n\tyear = {2016},\n\tpages = {11870},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"schwartz-rohde-hiromori-schupp-understandingtheinvasionsuccessofsargassummuticumherbivorepreferencesfornativeandinvasivesargassumspp-2016\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s00227-016-2953-4\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'schwartz-rohde-hiromori-schupp-understandingtheinvasionsuccessofsargassummuticumherbivorepreferencesfornativeandinvasivesargassumspp-2016', 'http://link.springer.com/10.1007/s00227-016-2953-4', event);\">\n    Understanding the invasion success of Sargassum muticum: herbivore preferences for native and invasive Sargassum spp.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Schwartz, N., Rohde, S., Hiromori, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Biology</i>, 163(9): 181. September 2016.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s00227-016-2953-4\"\n     onclick=\"log_download('schwartz-rohde-hiromori-schupp-understandingtheinvasionsuccessofsargassummuticumherbivorepreferencesfornativeandinvasivesargassumspp-2016', 'http://link.springer.com/10.1007/s00227-016-2953-4', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Understanding the invasion success of Sargassum muticum: herbivore preferences for native and invasive Sargassum spp [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s00227-016-2953-4\"\n     onclick=\"log_download('schwartz-rohde-hiromori-schupp-understandingtheinvasionsuccessofsargassummuticumherbivorepreferencesfornativeandinvasivesargassumspp-2016', 'http://doi.org/10.1007/s00227-016-2953-4', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/schwartz-rohde-hiromori-schupp-understandingtheinvasionsuccessofsargassummuticumherbivorepreferencesfornativeandinvasivesargassumspp-2016\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('schwartz-rohde-hiromori-schupp-understandingtheinvasionsuccessofsargassummuticumherbivorepreferencesfornativeandinvasivesargassumspp-2016')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{schwartz_understanding_2016,\n\ttitle = {Understanding the invasion success of {Sargassum} muticum: herbivore preferences for native and invasive {Sargassum} spp},\n\tvolume = {163},\n\tissn = {0025-3162, 1432-1793},\n\tshorttitle = {Understanding the invasion success of {Sargassum} muticum},\n\turl = {http://link.springer.com/10.1007/s00227-016-2953-4},\n\tdoi = {10.1007/s00227-016-2953-4},\n\tlanguage = {en},\n\tnumber = {9},\n\turldate = {2022-11-09},\n\tjournal = {Marine Biology},\n\tauthor = {Schwartz, Nicole and Rohde, Sven and Hiromori, Shimabukuro and Schupp, Peter J.},\n\tmonth = sep,\n\tyear = {2016},\n\tpages = {181},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"markert-matsuyama-rohde-schupp-wehrmann-firstrecordofthenonnativepacificbryozoansmittoideaprolificaosburn1952atthegermannorthseacoast-2016\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s12526-015-0415-8\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'markert-matsuyama-rohde-schupp-wehrmann-firstrecordofthenonnativepacificbryozoansmittoideaprolificaosburn1952atthegermannorthseacoast-2016', 'http://link.springer.com/10.1007/s12526-015-0415-8', event);\">\n    First record of the non-native Pacific bryozoan Smittoidea prolifica Osburn, 1952 at the German North Sea coast.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Markert, A., Matsuyama, K., Rohde, S., Schupp, P.,  &amp; Wehrmann, A.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Biodiversity</i>, 46(3): 717–723. September 2016.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s12526-015-0415-8\"\n     onclick=\"log_download('markert-matsuyama-rohde-schupp-wehrmann-firstrecordofthenonnativepacificbryozoansmittoideaprolificaosburn1952atthegermannorthseacoast-2016', 'http://link.springer.com/10.1007/s12526-015-0415-8', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"First record of the non-native Pacific bryozoan Smittoidea prolifica Osburn, 1952 at the German North Sea coast [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s12526-015-0415-8\"\n     onclick=\"log_download('markert-matsuyama-rohde-schupp-wehrmann-firstrecordofthenonnativepacificbryozoansmittoideaprolificaosburn1952atthegermannorthseacoast-2016', 'http://doi.org/10.1007/s12526-015-0415-8', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/markert-matsuyama-rohde-schupp-wehrmann-firstrecordofthenonnativepacificbryozoansmittoideaprolificaosburn1952atthegermannorthseacoast-2016\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('markert-matsuyama-rohde-schupp-wehrmann-firstrecordofthenonnativepacificbryozoansmittoideaprolificaosburn1952atthegermannorthseacoast-2016')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{markert_first_2016,\n\ttitle = {First record of the non-native {Pacific} bryozoan {Smittoidea} prolifica {Osburn}, 1952 at the {German} {North} {Sea} coast},\n\tvolume = {46},\n\tissn = {1867-1616, 1867-1624},\n\turl = {http://link.springer.com/10.1007/s12526-015-0415-8},\n\tdoi = {10.1007/s12526-015-0415-8},\n\tlanguage = {en},\n\tnumber = {3},\n\turldate = {2022-11-09},\n\tjournal = {Marine Biodiversity},\n\tauthor = {Markert, Alexandra and Matsuyama, Kei and Rohde, Sven and Schupp, Peter and Wehrmann, Achim},\n\tmonth = sep,\n\tyear = {2016},\n\tpages = {717--723},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"meyer-deines-schupp-taylor-impactofexplantationtechniquesonthemicrobiotaofthemarinespongeecionemiaalata-2016\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0022098116301241\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'meyer-deines-schupp-taylor-impactofexplantationtechniquesonthemicrobiotaofthemarinespongeecionemiaalata-2016', 'https://linkinghub.elsevier.com/retrieve/pii/S0022098116301241', event);\">\n    Impact of explantation techniques on the microbiota of the marine sponge Ecionemia alata.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Meyer, K. M., Deines, P., Schupp, P. J.,  &amp; Taylor, M. W.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Experimental Marine Biology and Ecology</i>, 484: 11–15. November 2016.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0022098116301241\"\n     onclick=\"log_download('meyer-deines-schupp-taylor-impactofexplantationtechniquesonthemicrobiotaofthemarinespongeecionemiaalata-2016', 'https://linkinghub.elsevier.com/retrieve/pii/S0022098116301241', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Impact of explantation techniques on the microbiota of the marine sponge Ecionemia alata [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.jembe.2016.08.003\"\n     onclick=\"log_download('meyer-deines-schupp-taylor-impactofexplantationtechniquesonthemicrobiotaofthemarinespongeecionemiaalata-2016', 'http://doi.org/10.1016/j.jembe.2016.08.003', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/meyer-deines-schupp-taylor-impactofexplantationtechniquesonthemicrobiotaofthemarinespongeecionemiaalata-2016\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('meyer-deines-schupp-taylor-impactofexplantationtechniquesonthemicrobiotaofthemarinespongeecionemiaalata-2016')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{meyer_impact_2016,\n\ttitle = {Impact of explantation techniques on the microbiota of the marine sponge {Ecionemia} alata},\n\tvolume = {484},\n\tissn = {00220981},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0022098116301241},\n\tdoi = {10.1016/j.jembe.2016.08.003},\n\tlanguage = {en},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Experimental Marine Biology and Ecology},\n\tauthor = {Meyer, Kyle M. and Deines, Peter and Schupp, Peter J. and Taylor, Michael W.},\n\tmonth = nov,\n\tyear = {2016},\n\tpages = {11--15},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"bogdanov-hertzer-kehraus-nietzer-rohde-schupp-wgele-knig-defensivediterpenefromtheaeolidoideaniphyllodesmiumlongicirrumi-2016\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/acs.jnatprod.5b00860\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'bogdanov-hertzer-kehraus-nietzer-rohde-schupp-wgele-knig-defensivediterpenefromtheaeolidoideaniphyllodesmiumlongicirrumi-2016', 'https://pubs.acs.org/doi/10.1021/acs.jnatprod.5b00860', event);\">\n    Defensive Diterpene from the Aeolidoidean <i>Phyllodesmium longicirrum</i>.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Bogdanov, A., Hertzer, C., Kehraus, S., Nietzer, S., Rohde, S., Schupp, P. J., Wägele, H.,  &amp; König, G. M.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Natural Products</i>, 79(3): 611–615. March 2016.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/acs.jnatprod.5b00860\"\n     onclick=\"log_download('bogdanov-hertzer-kehraus-nietzer-rohde-schupp-wgele-knig-defensivediterpenefromtheaeolidoideaniphyllodesmiumlongicirrumi-2016', 'https://pubs.acs.org/doi/10.1021/acs.jnatprod.5b00860', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Defensive Diterpene from the Aeolidoidean &lt;i&gt;Phyllodesmium longicirrum&lt;/i&gt; [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1021/acs.jnatprod.5b00860\"\n     onclick=\"log_download('bogdanov-hertzer-kehraus-nietzer-rohde-schupp-wgele-knig-defensivediterpenefromtheaeolidoideaniphyllodesmiumlongicirrumi-2016', 'http://doi.org/10.1021/acs.jnatprod.5b00860', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/bogdanov-hertzer-kehraus-nietzer-rohde-schupp-wgele-knig-defensivediterpenefromtheaeolidoideaniphyllodesmiumlongicirrumi-2016\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('bogdanov-hertzer-kehraus-nietzer-rohde-schupp-wgele-knig-defensivediterpenefromtheaeolidoideaniphyllodesmiumlongicirrumi-2016')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{bogdanov_defensive_2016,\n\ttitle = {Defensive {Diterpene} from the {Aeolidoidean} \\textit{{Phyllodesmium} longicirrum}},\n\tvolume = {79},\n\tissn = {0163-3864, 1520-6025},\n\turl = {https://pubs.acs.org/doi/10.1021/acs.jnatprod.5b00860},\n\tdoi = {10.1021/acs.jnatprod.5b00860},\n\tlanguage = {en},\n\tnumber = {3},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Natural Products},\n\tauthor = {Bogdanov, Alexander and Hertzer, Cora and Kehraus, Stefan and Nietzer, Samuel and Rohde, Sven and Schupp, Peter J. and Wägele, Heike and König, Gabriele M.},\n\tmonth = mar,\n\tyear = {2016},\n\tpages = {611--615},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"steinert-taylor-deines-simister-devoogd-hoggard-schupp-infourshallowandmesophotictropicalreefspongesfromguamthemicrobialcommunitylargelydependsonhostidentity-2016\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://peerj.com/articles/1936\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'steinert-taylor-deines-simister-devoogd-hoggard-schupp-infourshallowandmesophotictropicalreefspongesfromguamthemicrobialcommunitylargelydependsonhostidentity-2016', 'https://peerj.com/articles/1936', event);\">\n    In four shallow and mesophotic tropical reef sponges from Guam the microbial community largely depends on host identity.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Steinert, G., Taylor, M. W., Deines, P., Simister, R. L., de Voogd, N. J., Hoggard, M.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>PeerJ</i>, 4: e1936. April 2016.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://peerj.com/articles/1936\"\n     onclick=\"log_download('steinert-taylor-deines-simister-devoogd-hoggard-schupp-infourshallowandmesophotictropicalreefspongesfromguamthemicrobialcommunitylargelydependsonhostidentity-2016', 'https://peerj.com/articles/1936', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"In four shallow and mesophotic tropical reef sponges from Guam the microbial community largely depends on host identity [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.7717/peerj.1936\"\n     onclick=\"log_download('steinert-taylor-deines-simister-devoogd-hoggard-schupp-infourshallowandmesophotictropicalreefspongesfromguamthemicrobialcommunitylargelydependsonhostidentity-2016', 'http://doi.org/10.7717/peerj.1936', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/steinert-taylor-deines-simister-devoogd-hoggard-schupp-infourshallowandmesophotictropicalreefspongesfromguamthemicrobialcommunitylargelydependsonhostidentity-2016\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('steinert-taylor-deines-simister-devoogd-hoggard-schupp-infourshallowandmesophotictropicalreefspongesfromguamthemicrobialcommunitylargelydependsonhostidentity-2016')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{steinert_four_2016,\n\ttitle = {In four shallow and mesophotic tropical reef sponges from {Guam} the microbial community largely depends on host identity},\n\tvolume = {4},\n\tissn = {2167-8359},\n\turl = {https://peerj.com/articles/1936},\n\tdoi = {10.7717/peerj.1936},\n\tabstract = {Sponges (phylum Porifera) are important members of almost all aquatic ecosystems, and are renowned for hosting often dense and diverse microbial communities. While the specificity of the sponge microbiota seems to be closely related to host phylogeny, the environmental factors that could shape differences within local sponge-specific communities remain less understood. On tropical coral reefs, sponge habitats can span from shallow areas to deeper, mesophotic sites. These habitats differ in terms of environmental factors such as light, temperature, and food availability, as well as anthropogenic impact. In order to study the host specificity and potential influence of varying habitats on the sponge microbiota within a local area, four tropical reef sponges,\n              Rhabdastrella globostellata\n              ,\n              Callyspongia\n              sp.,\n              Rhaphoxya\n              sp., and\n              Acanthella cavernosa\n              , were collected from exposed shallow reef slopes and a deep reef drop-off. Based on 16S rRNA gene pyrosequencing profiles, beta diversity analyses revealed that each sponge species possessed a specific microbiota that was significantly different to those of the other species and exhibited attributes that are characteristic of high- and/or low-microbial-abundance sponges. These findings emphasize the influence of host identity on the associated microbiota. Dominant sponge- and seawater-associated bacterial phyla were Chloroflexi, Cyanobacteria, and Proteobacteria. Comparison of individual sponge taxa and seawater samples between shallow and deep reef sites revealed no significant variation in alpha diversity estimates, while differences in microbial beta diversity (variation in community composition) were significant for\n              Callyspongia\n              sp. sponges and seawater samples. Overall, the sponge-associated microbiota is significantly shaped by host identity across all samples, while the effect of habitat differentiation seems to be less predominant in tropical reef sponges.},\n\tlanguage = {en},\n\turldate = {2022-11-09},\n\tjournal = {PeerJ},\n\tauthor = {Steinert, Georg and Taylor, Michael W. and Deines, Peter and Simister, Rachel L. and de Voogd, Nicole J. and Hoggard, Michael and Schupp, Peter J.},\n\tmonth = apr,\n\tyear = {2016},\n\tpages = {e1936},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Sponges (phylum Porifera) are important members of almost all aquatic ecosystems, and are renowned for hosting often dense and diverse microbial communities. While the specificity of the sponge microbiota seems to be closely related to host phylogeny, the environmental factors that could shape differences within local sponge-specific communities remain less understood. On tropical coral reefs, sponge habitats can span from shallow areas to deeper, mesophotic sites. These habitats differ in terms of environmental factors such as light, temperature, and food availability, as well as anthropogenic impact. In order to study the host specificity and potential influence of varying habitats on the sponge microbiota within a local area, four tropical reef sponges, Rhabdastrella globostellata , Callyspongia sp., Rhaphoxya sp., and Acanthella cavernosa , were collected from exposed shallow reef slopes and a deep reef drop-off. Based on 16S rRNA gene pyrosequencing profiles, beta diversity analyses revealed that each sponge species possessed a specific microbiota that was significantly different to those of the other species and exhibited attributes that are characteristic of high- and/or low-microbial-abundance sponges. These findings emphasize the influence of host identity on the associated microbiota. Dominant sponge- and seawater-associated bacterial phyla were Chloroflexi, Cyanobacteria, and Proteobacteria. Comparison of individual sponge taxa and seawater samples between shallow and deep reef sites revealed no significant variation in alpha diversity estimates, while differences in microbial beta diversity (variation in community composition) were significant for Callyspongia sp. sponges and seawater samples. Overall, the sponge-associated microbiota is significantly shaped by host identity across all samples, while the effect of habitat differentiation seems to be less predominant in tropical reef sponges.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"tusso-morcinek-vogler-schupp-caballes-vargas-wrheide-geneticstructureofthecrownofthornsseastarinthepacificoceanwithfocusonguam-2016\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://peerj.com/articles/1970\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'tusso-morcinek-vogler-schupp-caballes-vargas-wrheide-geneticstructureofthecrownofthornsseastarinthepacificoceanwithfocusonguam-2016', 'https://peerj.com/articles/1970', event);\">\n    Genetic structure of the crown-of-thorns seastar in the Pacific Ocean, with focus on Guam.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Tusso, S., Morcinek, K., Vogler, C., Schupp, P. J., Caballes, C. F., Vargas, S.,  &amp; Wörheide, G.\n</span>\n\n  \n\n</span>\n\n  <i>PeerJ</i>, 4: e1970. May 2016.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://peerj.com/articles/1970\"\n     onclick=\"log_download('tusso-morcinek-vogler-schupp-caballes-vargas-wrheide-geneticstructureofthecrownofthornsseastarinthepacificoceanwithfocusonguam-2016', 'https://peerj.com/articles/1970', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Genetic structure of the crown-of-thorns seastar in the Pacific Ocean, with focus on Guam [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.7717/peerj.1970\"\n     onclick=\"log_download('tusso-morcinek-vogler-schupp-caballes-vargas-wrheide-geneticstructureofthecrownofthornsseastarinthepacificoceanwithfocusonguam-2016', 'http://doi.org/10.7717/peerj.1970', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/tusso-morcinek-vogler-schupp-caballes-vargas-wrheide-geneticstructureofthecrownofthornsseastarinthepacificoceanwithfocusonguam-2016\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('tusso-morcinek-vogler-schupp-caballes-vargas-wrheide-geneticstructureofthecrownofthornsseastarinthepacificoceanwithfocusonguam-2016')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{tusso_genetic_2016,\n\ttitle = {Genetic structure of the crown-of-thorns seastar in the {Pacific} {Ocean}, with focus on {Guam}},\n\tvolume = {4},\n\tissn = {2167-8359},\n\turl = {https://peerj.com/articles/1970},\n\tdoi = {10.7717/peerj.1970},\n\tabstract = {Population outbreaks of the corallivorous crown-of-thorns seastar (COTS),\n              Acanthaster ‘planci’ L.\n              , are among the most important biological disturbances of tropical coral reefs. Over the past 50 years, several devastating outbreaks have been documented around Guam, an island in the western Pacific Ocean. Previous analyses have shown that in the Pacific Ocean, COTS larval dispersal may be geographically restricted to certain regions. Here, we assess the genetic structure of Pacific COTS populations and compared samples from around Guam with a number of distant localities in the Pacific Ocean, and focused on determining the degree of genetic structure among populations previously considered to be isolated. Using microsatellites, we document substantial genetic structure between 14 localities from different geographical regions in the Pacific Ocean. Populations from the 14 locations sampled were found to be structured in three significantly differentiated groups: (1) all locations immediately around Guam, as well as Kingman Reef and Swains Island; (2) Japan, Philippines, GBR and Vanuatu; and (3) Johnston Atoll, which was significantly different from all other localities. The lack of genetic differentiation between Guam and extremely distant populations from Kingman Reef and Swains Island suggests potential long-distance dispersal of COTS in the Pacific.},\n\tlanguage = {en},\n\turldate = {2022-11-09},\n\tjournal = {PeerJ},\n\tauthor = {Tusso, Sergio and Morcinek, Kerstin and Vogler, Catherine and Schupp, Peter J. and Caballes, Ciemon F. and Vargas, Sergio and Wörheide, Gert},\n\tmonth = may,\n\tyear = {2016},\n\tpages = {e1970},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Population outbreaks of the corallivorous crown-of-thorns seastar (COTS), Acanthaster ‘planci’ L. , are among the most important biological disturbances of tropical coral reefs. Over the past 50 years, several devastating outbreaks have been documented around Guam, an island in the western Pacific Ocean. Previous analyses have shown that in the Pacific Ocean, COTS larval dispersal may be geographically restricted to certain regions. Here, we assess the genetic structure of Pacific COTS populations and compared samples from around Guam with a number of distant localities in the Pacific Ocean, and focused on determining the degree of genetic structure among populations previously considered to be isolated. Using microsatellites, we document substantial genetic structure between 14 localities from different geographical regions in the Pacific Ocean. Populations from the 14 locations sampled were found to be structured in three significantly differentiated groups: (1) all locations immediately around Guam, as well as Kingman Reef and Swains Island; (2) Japan, Philippines, GBR and Vanuatu; and (3) Johnston Atoll, which was significantly different from all other localities. The lack of genetic differentiation between Guam and extremely distant populations from Kingman Reef and Swains Island suggests potential long-distance dispersal of COTS in the Pacific.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"seebens-schwartz-schupp-blasius-predictingthespreadofmarinespeciesintroducedbyglobalshipping-2016\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://pnas.org/doi/full/10.1073/pnas.1524427113\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'seebens-schwartz-schupp-blasius-predictingthespreadofmarinespeciesintroducedbyglobalshipping-2016', 'https://pnas.org/doi/full/10.1073/pnas.1524427113', event);\">\n    Predicting the spread of marine species introduced by global shipping.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Seebens, H., Schwartz, N., Schupp, P. J.,  &amp; Blasius, B.\n</span>\n\n  \n\n</span>\n\n  <i>Proceedings of the National Academy of Sciences</i>, 113(20): 5646–5651. May 2016.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://pnas.org/doi/full/10.1073/pnas.1524427113\"\n     onclick=\"log_download('seebens-schwartz-schupp-blasius-predictingthespreadofmarinespeciesintroducedbyglobalshipping-2016', 'https://pnas.org/doi/full/10.1073/pnas.1524427113', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Predicting the spread of marine species introduced by global shipping [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1073/pnas.1524427113\"\n     onclick=\"log_download('seebens-schwartz-schupp-blasius-predictingthespreadofmarinespeciesintroducedbyglobalshipping-2016', 'http://doi.org/10.1073/pnas.1524427113', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/seebens-schwartz-schupp-blasius-predictingthespreadofmarinespeciesintroducedbyglobalshipping-2016\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('seebens-schwartz-schupp-blasius-predictingthespreadofmarinespeciesintroducedbyglobalshipping-2016')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{seebens_predicting_2016,\n\ttitle = {Predicting the spread of marine species introduced by global shipping},\n\tvolume = {113},\n\tissn = {0027-8424, 1091-6490},\n\turl = {https://pnas.org/doi/full/10.1073/pnas.1524427113},\n\tdoi = {10.1073/pnas.1524427113},\n\tabstract = {Significance\n            Predicting the arrival of alien species remains a big challenge, which is assumed to be a consequence of the complexity of the invasion process. Here, we demonstrate that spreading of alien marine species can be predicted by a simple model using only global shipping intensities, environmental variables, and species occurrence data. We provide species lists of the next potentially invading species in a local habitat or species causing harmful algal blooms with their associated probability of invasion. This will help to improve mitigation strategies to reduce the further introduction of alien species. Although this study focuses on marine algae, the model approach can be easily adopted to other taxonomic groups and their respective drivers of invasion.\n          , \n            The human-mediated translocation of species poses a distinct threat to nature, human health, and economy. Although existing models calculate the invasion probability of any species, frameworks for species-specific forecasts are still missing. Here, we developed a model approach using global ship movements and environmental conditions to simulate the successive global spread of marine alien species that allows predicting the identity of those species likely to arrive next in a given habitat. In a first step, we simulated the historical stepping-stone spreading dynamics of 40 marine alien species and compared predicted and observed alien species ranges. With an accuracy of 77\\%, the model correctly predicted the presence/absence of an alien species in an ecoregion. Spreading dynamics followed a common pattern with an initial invasion of most suitable habitats worldwide and a subsequent spread into neighboring habitats. In a second step, we used the reported distribution of 97 marine algal species with a known invasion history, and six species causing harmful algal blooms, to determine the ecoregions most likely to be invaded next under climate warming. Cluster analysis revealed that species can be classified according to three characteristic spreading profiles: emerging species, high-risk species, and widespread species. For the North Sea, the model predictions could be confirmed because two of the predicted high-risk species have recently invaded the North Sea. This study highlights that even simple models considering only shipping intensities and habitat matches are able to correctly predict the identity of the next invading marine species.},\n\tlanguage = {en},\n\tnumber = {20},\n\turldate = {2022-11-09},\n\tjournal = {Proceedings of the National Academy of Sciences},\n\tauthor = {Seebens, Hanno and Schwartz, Nicole and Schupp, Peter J. and Blasius, Bernd},\n\tmonth = may,\n\tyear = {2016},\n\tpages = {5646--5651},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Significance Predicting the arrival of alien species remains a big challenge, which is assumed to be a consequence of the complexity of the invasion process. Here, we demonstrate that spreading of alien marine species can be predicted by a simple model using only global shipping intensities, environmental variables, and species occurrence data. We provide species lists of the next potentially invading species in a local habitat or species causing harmful algal blooms with their associated probability of invasion. This will help to improve mitigation strategies to reduce the further introduction of alien species. Although this study focuses on marine algae, the model approach can be easily adopted to other taxonomic groups and their respective drivers of invasion. , The human-mediated translocation of species poses a distinct threat to nature, human health, and economy. Although existing models calculate the invasion probability of any species, frameworks for species-specific forecasts are still missing. Here, we developed a model approach using global ship movements and environmental conditions to simulate the successive global spread of marine alien species that allows predicting the identity of those species likely to arrive next in a given habitat. In a first step, we simulated the historical stepping-stone spreading dynamics of 40 marine alien species and compared predicted and observed alien species ranges. With an accuracy of 77%, the model correctly predicted the presence/absence of an alien species in an ecoregion. Spreading dynamics followed a common pattern with an initial invasion of most suitable habitats worldwide and a subsequent spread into neighboring habitats. In a second step, we used the reported distribution of 97 marine algal species with a known invasion history, and six species causing harmful algal blooms, to determine the ecoregions most likely to be invaded next under climate warming. Cluster analysis revealed that species can be classified according to three characteristic spreading profiles: emerging species, high-risk species, and widespread species. For the North Sea, the model predictions could be confirmed because two of the predicted high-risk species have recently invaded the North Sea. This study highlights that even simple models considering only shipping intensities and habitat matches are able to correctly predict the identity of the next invading marine species.\n</div>\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2015\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2015')\"\n      onkeypress=\"toggleGroup('group_2015')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2015</span>\n      <span class=\"bibbase_group_count\">\n        \n        (3)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"steinert-taylor-schupp-diversityofactinobacteriaassociatedwiththemarineascidianeudistomatoealensis-2015\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s10126-015-9622-3\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'steinert-taylor-schupp-diversityofactinobacteriaassociatedwiththemarineascidianeudistomatoealensis-2015', 'http://link.springer.com/10.1007/s10126-015-9622-3', event);\">\n    Diversity of Actinobacteria Associated with the Marine Ascidian Eudistoma toealensis.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Steinert, G., Taylor, M. W.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Biotechnology</i>, 17(4): 377–385. August 2015.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s10126-015-9622-3\"\n     onclick=\"log_download('steinert-taylor-schupp-diversityofactinobacteriaassociatedwiththemarineascidianeudistomatoealensis-2015', 'http://link.springer.com/10.1007/s10126-015-9622-3', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Diversity of Actinobacteria Associated with the Marine Ascidian Eudistoma toealensis [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s10126-015-9622-3\"\n     onclick=\"log_download('steinert-taylor-schupp-diversityofactinobacteriaassociatedwiththemarineascidianeudistomatoealensis-2015', 'http://doi.org/10.1007/s10126-015-9622-3', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/steinert-taylor-schupp-diversityofactinobacteriaassociatedwiththemarineascidianeudistomatoealensis-2015\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('steinert-taylor-schupp-diversityofactinobacteriaassociatedwiththemarineascidianeudistomatoealensis-2015')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{steinert_diversity_2015,\n\ttitle = {Diversity of {Actinobacteria} {Associated} with the {Marine} {Ascidian} {Eudistoma} toealensis},\n\tvolume = {17},\n\tissn = {1436-2228, 1436-2236},\n\turl = {http://link.springer.com/10.1007/s10126-015-9622-3},\n\tdoi = {10.1007/s10126-015-9622-3},\n\tlanguage = {en},\n\tnumber = {4},\n\turldate = {2022-11-09},\n\tjournal = {Marine Biotechnology},\n\tauthor = {Steinert, Georg and Taylor, Michael W. and Schupp, Peter J.},\n\tmonth = aug,\n\tyear = {2015},\n\tpages = {377--385},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"tebben-motti-siboni-tapiolas-negri-schupp-kitamura-hatta-etal-chemicalmediationofcorallarvalsettlementbycrustosecorallinealgae-2015\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://www.nature.com/articles/srep10803\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'tebben-motti-siboni-tapiolas-negri-schupp-kitamura-hatta-etal-chemicalmediationofcorallarvalsettlementbycrustosecorallinealgae-2015', 'http://www.nature.com/articles/srep10803', event);\">\n    Chemical mediation of coral larval settlement by crustose coralline algae.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Tebben, J., Motti, C. A, Siboni, N., Tapiolas, D. M., Negri, A. P., Schupp, P. J., Kitamura, M., Hatta, M., Steinberg, P. D.,  &amp; Harder, T.\n</span>\n\n  \n\n</span>\n\n  <i>Scientific Reports</i>, 5(1): 10803. September 2015.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://www.nature.com/articles/srep10803\"\n     onclick=\"log_download('tebben-motti-siboni-tapiolas-negri-schupp-kitamura-hatta-etal-chemicalmediationofcorallarvalsettlementbycrustosecorallinealgae-2015', 'http://www.nature.com/articles/srep10803', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Chemical mediation of coral larval settlement by crustose coralline algae [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1038/srep10803\"\n     onclick=\"log_download('tebben-motti-siboni-tapiolas-negri-schupp-kitamura-hatta-etal-chemicalmediationofcorallarvalsettlementbycrustosecorallinealgae-2015', 'http://doi.org/10.1038/srep10803', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/tebben-motti-siboni-tapiolas-negri-schupp-kitamura-hatta-etal-chemicalmediationofcorallarvalsettlementbycrustosecorallinealgae-2015\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('tebben-motti-siboni-tapiolas-negri-schupp-kitamura-hatta-etal-chemicalmediationofcorallarvalsettlementbycrustosecorallinealgae-2015')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{tebben_chemical_2015,\n\ttitle = {Chemical mediation of coral larval settlement by crustose coralline algae},\n\tvolume = {5},\n\tissn = {2045-2322},\n\turl = {http://www.nature.com/articles/srep10803},\n\tdoi = {10.1038/srep10803},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Scientific Reports},\n\tauthor = {Tebben, J. and Motti, C. A and Siboni, Nahshon and Tapiolas, D. M. and Negri, A. P. and Schupp, P. J. and Kitamura, Makoto and Hatta, Masayuki and Steinberg, P. D. and Harder, T.},\n\tmonth = sep,\n\tyear = {2015},\n\tpages = {10803},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"rohde-nietzer-schupp-prevalenceandmechanismsofdynamicchemicaldefensesintropicalsponges-2015\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://dx.plos.org/10.1371/journal.pone.0132236\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'rohde-nietzer-schupp-prevalenceandmechanismsofdynamicchemicaldefensesintropicalsponges-2015', 'https://dx.plos.org/10.1371/journal.pone.0132236', event);\">\n    Prevalence and Mechanisms of Dynamic Chemical Defenses in Tropical Sponges.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Rohde, S., Nietzer, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>PLOS ONE</i>, 10(7): e0132236. July 2015.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://dx.plos.org/10.1371/journal.pone.0132236\"\n     onclick=\"log_download('rohde-nietzer-schupp-prevalenceandmechanismsofdynamicchemicaldefensesintropicalsponges-2015', 'https://dx.plos.org/10.1371/journal.pone.0132236', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Prevalence and Mechanisms of Dynamic Chemical Defenses in Tropical Sponges [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1371/journal.pone.0132236\"\n     onclick=\"log_download('rohde-nietzer-schupp-prevalenceandmechanismsofdynamicchemicaldefensesintropicalsponges-2015', 'http://doi.org/10.1371/journal.pone.0132236', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/rohde-nietzer-schupp-prevalenceandmechanismsofdynamicchemicaldefensesintropicalsponges-2015\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('rohde-nietzer-schupp-prevalenceandmechanismsofdynamicchemicaldefensesintropicalsponges-2015')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{rohde_prevalence_2015,\n\ttitle = {Prevalence and {Mechanisms} of {Dynamic} {Chemical} {Defenses} in {Tropical} {Sponges}},\n\tvolume = {10},\n\tissn = {1932-6203},\n\turl = {https://dx.plos.org/10.1371/journal.pone.0132236},\n\tdoi = {10.1371/journal.pone.0132236},\n\tlanguage = {en},\n\tnumber = {7},\n\turldate = {2022-11-09},\n\tjournal = {PLOS ONE},\n\tauthor = {Rohde, Sven and Nietzer, Samuel and Schupp, Peter J.},\n\teditor = {Bell, James},\n\tmonth = jul,\n\tyear = {2015},\n\tpages = {e0132236},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2014\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2014')\"\n      onkeypress=\"toggleGroup('group_2014')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2014</span>\n      <span class=\"bibbase_group_count\">\n        \n        (2)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"gloeckner-wehrl-moitinhosilva-gernert-schupp-pawlik-lindquist-erpenbeck-etal-thehmalmadichotomyrevisitedanelectronmicroscopicalsurveyof56spongespecies-2014\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.journals.uchicago.edu/doi/10.1086/BBLv227n1p78\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'gloeckner-wehrl-moitinhosilva-gernert-schupp-pawlik-lindquist-erpenbeck-etal-thehmalmadichotomyrevisitedanelectronmicroscopicalsurveyof56spongespecies-2014', 'https://www.journals.uchicago.edu/doi/10.1086/BBLv227n1p78', event);\">\n    The HMA-LMA Dichotomy Revisited: an Electron Microscopical Survey of 56 Sponge Species.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Gloeckner, V., Wehrl, M., Moitinho-Silva, L., Gernert, C., Schupp, P., Pawlik, J. R., Lindquist, N. L., Erpenbeck, D., Wörheide, G.,  &amp; Hentschel, U.\n</span>\n\n  \n\n</span>\n\n  <i>The Biological Bulletin</i>, 227(1): 78–88. August 2014.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.journals.uchicago.edu/doi/10.1086/BBLv227n1p78\"\n     onclick=\"log_download('gloeckner-wehrl-moitinhosilva-gernert-schupp-pawlik-lindquist-erpenbeck-etal-thehmalmadichotomyrevisitedanelectronmicroscopicalsurveyof56spongespecies-2014', 'https://www.journals.uchicago.edu/doi/10.1086/BBLv227n1p78', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"The HMA-LMA Dichotomy Revisited: an Electron Microscopical Survey of 56 Sponge Species [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1086/BBLv227n1p78\"\n     onclick=\"log_download('gloeckner-wehrl-moitinhosilva-gernert-schupp-pawlik-lindquist-erpenbeck-etal-thehmalmadichotomyrevisitedanelectronmicroscopicalsurveyof56spongespecies-2014', 'http://doi.org/10.1086/BBLv227n1p78', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/gloeckner-wehrl-moitinhosilva-gernert-schupp-pawlik-lindquist-erpenbeck-etal-thehmalmadichotomyrevisitedanelectronmicroscopicalsurveyof56spongespecies-2014\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('gloeckner-wehrl-moitinhosilva-gernert-schupp-pawlik-lindquist-erpenbeck-etal-thehmalmadichotomyrevisitedanelectronmicroscopicalsurveyof56spongespecies-2014')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{gloeckner_hma-lma_2014,\n\ttitle = {The {HMA}-{LMA} {Dichotomy} {Revisited}: an {Electron} {Microscopical} {Survey} of 56 {Sponge} {Species}},\n\tvolume = {227},\n\tissn = {0006-3185, 1939-8697},\n\tshorttitle = {The {HMA}-{LMA} {Dichotomy} {Revisited}},\n\turl = {https://www.journals.uchicago.edu/doi/10.1086/BBLv227n1p78},\n\tdoi = {10.1086/BBLv227n1p78},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {The Biological Bulletin},\n\tauthor = {Gloeckner, Volker and Wehrl, Markus and Moitinho-Silva, Lucas and Gernert, Christine and Schupp, Peter and Pawlik, Joseph R. and Lindquist, Niels L. and Erpenbeck, Dirk and Wörheide, Gert and Hentschel, Ute},\n\tmonth = aug,\n\tyear = {2014},\n\tpages = {78--88},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"steinert-whitfield-taylor-thoms-schupp-applicationofdiffusiongrowthchambersforthecultivationofmarinespongeassociatedbacteria-2014\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s10126-014-9575-y\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'steinert-whitfield-taylor-thoms-schupp-applicationofdiffusiongrowthchambersforthecultivationofmarinespongeassociatedbacteria-2014', 'http://link.springer.com/10.1007/s10126-014-9575-y', event);\">\n    Application of Diffusion Growth Chambers for the Cultivation of Marine Sponge-Associated Bacteria.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Steinert, G., Whitfield, S., Taylor, M. W., Thoms, C.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Biotechnology</i>, 16(5): 594–603. October 2014.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s10126-014-9575-y\"\n     onclick=\"log_download('steinert-whitfield-taylor-thoms-schupp-applicationofdiffusiongrowthchambersforthecultivationofmarinespongeassociatedbacteria-2014', 'http://link.springer.com/10.1007/s10126-014-9575-y', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Application of Diffusion Growth Chambers for the Cultivation of Marine Sponge-Associated Bacteria [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s10126-014-9575-y\"\n     onclick=\"log_download('steinert-whitfield-taylor-thoms-schupp-applicationofdiffusiongrowthchambersforthecultivationofmarinespongeassociatedbacteria-2014', 'http://doi.org/10.1007/s10126-014-9575-y', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/steinert-whitfield-taylor-thoms-schupp-applicationofdiffusiongrowthchambersforthecultivationofmarinespongeassociatedbacteria-2014\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('steinert-whitfield-taylor-thoms-schupp-applicationofdiffusiongrowthchambersforthecultivationofmarinespongeassociatedbacteria-2014')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{steinert_application_2014,\n\ttitle = {Application of {Diffusion} {Growth} {Chambers} for the {Cultivation} of {Marine} {Sponge}-{Associated} {Bacteria}},\n\tvolume = {16},\n\tissn = {1436-2228, 1436-2236},\n\turl = {http://link.springer.com/10.1007/s10126-014-9575-y},\n\tdoi = {10.1007/s10126-014-9575-y},\n\tlanguage = {en},\n\tnumber = {5},\n\turldate = {2022-11-09},\n\tjournal = {Marine Biotechnology},\n\tauthor = {Steinert, Georg and Whitfield, Susanna and Taylor, Michael W. and Thoms, Carsten and Schupp, Peter J.},\n\tmonth = oct,\n\tyear = {2014},\n\tpages = {594--603},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2013\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2013')\"\n      onkeypress=\"toggleGroup('group_2013')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2013</span>\n      <span class=\"bibbase_group_count\">\n        \n        (3)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"simister-taylor-rogers-schupp-deines-temporalmolecularandisotopicanalysisofactivebacterialcommunitiesintwonewzealandsponges-2013\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://academic.oup.com/femsec/article-lookup/doi/10.1111/1574-6941.12109\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'simister-taylor-rogers-schupp-deines-temporalmolecularandisotopicanalysisofactivebacterialcommunitiesintwonewzealandsponges-2013', 'https://academic.oup.com/femsec/article-lookup/doi/10.1111/1574-6941.12109', event);\">\n    Temporal molecular and isotopic analysis of active bacterial communities in two New Zealand sponges.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Simister, R., Taylor, M. W., Rogers, K. M., Schupp, P. J.,  &amp; Deines, P.\n</span>\n\n  \n\n</span>\n\n  <i>FEMS Microbiology Ecology</i>, 85(1): 195–205. July 2013.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://academic.oup.com/femsec/article-lookup/doi/10.1111/1574-6941.12109\"\n     onclick=\"log_download('simister-taylor-rogers-schupp-deines-temporalmolecularandisotopicanalysisofactivebacterialcommunitiesintwonewzealandsponges-2013', 'https://academic.oup.com/femsec/article-lookup/doi/10.1111/1574-6941.12109', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Temporal molecular and isotopic analysis of active bacterial communities in two New Zealand sponges [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1111/1574-6941.12109\"\n     onclick=\"log_download('simister-taylor-rogers-schupp-deines-temporalmolecularandisotopicanalysisofactivebacterialcommunitiesintwonewzealandsponges-2013', 'http://doi.org/10.1111/1574-6941.12109', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/simister-taylor-rogers-schupp-deines-temporalmolecularandisotopicanalysisofactivebacterialcommunitiesintwonewzealandsponges-2013\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('simister-taylor-rogers-schupp-deines-temporalmolecularandisotopicanalysisofactivebacterialcommunitiesintwonewzealandsponges-2013')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{simister_temporal_2013,\n\ttitle = {Temporal molecular and isotopic analysis of active bacterial communities in two {New} {Zealand} sponges},\n\tvolume = {85},\n\tissn = {01686496},\n\turl = {https://academic.oup.com/femsec/article-lookup/doi/10.1111/1574-6941.12109},\n\tdoi = {10.1111/1574-6941.12109},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {FEMS Microbiology Ecology},\n\tauthor = {Simister, Rachel and Taylor, Michael W. and Rogers, Karyne M. and Schupp, Peter J. and Deines, Peter},\n\tmonth = jul,\n\tyear = {2013},\n\tpages = {195--205},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"maru-inuzuka-yamamoto-kitamura-schupp-yamada-uemura-relativeconfigurationofluminaolide-2013\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0040403913009349\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'maru-inuzuka-yamamoto-kitamura-schupp-yamada-uemura-relativeconfigurationofluminaolide-2013', 'https://linkinghub.elsevier.com/retrieve/pii/S0040403913009349', event);\">\n    Relative configuration of luminaolide.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Maru, N., Inuzuka, T., Yamamoto, K., Kitamura, M., Schupp, P. J., Yamada, K.,  &amp; Uemura, D.\n</span>\n\n  \n\n</span>\n\n  <i>Tetrahedron Letters</i>, 54(33): 4385–4387. August 2013.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0040403913009349\"\n     onclick=\"log_download('maru-inuzuka-yamamoto-kitamura-schupp-yamada-uemura-relativeconfigurationofluminaolide-2013', 'https://linkinghub.elsevier.com/retrieve/pii/S0040403913009349', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Relative configuration of luminaolide [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.tetlet.2013.05.143\"\n     onclick=\"log_download('maru-inuzuka-yamamoto-kitamura-schupp-yamada-uemura-relativeconfigurationofluminaolide-2013', 'http://doi.org/10.1016/j.tetlet.2013.05.143', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/maru-inuzuka-yamamoto-kitamura-schupp-yamada-uemura-relativeconfigurationofluminaolide-2013\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('maru-inuzuka-yamamoto-kitamura-schupp-yamada-uemura-relativeconfigurationofluminaolide-2013')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{maru_relative_2013,\n\ttitle = {Relative configuration of luminaolide},\n\tvolume = {54},\n\tissn = {00404039},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0040403913009349},\n\tdoi = {10.1016/j.tetlet.2013.05.143},\n\tlanguage = {en},\n\tnumber = {33},\n\turldate = {2022-11-09},\n\tjournal = {Tetrahedron Letters},\n\tauthor = {Maru, Norihito and Inuzuka, Toshiyasu and Yamamoto, Keita and Kitamura, Makoto and Schupp, Peter J. and Yamada, Kaoru and Uemura, Daisuke},\n\tmonth = aug,\n\tyear = {2013},\n\tpages = {4385--4387},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"wysokowski-behm-born-bazhenov-meiner-richter-szwarcrzepka-makarova-etal-preparationofchitinsilicacompositesbyinvitrosilicificationoftwodimensionalianthellabastademospongechitinousscaffoldsundermodifiedstberconditions-2013\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0928493113003184\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'wysokowski-behm-born-bazhenov-meiner-richter-szwarcrzepka-makarova-etal-preparationofchitinsilicacompositesbyinvitrosilicificationoftwodimensionalianthellabastademospongechitinousscaffoldsundermodifiedstberconditions-2013', 'https://linkinghub.elsevier.com/retrieve/pii/S0928493113003184', event);\">\n    Preparation of chitin–silica composites by in vitro silicification of two-dimensional Ianthella basta demosponge chitinous scaffolds under modified Stöber conditions.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Wysokowski, M., Behm, T., Born, R., Bazhenov, V. V., Meißner, H., Richter, G., Szwarc-Rzepka, K., Makarova, A., Vyalikh, D., Schupp, P., Jesionowski, T.,  &amp; Ehrlich, H.\n</span>\n\n  \n\n</span>\n\n  <i>Materials Science and Engineering: C</i>, 33(7): 3935–3941. October 2013.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0928493113003184\"\n     onclick=\"log_download('wysokowski-behm-born-bazhenov-meiner-richter-szwarcrzepka-makarova-etal-preparationofchitinsilicacompositesbyinvitrosilicificationoftwodimensionalianthellabastademospongechitinousscaffoldsundermodifiedstberconditions-2013', 'https://linkinghub.elsevier.com/retrieve/pii/S0928493113003184', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Preparation of chitin–silica composites by in vitro silicification of two-dimensional Ianthella basta demosponge chitinous scaffolds under modified Stöber conditions [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.msec.2013.05.030\"\n     onclick=\"log_download('wysokowski-behm-born-bazhenov-meiner-richter-szwarcrzepka-makarova-etal-preparationofchitinsilicacompositesbyinvitrosilicificationoftwodimensionalianthellabastademospongechitinousscaffoldsundermodifiedstberconditions-2013', 'http://doi.org/10.1016/j.msec.2013.05.030', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/wysokowski-behm-born-bazhenov-meiner-richter-szwarcrzepka-makarova-etal-preparationofchitinsilicacompositesbyinvitrosilicificationoftwodimensionalianthellabastademospongechitinousscaffoldsundermodifiedstberconditions-2013\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('wysokowski-behm-born-bazhenov-meiner-richter-szwarcrzepka-makarova-etal-preparationofchitinsilicacompositesbyinvitrosilicificationoftwodimensionalianthellabastademospongechitinousscaffoldsundermodifiedstberconditions-2013')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{wysokowski_preparation_2013,\n\ttitle = {Preparation of chitin–silica composites by in vitro silicification of two-dimensional {Ianthella} basta demosponge chitinous scaffolds under modified {Stöber} conditions},\n\tvolume = {33},\n\tissn = {09284931},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0928493113003184},\n\tdoi = {10.1016/j.msec.2013.05.030},\n\tlanguage = {en},\n\tnumber = {7},\n\turldate = {2022-11-09},\n\tjournal = {Materials Science and Engineering: C},\n\tauthor = {Wysokowski, Marcin and Behm, Thomas and Born, René and Bazhenov, Vasilii V. and Meißner, Heike and Richter, Gert and Szwarc-Rzepka, Karolina and Makarova, Anna and Vyalikh, Denis and Schupp, Peter and Jesionowski, Teofil and Ehrlich, Hermann},\n\tmonth = oct,\n\tyear = {2013},\n\tpages = {3935--3941},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2012\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2012')\"\n      onkeypress=\"toggleGroup('group_2012')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2012</span>\n      <span class=\"bibbase_group_count\">\n        \n        (5)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"schmitt-tsai-bell-fromont-ilan-lindquist-perez-rodrigo-etal-assessingthecomplexspongemicrobiotacorevariableandspeciesspecificbacterialcommunitiesinmarinesponges-2012\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://www.nature.com/articles/ismej2011116\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'schmitt-tsai-bell-fromont-ilan-lindquist-perez-rodrigo-etal-assessingthecomplexspongemicrobiotacorevariableandspeciesspecificbacterialcommunitiesinmarinesponges-2012', 'http://www.nature.com/articles/ismej2011116', event);\">\n    Assessing the complex sponge microbiota: core, variable and species-specific bacterial communities in marine sponges.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Schmitt, S., Tsai, P., Bell, J., Fromont, J., Ilan, M., Lindquist, N., Perez, T., Rodrigo, A., Schupp, P. J, Vacelet, J., Webster, N., Hentschel, U.,  &amp; Taylor, M. W\n</span>\n\n  \n\n</span>\n\n  <i>The ISME Journal</i>, 6(3): 564–576. March 2012.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://www.nature.com/articles/ismej2011116\"\n     onclick=\"log_download('schmitt-tsai-bell-fromont-ilan-lindquist-perez-rodrigo-etal-assessingthecomplexspongemicrobiotacorevariableandspeciesspecificbacterialcommunitiesinmarinesponges-2012', 'http://www.nature.com/articles/ismej2011116', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Assessing the complex sponge microbiota: core, variable and species-specific bacterial communities in marine sponges [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1038/ismej.2011.116\"\n     onclick=\"log_download('schmitt-tsai-bell-fromont-ilan-lindquist-perez-rodrigo-etal-assessingthecomplexspongemicrobiotacorevariableandspeciesspecificbacterialcommunitiesinmarinesponges-2012', 'http://doi.org/10.1038/ismej.2011.116', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/schmitt-tsai-bell-fromont-ilan-lindquist-perez-rodrigo-etal-assessingthecomplexspongemicrobiotacorevariableandspeciesspecificbacterialcommunitiesinmarinesponges-2012\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('schmitt-tsai-bell-fromont-ilan-lindquist-perez-rodrigo-etal-assessingthecomplexspongemicrobiotacorevariableandspeciesspecificbacterialcommunitiesinmarinesponges-2012')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{schmitt_assessing_2012,\n\ttitle = {Assessing the complex sponge microbiota: core, variable and species-specific bacterial communities in marine sponges},\n\tvolume = {6},\n\tissn = {1751-7362, 1751-7370},\n\tshorttitle = {Assessing the complex sponge microbiota},\n\turl = {http://www.nature.com/articles/ismej2011116},\n\tdoi = {10.1038/ismej.2011.116},\n\tlanguage = {en},\n\tnumber = {3},\n\turldate = {2022-11-09},\n\tjournal = {The ISME Journal},\n\tauthor = {Schmitt, Susanne and Tsai, Peter and Bell, James and Fromont, Jane and Ilan, Micha and Lindquist, Niels and Perez, Thierry and Rodrigo, Allen and Schupp, Peter J and Vacelet, Jean and Webster, Nicole and Hentschel, Ute and Taylor, Michael W},\n\tmonth = mar,\n\tyear = {2012},\n\tpages = {564--576},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"chua-schupp-leggat-baird-effectsofoceanacidificationonmetamorphosisbroodingandspawninglarvae-2012\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  Effects of ocean acidification on metamorphosis: brooding and spawning larvae.\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Chua, C., Schupp, P., Leggat, W.,  &amp; Baird, A.\n</span>\n\n  \n\n</span>\n\n  In  2012. \n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/chua-schupp-leggat-baird-effectsofoceanacidificationonmetamorphosisbroodingandspawninglarvae-2012\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('chua-schupp-leggat-baird-effectsofoceanacidificationonmetamorphosisbroodingandspawninglarvae-2012')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@inproceedings{chua_effects_2012,\n\ttitle = {Effects of ocean acidification on metamorphosis: brooding and spawning larvae},\n\tauthor = {Chua, Chia-Miin and Schupp, Peter and Leggat, William and Baird, Andrew},\n\tyear = {2012},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"rohde-gochfeld-ankisetty-avula-schupp-slattery-spatialvariabilityinsecondarymetabolitesoftheindopacificspongestylissamassa-2012\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s10886-012-0124-8\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'rohde-gochfeld-ankisetty-avula-schupp-slattery-spatialvariabilityinsecondarymetabolitesoftheindopacificspongestylissamassa-2012', 'http://link.springer.com/10.1007/s10886-012-0124-8', event);\">\n    Spatial Variability in Secondary Metabolites of the Indo-Pacific Sponge Stylissa massa.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Rohde, S., Gochfeld, D. J., Ankisetty, S., Avula, B., Schupp, P. J.,  &amp; Slattery, M.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Chemical Ecology</i>, 38(5): 463–475. May 2012.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s10886-012-0124-8\"\n     onclick=\"log_download('rohde-gochfeld-ankisetty-avula-schupp-slattery-spatialvariabilityinsecondarymetabolitesoftheindopacificspongestylissamassa-2012', 'http://link.springer.com/10.1007/s10886-012-0124-8', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Spatial Variability in Secondary Metabolites of the Indo-Pacific Sponge Stylissa massa [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s10886-012-0124-8\"\n     onclick=\"log_download('rohde-gochfeld-ankisetty-avula-schupp-slattery-spatialvariabilityinsecondarymetabolitesoftheindopacificspongestylissamassa-2012', 'http://doi.org/10.1007/s10886-012-0124-8', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/rohde-gochfeld-ankisetty-avula-schupp-slattery-spatialvariabilityinsecondarymetabolitesoftheindopacificspongestylissamassa-2012\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('rohde-gochfeld-ankisetty-avula-schupp-slattery-spatialvariabilityinsecondarymetabolitesoftheindopacificspongestylissamassa-2012')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{rohde_spatial_2012,\n\ttitle = {Spatial {Variability} in {Secondary} {Metabolites} of the {Indo}-{Pacific} {Sponge} {Stylissa} massa},\n\tvolume = {38},\n\tissn = {0098-0331, 1573-1561},\n\turl = {http://link.springer.com/10.1007/s10886-012-0124-8},\n\tdoi = {10.1007/s10886-012-0124-8},\n\tlanguage = {en},\n\tnumber = {5},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Chemical Ecology},\n\tauthor = {Rohde, Sven and Gochfeld, Deborah J. and Ankisetty, Sridevi and Avula, Bharathi and Schupp, Peter J. and Slattery, Marc},\n\tmonth = may,\n\tyear = {2012},\n\tpages = {463--475},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"wright-schupp-schrr-engemann-rohde-kelman-devoogd-carroll-etal-twilightzonespongesfromguamyieldtheonellinisocyanateandpsammaplysinsiandj-2012\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/np200939d\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'wright-schupp-schrr-engemann-rohde-kelman-devoogd-carroll-etal-twilightzonespongesfromguamyieldtheonellinisocyanateandpsammaplysinsiandj-2012', 'https://pubs.acs.org/doi/10.1021/np200939d', event);\">\n    Twilight Zone Sponges from Guam Yield Theonellin Isocyanate and Psammaplysins I and J.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Wright, A. D., Schupp, P. J., Schrör, J., Engemann, A., Rohde, S., Kelman, D., de Voogd, N., Carroll, A.,  &amp; Motti, C. A.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Natural Products</i>, 75(3): 502–506. March 2012.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/np200939d\"\n     onclick=\"log_download('wright-schupp-schrr-engemann-rohde-kelman-devoogd-carroll-etal-twilightzonespongesfromguamyieldtheonellinisocyanateandpsammaplysinsiandj-2012', 'https://pubs.acs.org/doi/10.1021/np200939d', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Twilight Zone Sponges from Guam Yield Theonellin Isocyanate and Psammaplysins I and J [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1021/np200939d\"\n     onclick=\"log_download('wright-schupp-schrr-engemann-rohde-kelman-devoogd-carroll-etal-twilightzonespongesfromguamyieldtheonellinisocyanateandpsammaplysinsiandj-2012', 'http://doi.org/10.1021/np200939d', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/wright-schupp-schrr-engemann-rohde-kelman-devoogd-carroll-etal-twilightzonespongesfromguamyieldtheonellinisocyanateandpsammaplysinsiandj-2012\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('wright-schupp-schrr-engemann-rohde-kelman-devoogd-carroll-etal-twilightzonespongesfromguamyieldtheonellinisocyanateandpsammaplysinsiandj-2012')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{wright_twilight_2012,\n\ttitle = {Twilight {Zone} {Sponges} from {Guam} {Yield} {Theonellin} {Isocyanate} and {Psammaplysins} {I} and {J}},\n\tvolume = {75},\n\tissn = {0163-3864, 1520-6025},\n\turl = {https://pubs.acs.org/doi/10.1021/np200939d},\n\tdoi = {10.1021/np200939d},\n\tlanguage = {en},\n\tnumber = {3},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Natural Products},\n\tauthor = {Wright, Anthony D. and Schupp, Peter J. and Schrör, Jan-Philipp and Engemann, Anna and Rohde, Sven and Kelman, Dovi and de Voogd, Nicole and Carroll, Anthony and Motti, Cherie A.},\n\tmonth = mar,\n\tyear = {2012},\n\tpages = {502--506},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"caballes-schupp-pratchett-riveraposada-interspecifictransmissionandrecoveryoftcbsinduceddiseasebetweenacanthasterplanciandlinckiaguildingi-2012\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://www.int-res.com/abstracts/dao/v100/n3/p263-267/\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'caballes-schupp-pratchett-riveraposada-interspecifictransmissionandrecoveryoftcbsinduceddiseasebetweenacanthasterplanciandlinckiaguildingi-2012', 'http://www.int-res.com/abstracts/dao/v100/n3/p263-267/', event);\">\n    Interspecific transmission and recovery of TCBS-induced disease between Acanthaster planci and Linckia guildingi.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Caballes, C., Schupp, P., Pratchett, M.,  &amp; Rivera-Posada, J.\n</span>\n\n  \n\n</span>\n\n  <i>Diseases of Aquatic Organisms</i>, 100(3): 263–267. September 2012.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://www.int-res.com/abstracts/dao/v100/n3/p263-267/\"\n     onclick=\"log_download('caballes-schupp-pratchett-riveraposada-interspecifictransmissionandrecoveryoftcbsinduceddiseasebetweenacanthasterplanciandlinckiaguildingi-2012', 'http://www.int-res.com/abstracts/dao/v100/n3/p263-267/', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Interspecific transmission and recovery of TCBS-induced disease between Acanthaster planci and Linckia guildingi [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.3354/dao02480\"\n     onclick=\"log_download('caballes-schupp-pratchett-riveraposada-interspecifictransmissionandrecoveryoftcbsinduceddiseasebetweenacanthasterplanciandlinckiaguildingi-2012', 'http://doi.org/10.3354/dao02480', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/caballes-schupp-pratchett-riveraposada-interspecifictransmissionandrecoveryoftcbsinduceddiseasebetweenacanthasterplanciandlinckiaguildingi-2012\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('caballes-schupp-pratchett-riveraposada-interspecifictransmissionandrecoveryoftcbsinduceddiseasebetweenacanthasterplanciandlinckiaguildingi-2012')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{caballes_interspecific_2012,\n\ttitle = {Interspecific transmission and recovery of {TCBS}-induced disease between {Acanthaster} planci and {Linckia} guildingi},\n\tvolume = {100},\n\tissn = {0177-5103, 1616-1580},\n\turl = {http://www.int-res.com/abstracts/dao/v100/n3/p263-267/},\n\tdoi = {10.3354/dao02480},\n\tlanguage = {en},\n\tnumber = {3},\n\turldate = {2022-11-09},\n\tjournal = {Diseases of Aquatic Organisms},\n\tauthor = {Caballes, Cf and Schupp, Pj and Pratchett, Ms and Rivera-Posada, Ja},\n\tmonth = sep,\n\tyear = {2012},\n\tpages = {263--267},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2011\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2011')\"\n      onkeypress=\"toggleGroup('group_2011')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2011</span>\n      <span class=\"bibbase_group_count\">\n        \n        (2)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"rohde-schupp-growthandregenerationoftheelephantearspongeianthellabastaporifera-2011\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/978-94-007-4688-6_18\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'rohde-schupp-growthandregenerationoftheelephantearspongeianthellabastaporifera-2011', 'http://link.springer.com/10.1007/978-94-007-4688-6_18', event);\">\n    Growth and regeneration of the elephant ear sponge Ianthella basta (Porifera).\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Rohde, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  In Maldonado, M., Turon, X., Becerro, M.,  &amp; Jesús Uriz, M., editor(s), <i>Ancient Animals, New Challenges</i>, pages 219–226. Springer Netherlands, Dordrecht,  2011.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/978-94-007-4688-6_18\"\n     onclick=\"log_download('rohde-schupp-growthandregenerationoftheelephantearspongeianthellabastaporifera-2011', 'http://link.springer.com/10.1007/978-94-007-4688-6_18', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Growth and regeneration of the elephant ear sponge Ianthella basta (Porifera) [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/978-94-007-4688-6_18\"\n     onclick=\"log_download('rohde-schupp-growthandregenerationoftheelephantearspongeianthellabastaporifera-2011', 'http://doi.org/10.1007/978-94-007-4688-6_18', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/rohde-schupp-growthandregenerationoftheelephantearspongeianthellabastaporifera-2011\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('rohde-schupp-growthandregenerationoftheelephantearspongeianthellabastaporifera-2011')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@incollection{maldonado_growth_2011,\n\taddress = {Dordrecht},\n\ttitle = {Growth and regeneration of the elephant ear sponge {Ianthella} basta ({Porifera})},\n\tisbn = {978-94-007-4687-9 978-94-007-4688-6},\n\turl = {http://link.springer.com/10.1007/978-94-007-4688-6_18},\n\tlanguage = {en},\n\turldate = {2022-11-09},\n\tbooktitle = {Ancient {Animals}, {New} {Challenges}},\n\tpublisher = {Springer Netherlands},\n\tauthor = {Rohde, Sven and Schupp, Peter J.},\n\teditor = {Maldonado, Manuel and Turon, Xavier and Becerro, Mikel and Jesús Uriz, Maria},\n\tyear = {2011},\n\tdoi = {10.1007/978-94-007-4688-6_18},\n\tpages = {219--226},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"rohde-schupp-allocationofchemicalandstructuraldefensesinthespongemelophlussarasinorum-2011\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0022098111000256\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'rohde-schupp-allocationofchemicalandstructuraldefensesinthespongemelophlussarasinorum-2011', 'https://linkinghub.elsevier.com/retrieve/pii/S0022098111000256', event);\">\n    Allocation of chemical and structural defenses in the sponge Melophlus sarasinorum.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Rohde, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Experimental Marine Biology and Ecology</i>, 399(1): 76–83. March 2011.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0022098111000256\"\n     onclick=\"log_download('rohde-schupp-allocationofchemicalandstructuraldefensesinthespongemelophlussarasinorum-2011', 'https://linkinghub.elsevier.com/retrieve/pii/S0022098111000256', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Allocation of chemical and structural defenses in the sponge Melophlus sarasinorum [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.jembe.2011.01.012\"\n     onclick=\"log_download('rohde-schupp-allocationofchemicalandstructuraldefensesinthespongemelophlussarasinorum-2011', 'http://doi.org/10.1016/j.jembe.2011.01.012', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/rohde-schupp-allocationofchemicalandstructuraldefensesinthespongemelophlussarasinorum-2011\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('rohde-schupp-allocationofchemicalandstructuraldefensesinthespongemelophlussarasinorum-2011')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{rohde_allocation_2011,\n\ttitle = {Allocation of chemical and structural defenses in the sponge {Melophlus} sarasinorum},\n\tvolume = {399},\n\tissn = {00220981},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0022098111000256},\n\tdoi = {10.1016/j.jembe.2011.01.012},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Experimental Marine Biology and Ecology},\n\tauthor = {Rohde, Sven and Schupp, Peter J.},\n\tmonth = mar,\n\tyear = {2011},\n\tpages = {76--83},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2010\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2010')\"\n      onkeypress=\"toggleGroup('group_2010')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2010</span>\n      <span class=\"bibbase_group_count\">\n        \n        (5)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"ehrlich-ilan-maldonado-muricy-bavestrello-kljajic-carballo-schiaparelli-etal-threedimensionalchitinbasedscaffoldsfromverongidaspongesdemospongiaeporiferapartiisolationandidentificationofchitin-2010\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0141813010001613\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'ehrlich-ilan-maldonado-muricy-bavestrello-kljajic-carballo-schiaparelli-etal-threedimensionalchitinbasedscaffoldsfromverongidaspongesdemospongiaeporiferapartiisolationandidentificationofchitin-2010', 'https://linkinghub.elsevier.com/retrieve/pii/S0141813010001613', event);\">\n    Three-dimensional chitin-based scaffolds from Verongida sponges (Demospongiae: Porifera). Part I. Isolation and identification of chitin.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Ehrlich, H., Ilan, M., Maldonado, M., Muricy, G., Bavestrello, G., Kljajic, Z., Carballo, J., Schiaparelli, S., Ereskovsky, A., Schupp, P., Born, R., Worch, H., Bazhenov, V., Kurek, D., Varlamov, V., Vyalikh, D., Kummer, K., Sivkov, V., Molodtsov, S., Meissner, H., Richter, G., Steck, E., Richter, W., Hunoldt, S., Kammer, M., Paasch, S., Krasokhin, V., Patzke, G.,  &amp; Brunner, E.\n</span>\n\n  \n\n</span>\n\n  <i>International Journal of Biological Macromolecules</i>, 47(2): 132–140. August 2010.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0141813010001613\"\n     onclick=\"log_download('ehrlich-ilan-maldonado-muricy-bavestrello-kljajic-carballo-schiaparelli-etal-threedimensionalchitinbasedscaffoldsfromverongidaspongesdemospongiaeporiferapartiisolationandidentificationofchitin-2010', 'https://linkinghub.elsevier.com/retrieve/pii/S0141813010001613', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Three-dimensional chitin-based scaffolds from Verongida sponges (Demospongiae: Porifera). Part I. Isolation and identification of chitin [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.ijbiomac.2010.05.007\"\n     onclick=\"log_download('ehrlich-ilan-maldonado-muricy-bavestrello-kljajic-carballo-schiaparelli-etal-threedimensionalchitinbasedscaffoldsfromverongidaspongesdemospongiaeporiferapartiisolationandidentificationofchitin-2010', 'http://doi.org/10.1016/j.ijbiomac.2010.05.007', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/ehrlich-ilan-maldonado-muricy-bavestrello-kljajic-carballo-schiaparelli-etal-threedimensionalchitinbasedscaffoldsfromverongidaspongesdemospongiaeporiferapartiisolationandidentificationofchitin-2010\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('ehrlich-ilan-maldonado-muricy-bavestrello-kljajic-carballo-schiaparelli-etal-threedimensionalchitinbasedscaffoldsfromverongidaspongesdemospongiaeporiferapartiisolationandidentificationofchitin-2010')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{ehrlich_three-dimensional_2010,\n\ttitle = {Three-dimensional chitin-based scaffolds from {Verongida} sponges ({Demospongiae}: {Porifera}). {Part} {I}. {Isolation} and identification of chitin},\n\tvolume = {47},\n\tissn = {01418130},\n\tshorttitle = {Three-dimensional chitin-based scaffolds from {Verongida} sponges ({Demospongiae}},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0141813010001613},\n\tdoi = {10.1016/j.ijbiomac.2010.05.007},\n\tlanguage = {en},\n\tnumber = {2},\n\turldate = {2022-11-09},\n\tjournal = {International Journal of Biological Macromolecules},\n\tauthor = {Ehrlich, H. and Ilan, M. and Maldonado, M. and Muricy, G. and Bavestrello, G. and Kljajic, Z. and Carballo, J.L. and Schiaparelli, S. and Ereskovsky, A. and Schupp, P. and Born, R. and Worch, H. and Bazhenov, V.V. and Kurek, D. and Varlamov, V. and Vyalikh, D. and Kummer, K. and Sivkov, V.V. and Molodtsov, S.L. and Meissner, H. and Richter, G. and Steck, E. and Richter, W. and Hunoldt, S. and Kammer, M. and Paasch, S. and Krasokhin, V. and Patzke, G. and Brunner, E.},\n\tmonth = aug,\n\tyear = {2010},\n\tpages = {132--140},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"ehrlich-steck-ilan-maldonado-muricy-bavestrello-kljajic-carballo-etal-threedimensionalchitinbasedscaffoldsfromverongidaspongesdemospongiaeporiferapartiibiomimeticpotentialandapplications-2010\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0141813010001637\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'ehrlich-steck-ilan-maldonado-muricy-bavestrello-kljajic-carballo-etal-threedimensionalchitinbasedscaffoldsfromverongidaspongesdemospongiaeporiferapartiibiomimeticpotentialandapplications-2010', 'https://linkinghub.elsevier.com/retrieve/pii/S0141813010001637', event);\">\n    Three-dimensional chitin-based scaffolds from Verongida sponges (Demospongiae: Porifera). Part II: Biomimetic potential and applications.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Ehrlich, H., Steck, E., Ilan, M., Maldonado, M., Muricy, G., Bavestrello, G., Kljajic, Z., Carballo, J., Schiaparelli, S., Ereskovsky, A., Schupp, P., Born, R., Worch, H., Bazhenov, V., Kurek, D., Varlamov, V., Vyalikh, D., Kummer, K., Sivkov, V., Molodtsov, S., Meissner, H., Richter, G., Hunoldt, S., Kammer, M., Paasch, S., Krasokhin, V., Patzke, G., Brunner, E.,  &amp; Richter, W.\n</span>\n\n  \n\n</span>\n\n  <i>International Journal of Biological Macromolecules</i>, 47(2): 141–145. August 2010.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0141813010001637\"\n     onclick=\"log_download('ehrlich-steck-ilan-maldonado-muricy-bavestrello-kljajic-carballo-etal-threedimensionalchitinbasedscaffoldsfromverongidaspongesdemospongiaeporiferapartiibiomimeticpotentialandapplications-2010', 'https://linkinghub.elsevier.com/retrieve/pii/S0141813010001637', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Three-dimensional chitin-based scaffolds from Verongida sponges (Demospongiae: Porifera). Part II: Biomimetic potential and applications [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.ijbiomac.2010.05.009\"\n     onclick=\"log_download('ehrlich-steck-ilan-maldonado-muricy-bavestrello-kljajic-carballo-etal-threedimensionalchitinbasedscaffoldsfromverongidaspongesdemospongiaeporiferapartiibiomimeticpotentialandapplications-2010', 'http://doi.org/10.1016/j.ijbiomac.2010.05.009', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/ehrlich-steck-ilan-maldonado-muricy-bavestrello-kljajic-carballo-etal-threedimensionalchitinbasedscaffoldsfromverongidaspongesdemospongiaeporiferapartiibiomimeticpotentialandapplications-2010\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('ehrlich-steck-ilan-maldonado-muricy-bavestrello-kljajic-carballo-etal-threedimensionalchitinbasedscaffoldsfromverongidaspongesdemospongiaeporiferapartiibiomimeticpotentialandapplications-2010')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{ehrlich_three-dimensional_2010,\n\ttitle = {Three-dimensional chitin-based scaffolds from {Verongida} sponges ({Demospongiae}: {Porifera}). {Part} {II}: {Biomimetic} potential and applications},\n\tvolume = {47},\n\tissn = {01418130},\n\tshorttitle = {Three-dimensional chitin-based scaffolds from {Verongida} sponges ({Demospongiae}},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0141813010001637},\n\tdoi = {10.1016/j.ijbiomac.2010.05.009},\n\tlanguage = {en},\n\tnumber = {2},\n\turldate = {2022-11-09},\n\tjournal = {International Journal of Biological Macromolecules},\n\tauthor = {Ehrlich, H. and Steck, E. and Ilan, M. and Maldonado, M. and Muricy, G. and Bavestrello, G. and Kljajic, Z. and Carballo, J.L. and Schiaparelli, S. and Ereskovsky, A. and Schupp, P. and Born, R. and Worch, H. and Bazhenov, V.V. and Kurek, D. and Varlamov, V. and Vyalikh, D. and Kummer, K. and Sivkov, V.V. and Molodtsov, S.L. and Meissner, H. and Richter, G. and Hunoldt, S. and Kammer, M. and Paasch, S. and Krasokhin, V. and Patzke, G. and Brunner, E. and Richter, W.},\n\tmonth = aug,\n\tyear = {2010},\n\tpages = {141--145},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"sharp-ritchie-schupp-ritsonwilliams-paul-bacterialacquisitioninjuvenilesofseveralbroadcastspawningcoralspecies-2010\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://dx.plos.org/10.1371/journal.pone.0010898\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'sharp-ritchie-schupp-ritsonwilliams-paul-bacterialacquisitioninjuvenilesofseveralbroadcastspawningcoralspecies-2010', 'https://dx.plos.org/10.1371/journal.pone.0010898', event);\">\n    Bacterial Acquisition in Juveniles of Several Broadcast Spawning Coral Species.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Sharp, K. H., Ritchie, K. B., Schupp, P. J., Ritson-Williams, R.,  &amp; Paul, V. J.\n</span>\n\n  \n\n</span>\n\n  <i>PLoS ONE</i>, 5(5): e10898. May 2010.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://dx.plos.org/10.1371/journal.pone.0010898\"\n     onclick=\"log_download('sharp-ritchie-schupp-ritsonwilliams-paul-bacterialacquisitioninjuvenilesofseveralbroadcastspawningcoralspecies-2010', 'https://dx.plos.org/10.1371/journal.pone.0010898', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Bacterial Acquisition in Juveniles of Several Broadcast Spawning Coral Species [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1371/journal.pone.0010898\"\n     onclick=\"log_download('sharp-ritchie-schupp-ritsonwilliams-paul-bacterialacquisitioninjuvenilesofseveralbroadcastspawningcoralspecies-2010', 'http://doi.org/10.1371/journal.pone.0010898', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/sharp-ritchie-schupp-ritsonwilliams-paul-bacterialacquisitioninjuvenilesofseveralbroadcastspawningcoralspecies-2010\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('sharp-ritchie-schupp-ritsonwilliams-paul-bacterialacquisitioninjuvenilesofseveralbroadcastspawningcoralspecies-2010')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{sharp_bacterial_2010,\n\ttitle = {Bacterial {Acquisition} in {Juveniles} of {Several} {Broadcast} {Spawning} {Coral} {Species}},\n\tvolume = {5},\n\tissn = {1932-6203},\n\turl = {https://dx.plos.org/10.1371/journal.pone.0010898},\n\tdoi = {10.1371/journal.pone.0010898},\n\tlanguage = {en},\n\tnumber = {5},\n\turldate = {2022-11-09},\n\tjournal = {PLoS ONE},\n\tauthor = {Sharp, Koty H. and Ritchie, Kim B. and Schupp, Peter J. and Ritson-Williams, Raphael and Paul, Valerie J.},\n\teditor = {Vollmer, Steve},\n\tmonth = may,\n\tyear = {2010},\n\tpages = {e10898},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"rubio-parrish-yoshida-schupp-schils-williams-depsipeptidesfromaguamanianmarinecyanobacteriumlyngbyabouilloniiwithselectiveinhibitionofserineproteases-2010\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0040403910018393\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'rubio-parrish-yoshida-schupp-schils-williams-depsipeptidesfromaguamanianmarinecyanobacteriumlyngbyabouilloniiwithselectiveinhibitionofserineproteases-2010', 'https://linkinghub.elsevier.com/retrieve/pii/S0040403910018393', event);\">\n    Depsipeptides from a Guamanian marine cyanobacterium, Lyngbya bouillonii, with selective inhibition of serine proteases.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Rubio, B. K., Parrish, S. M., Yoshida, W., Schupp, P. J., Schils, T.,  &amp; Williams, P. G.\n</span>\n\n  \n\n</span>\n\n  <i>Tetrahedron Letters</i>, 51(51): 6718–6721. December 2010.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0040403910018393\"\n     onclick=\"log_download('rubio-parrish-yoshida-schupp-schils-williams-depsipeptidesfromaguamanianmarinecyanobacteriumlyngbyabouilloniiwithselectiveinhibitionofserineproteases-2010', 'https://linkinghub.elsevier.com/retrieve/pii/S0040403910018393', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Depsipeptides from a Guamanian marine cyanobacterium, Lyngbya bouillonii, with selective inhibition of serine proteases [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.tetlet.2010.10.062\"\n     onclick=\"log_download('rubio-parrish-yoshida-schupp-schils-williams-depsipeptidesfromaguamanianmarinecyanobacteriumlyngbyabouilloniiwithselectiveinhibitionofserineproteases-2010', 'http://doi.org/10.1016/j.tetlet.2010.10.062', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/rubio-parrish-yoshida-schupp-schils-williams-depsipeptidesfromaguamanianmarinecyanobacteriumlyngbyabouilloniiwithselectiveinhibitionofserineproteases-2010\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('rubio-parrish-yoshida-schupp-schils-williams-depsipeptidesfromaguamanianmarinecyanobacteriumlyngbyabouilloniiwithselectiveinhibitionofserineproteases-2010')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{rubio_depsipeptides_2010,\n\ttitle = {Depsipeptides from a {Guamanian} marine cyanobacterium, {Lyngbya} bouillonii, with selective inhibition of serine proteases},\n\tvolume = {51},\n\tissn = {00404039},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0040403910018393},\n\tdoi = {10.1016/j.tetlet.2010.10.062},\n\tlanguage = {en},\n\tnumber = {51},\n\turldate = {2022-11-09},\n\tjournal = {Tetrahedron Letters},\n\tauthor = {Rubio, Brent K. and Parrish, Stephen M. and Yoshida, Wesley and Schupp, Peter J. and Schils, Tom and Williams, Philip G.},\n\tmonth = dec,\n\tyear = {2010},\n\tpages = {6718--6721},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"matthew-salvador-schupp-paul-luesch-cytotoxichalogenatedmacrolidesandmodifiedpeptidesfromtheapratoxinproducingmarinecyanobacteriumilyngbyabouilloniiifromguam-2010\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/np1004032\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'matthew-salvador-schupp-paul-luesch-cytotoxichalogenatedmacrolidesandmodifiedpeptidesfromtheapratoxinproducingmarinecyanobacteriumilyngbyabouilloniiifromguam-2010', 'https://pubs.acs.org/doi/10.1021/np1004032', event);\">\n    Cytotoxic Halogenated Macrolides and Modified Peptides from the Apratoxin-Producing Marine Cyanobacterium <i>Lyngbya bouillonii</i> from Guam.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Matthew, S., Salvador, L. A., Schupp, P. J., Paul, V. J.,  &amp; Luesch, H.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Natural Products</i>, 73(9): 1544–1552. September 2010.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/np1004032\"\n     onclick=\"log_download('matthew-salvador-schupp-paul-luesch-cytotoxichalogenatedmacrolidesandmodifiedpeptidesfromtheapratoxinproducingmarinecyanobacteriumilyngbyabouilloniiifromguam-2010', 'https://pubs.acs.org/doi/10.1021/np1004032', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Cytotoxic Halogenated Macrolides and Modified Peptides from the Apratoxin-Producing Marine Cyanobacterium &lt;i&gt;Lyngbya bouillonii&lt;/i&gt; from Guam [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1021/np1004032\"\n     onclick=\"log_download('matthew-salvador-schupp-paul-luesch-cytotoxichalogenatedmacrolidesandmodifiedpeptidesfromtheapratoxinproducingmarinecyanobacteriumilyngbyabouilloniiifromguam-2010', 'http://doi.org/10.1021/np1004032', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/matthew-salvador-schupp-paul-luesch-cytotoxichalogenatedmacrolidesandmodifiedpeptidesfromtheapratoxinproducingmarinecyanobacteriumilyngbyabouilloniiifromguam-2010\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('matthew-salvador-schupp-paul-luesch-cytotoxichalogenatedmacrolidesandmodifiedpeptidesfromtheapratoxinproducingmarinecyanobacteriumilyngbyabouilloniiifromguam-2010')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{matthew_cytotoxic_2010,\n\ttitle = {Cytotoxic {Halogenated} {Macrolides} and {Modified} {Peptides} from the {Apratoxin}-{Producing} {Marine} {Cyanobacterium} \\textit{{Lyngbya} bouillonii} from {Guam}},\n\tvolume = {73},\n\tissn = {0163-3864, 1520-6025},\n\turl = {https://pubs.acs.org/doi/10.1021/np1004032},\n\tdoi = {10.1021/np1004032},\n\tlanguage = {en},\n\tnumber = {9},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Natural Products},\n\tauthor = {Matthew, Susan and Salvador, Lilibeth A. and Schupp, Peter J. and Paul, Valerie J. and Luesch, Hendrik},\n\tmonth = sep,\n\tyear = {2010},\n\tpages = {1544--1552},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2009\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2009')\"\n      onkeypress=\"toggleGroup('group_2009')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2009</span>\n      <span class=\"bibbase_group_count\">\n        \n        (5)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"kitamura-schupp-nakano-uemura-luminaolideanovelmetamorphosisenhancingmacrodiolideforscleractiniancorallarvaefromcrustosecorallinealgae-2009\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0040403909017870\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'kitamura-schupp-nakano-uemura-luminaolideanovelmetamorphosisenhancingmacrodiolideforscleractiniancorallarvaefromcrustosecorallinealgae-2009', 'https://linkinghub.elsevier.com/retrieve/pii/S0040403909017870', event);\">\n    Luminaolide, a novel metamorphosis-enhancing macrodiolide for scleractinian coral larvae from crustose coralline algae.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Kitamura, M., Schupp, P. J., Nakano, Y.,  &amp; Uemura, D.\n</span>\n\n  \n\n</span>\n\n  <i>Tetrahedron Letters</i>, 50(47): 6606–6609. November 2009.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0040403909017870\"\n     onclick=\"log_download('kitamura-schupp-nakano-uemura-luminaolideanovelmetamorphosisenhancingmacrodiolideforscleractiniancorallarvaefromcrustosecorallinealgae-2009', 'https://linkinghub.elsevier.com/retrieve/pii/S0040403909017870', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Luminaolide, a novel metamorphosis-enhancing macrodiolide for scleractinian coral larvae from crustose coralline algae [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.tetlet.2009.09.065\"\n     onclick=\"log_download('kitamura-schupp-nakano-uemura-luminaolideanovelmetamorphosisenhancingmacrodiolideforscleractiniancorallarvaefromcrustosecorallinealgae-2009', 'http://doi.org/10.1016/j.tetlet.2009.09.065', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/kitamura-schupp-nakano-uemura-luminaolideanovelmetamorphosisenhancingmacrodiolideforscleractiniancorallarvaefromcrustosecorallinealgae-2009\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('kitamura-schupp-nakano-uemura-luminaolideanovelmetamorphosisenhancingmacrodiolideforscleractiniancorallarvaefromcrustosecorallinealgae-2009')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{kitamura_luminaolide_2009,\n\ttitle = {Luminaolide, a novel metamorphosis-enhancing macrodiolide for scleractinian coral larvae from crustose coralline algae},\n\tvolume = {50},\n\tissn = {00404039},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0040403909017870},\n\tdoi = {10.1016/j.tetlet.2009.09.065},\n\tlanguage = {en},\n\tnumber = {47},\n\turldate = {2022-11-09},\n\tjournal = {Tetrahedron Letters},\n\tauthor = {Kitamura, Makoto and Schupp, Peter J. and Nakano, Yoshikatsu and Uemura, Daisuke},\n\tmonth = nov,\n\tyear = {2009},\n\tpages = {6606--6609},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"brunner-ehrlich-schupp-hedrich-hunoldt-kammer-machill-paasch-etal-chitinbasedscaffoldsareanintegralpartoftheskeletonofthemarinedemospongeianthellabasta-2009\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S1047847709001695\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'brunner-ehrlich-schupp-hedrich-hunoldt-kammer-machill-paasch-etal-chitinbasedscaffoldsareanintegralpartoftheskeletonofthemarinedemospongeianthellabasta-2009', 'https://linkinghub.elsevier.com/retrieve/pii/S1047847709001695', event);\">\n    Chitin-based scaffolds are an integral part of the skeleton of the marine demosponge Ianthella basta.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Brunner, E., Ehrlich, H., Schupp, P., Hedrich, R., Hunoldt, S., Kammer, M., Machill, S., Paasch, S., Bazhenov, V., Kurek, D., Arnold, T., Brockmann, S., Ruhnow, M.,  &amp; Born, R.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Structural Biology</i>, 168(3): 539–547. December 2009.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S1047847709001695\"\n     onclick=\"log_download('brunner-ehrlich-schupp-hedrich-hunoldt-kammer-machill-paasch-etal-chitinbasedscaffoldsareanintegralpartoftheskeletonofthemarinedemospongeianthellabasta-2009', 'https://linkinghub.elsevier.com/retrieve/pii/S1047847709001695', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Chitin-based scaffolds are an integral part of the skeleton of the marine demosponge Ianthella basta [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.jsb.2009.06.018\"\n     onclick=\"log_download('brunner-ehrlich-schupp-hedrich-hunoldt-kammer-machill-paasch-etal-chitinbasedscaffoldsareanintegralpartoftheskeletonofthemarinedemospongeianthellabasta-2009', 'http://doi.org/10.1016/j.jsb.2009.06.018', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/brunner-ehrlich-schupp-hedrich-hunoldt-kammer-machill-paasch-etal-chitinbasedscaffoldsareanintegralpartoftheskeletonofthemarinedemospongeianthellabasta-2009\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('brunner-ehrlich-schupp-hedrich-hunoldt-kammer-machill-paasch-etal-chitinbasedscaffoldsareanintegralpartoftheskeletonofthemarinedemospongeianthellabasta-2009')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{brunner_chitin-based_2009,\n\ttitle = {Chitin-based scaffolds are an integral part of the skeleton of the marine demosponge {Ianthella} basta},\n\tvolume = {168},\n\tissn = {10478477},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S1047847709001695},\n\tdoi = {10.1016/j.jsb.2009.06.018},\n\tlanguage = {en},\n\tnumber = {3},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Structural Biology},\n\tauthor = {Brunner, E. and Ehrlich, H. and Schupp, P. and Hedrich, R. and Hunoldt, S. and Kammer, M. and Machill, S. and Paasch, S. and Bazhenov, V.V. and Kurek, D.V. and Arnold, T. and Brockmann, S. and Ruhnow, M. and Born, R.},\n\tmonth = dec,\n\tyear = {2009},\n\tpages = {539--547},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"schupp-kohlertschupp-whitefield-engemann-rohde-hemscheidt-pezzuto-kondratyuk-etal-cancerchemopreventiveandanticancerevaluationofextractsandfractionsfrommarinemacroandmicroorganismscollectedfromtwilightzonewatersaroundguamtextrm1-2009\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://journals.sagepub.com/doi/10.1177/1934578X0900401222\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'schupp-kohlertschupp-whitefield-engemann-rohde-hemscheidt-pezzuto-kondratyuk-etal-cancerchemopreventiveandanticancerevaluationofextractsandfractionsfrommarinemacroandmicroorganismscollectedfromtwilightzonewatersaroundguamtextrm1-2009', 'http://journals.sagepub.com/doi/10.1177/1934578X0900401222', event);\">\n    Cancer Chemopreventive and Anticancer Evaluation of Extracts and Fractions from Marine Macro- and Microorganisms Collected from Twilight Zone Waters around Guam $^{\\textrm{[1]}}$.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Schupp, P. J., Kohlert-Schupp, C., Whitefield, S., Engemann, A., Rohde, S., Hemscheidt, T., Pezzuto, J. M., Kondratyuk, T. P., Park, E., Marler, L., Rostama, B.,  &amp; Wright, A. D.\n</span>\n\n  \n\n</span>\n\n  <i>Natural Product Communications</i>, 4(12): 1934578X0900401. December 2009.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://journals.sagepub.com/doi/10.1177/1934578X0900401222\"\n     onclick=\"log_download('schupp-kohlertschupp-whitefield-engemann-rohde-hemscheidt-pezzuto-kondratyuk-etal-cancerchemopreventiveandanticancerevaluationofextractsandfractionsfrommarinemacroandmicroorganismscollectedfromtwilightzonewatersaroundguamtextrm1-2009', 'http://journals.sagepub.com/doi/10.1177/1934578X0900401222', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Cancer Chemopreventive and Anticancer Evaluation of Extracts and Fractions from Marine Macro- and Microorganisms Collected from Twilight Zone Waters around Guam $^{\\textrm{[1]}}$ [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1177/1934578X0900401222\"\n     onclick=\"log_download('schupp-kohlertschupp-whitefield-engemann-rohde-hemscheidt-pezzuto-kondratyuk-etal-cancerchemopreventiveandanticancerevaluationofextractsandfractionsfrommarinemacroandmicroorganismscollectedfromtwilightzonewatersaroundguamtextrm1-2009', 'http://doi.org/10.1177/1934578X0900401222', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/schupp-kohlertschupp-whitefield-engemann-rohde-hemscheidt-pezzuto-kondratyuk-etal-cancerchemopreventiveandanticancerevaluationofextractsandfractionsfrommarinemacroandmicroorganismscollectedfromtwilightzonewatersaroundguamtextrm1-2009\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('schupp-kohlertschupp-whitefield-engemann-rohde-hemscheidt-pezzuto-kondratyuk-etal-cancerchemopreventiveandanticancerevaluationofextractsandfractionsfrommarinemacroandmicroorganismscollectedfromtwilightzonewatersaroundguamtextrm1-2009')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{schupp_cancer_2009,\n\ttitle = {Cancer {Chemopreventive} and {Anticancer} {Evaluation} of {Extracts} and {Fractions} from {Marine} {Macro}- and {Microorganisms} {Collected} from {Twilight} {Zone} {Waters} around {Guam} $^{\\textrm{[1]}}$},\n\tvolume = {4},\n\tissn = {1934-578X, 1555-9475},\n\turl = {http://journals.sagepub.com/doi/10.1177/1934578X0900401222},\n\tdoi = {10.1177/1934578X0900401222},\n\tabstract = {The cancer chemopreventive and cytotoxic properties of 50 extracts derived from Twilight Zone (50–150 m) sponges, gorgonians and associated bacteria, together with 15 extracts from shallow water hard corals, as well as 16 fractions derived from the methanol solubles of the Twilight Zone sponge Suberea sp, were assessed in a series of bioassays. These assays included: Induction of quinone reductase (QR), inhibition of TNF-α activated nuclear factor kappa B (NFκB), inhibition of aromatase, interaction with retinoid X receptor (RXR), inhibition of nitric oxide (NO) synthase, inhibition 2,2-diphenyl-1-picrylhydrazyl radical scavenging (DPPH), and inhibition of HL-60 and MCF-7 cell proliferation. The results of these assays showed that at least 10 extracts and five fractions inhibited NFκB by greater than 60\\%, two extracts and two fractions inhibited DPPH by more than 50\\%, nine extracts and two fractions affected the survival of HL-60 cells, no extracts or fractions affected RXR, three extracts and six fractions affected quinone reductase (QR), three extracts and 12 fractions significantly inhibited aromatase, four extracts and five fractions inhibited nitric oxide synthase, and one extract and no fractions inhibited the growth of MCF-7 cells by more than 95\\%. These data revealed the tested samples to have many and varied activities, making them, as shown with the extract of the Suberea species, useful starting points for further fractionation and purification. Moreover, the large number of samples demonstrating activity in only one or sometimes two assays accentuates the potential of the Twilight Zone, as a largely unexplored habitat, for the discovery of selectively bioactive compounds. The overall high hit rate in many of the employed assays is considered to be a significant finding in terms of “normal” hit rates associated with similar samples from shallower depths.},\n\tlanguage = {en},\n\tnumber = {12},\n\turldate = {2022-11-09},\n\tjournal = {Natural Product Communications},\n\tauthor = {Schupp, Peter J. and Kohlert-Schupp, Claudia and Whitefield, Susanna and Engemann, Anna and Rohde, Sven and Hemscheidt, Thomas and Pezzuto, John M. and Kondratyuk, Tamara P. and Park, Eun-Jung and Marler, Laura and Rostama, Bahman and Wright, Anthony D.},\n\tmonth = dec,\n\tyear = {2009},\n\tpages = {1934578X0900401},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  The cancer chemopreventive and cytotoxic properties of 50 extracts derived from Twilight Zone (50–150 m) sponges, gorgonians and associated bacteria, together with 15 extracts from shallow water hard corals, as well as 16 fractions derived from the methanol solubles of the Twilight Zone sponge Suberea sp, were assessed in a series of bioassays. These assays included: Induction of quinone reductase (QR), inhibition of TNF-α activated nuclear factor kappa B (NFκB), inhibition of aromatase, interaction with retinoid X receptor (RXR), inhibition of nitric oxide (NO) synthase, inhibition 2,2-diphenyl-1-picrylhydrazyl radical scavenging (DPPH), and inhibition of HL-60 and MCF-7 cell proliferation. The results of these assays showed that at least 10 extracts and five fractions inhibited NFκB by greater than 60%, two extracts and two fractions inhibited DPPH by more than 50%, nine extracts and two fractions affected the survival of HL-60 cells, no extracts or fractions affected RXR, three extracts and six fractions affected quinone reductase (QR), three extracts and 12 fractions significantly inhibited aromatase, four extracts and five fractions inhibited nitric oxide synthase, and one extract and no fractions inhibited the growth of MCF-7 cells by more than 95%. These data revealed the tested samples to have many and varied activities, making them, as shown with the extract of the Suberea species, useful starting points for further fractionation and purification. Moreover, the large number of samples demonstrating activity in only one or sometimes two assays accentuates the potential of the Twilight Zone, as a largely unexplored habitat, for the discovery of selectively bioactive compounds. The overall high hit rate in many of the employed assays is considered to be a significant finding in terms of “normal” hit rates associated with similar samples from shallower depths.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"manzo-ciavatta-melck-schupp-devoogd-gavagnin-aromaticcyclicperoxidesandrelatedketocompoundsfromtheiplakortisispcomponentofaspongeconsortium-2009\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/np900310j\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'manzo-ciavatta-melck-schupp-devoogd-gavagnin-aromaticcyclicperoxidesandrelatedketocompoundsfromtheiplakortisispcomponentofaspongeconsortium-2009', 'https://pubs.acs.org/doi/10.1021/np900310j', event);\">\n    Aromatic Cyclic Peroxides and Related Keto-Compounds from the <i>Plakortis</i> sp. Component of a Sponge Consortium.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Manzo, E., Ciavatta, M. L., Melck, D., Schupp, P., de Voogd, N.,  &amp; Gavagnin, M.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Natural Products</i>, 72(8): 1547–1551. August 2009.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/np900310j\"\n     onclick=\"log_download('manzo-ciavatta-melck-schupp-devoogd-gavagnin-aromaticcyclicperoxidesandrelatedketocompoundsfromtheiplakortisispcomponentofaspongeconsortium-2009', 'https://pubs.acs.org/doi/10.1021/np900310j', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Aromatic Cyclic Peroxides and Related Keto-Compounds from the &lt;i&gt;Plakortis&lt;/i&gt; sp. Component of a Sponge Consortium [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1021/np900310j\"\n     onclick=\"log_download('manzo-ciavatta-melck-schupp-devoogd-gavagnin-aromaticcyclicperoxidesandrelatedketocompoundsfromtheiplakortisispcomponentofaspongeconsortium-2009', 'http://doi.org/10.1021/np900310j', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/manzo-ciavatta-melck-schupp-devoogd-gavagnin-aromaticcyclicperoxidesandrelatedketocompoundsfromtheiplakortisispcomponentofaspongeconsortium-2009\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('manzo-ciavatta-melck-schupp-devoogd-gavagnin-aromaticcyclicperoxidesandrelatedketocompoundsfromtheiplakortisispcomponentofaspongeconsortium-2009')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{manzo_aromatic_2009,\n\ttitle = {Aromatic {Cyclic} {Peroxides} and {Related} {Keto}-{Compounds} from the \\textit{{Plakortis}} sp. {Component} of a {Sponge} {Consortium}},\n\tvolume = {72},\n\tissn = {0163-3864, 1520-6025},\n\turl = {https://pubs.acs.org/doi/10.1021/np900310j},\n\tdoi = {10.1021/np900310j},\n\tlanguage = {en},\n\tnumber = {8},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Natural Products},\n\tauthor = {Manzo, Emiliano and Ciavatta, M. Letizia and Melck, Dominique and Schupp, Peter and de Voogd, Nicole and Gavagnin, Margherita},\n\tmonth = aug,\n\tyear = {2009},\n\tpages = {1547--1551},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"schupp-kohlertschupp-yoshida-hemscheidt-structureofpseudocerosineanindolicazafulvenealkaloidfromtheflatwormipseudocerosindicusi-2009\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/ol8027785\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'schupp-kohlertschupp-yoshida-hemscheidt-structureofpseudocerosineanindolicazafulvenealkaloidfromtheflatwormipseudocerosindicusi-2009', 'https://pubs.acs.org/doi/10.1021/ol8027785', event);\">\n    Structure of Pseudocerosine, an Indolic Azafulvene Alkaloid from the Flatworm <i>Pseudoceros indicus</i>.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Schupp, P. J., Kohlert-Schupp, C., Yoshida, W. Y.,  &amp; Hemscheidt, T. K.\n</span>\n\n  \n\n</span>\n\n  <i>Organic Letters</i>, 11(5): 1111–1114. March 2009.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/ol8027785\"\n     onclick=\"log_download('schupp-kohlertschupp-yoshida-hemscheidt-structureofpseudocerosineanindolicazafulvenealkaloidfromtheflatwormipseudocerosindicusi-2009', 'https://pubs.acs.org/doi/10.1021/ol8027785', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Structure of Pseudocerosine, an Indolic Azafulvene Alkaloid from the Flatworm &lt;i&gt;Pseudoceros indicus&lt;/i&gt; [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1021/ol8027785\"\n     onclick=\"log_download('schupp-kohlertschupp-yoshida-hemscheidt-structureofpseudocerosineanindolicazafulvenealkaloidfromtheflatwormipseudocerosindicusi-2009', 'http://doi.org/10.1021/ol8027785', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/schupp-kohlertschupp-yoshida-hemscheidt-structureofpseudocerosineanindolicazafulvenealkaloidfromtheflatwormipseudocerosindicusi-2009\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('schupp-kohlertschupp-yoshida-hemscheidt-structureofpseudocerosineanindolicazafulvenealkaloidfromtheflatwormipseudocerosindicusi-2009')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{schupp_structure_2009,\n\ttitle = {Structure of {Pseudocerosine}, an {Indolic} {Azafulvene} {Alkaloid} from the {Flatworm} \\textit{{Pseudoceros} indicus}},\n\tvolume = {11},\n\tissn = {1523-7060, 1523-7052},\n\turl = {https://pubs.acs.org/doi/10.1021/ol8027785},\n\tdoi = {10.1021/ol8027785},\n\tlanguage = {en},\n\tnumber = {5},\n\turldate = {2022-11-09},\n\tjournal = {Organic Letters},\n\tauthor = {Schupp, Peter J. and Kohlert-Schupp, Claudia and Yoshida, Wesley Y. and Hemscheidt, Thomas K.},\n\tmonth = mar,\n\tyear = {2009},\n\tpages = {1111--1114},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2008\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2008')\"\n      onkeypress=\"toggleGroup('group_2008')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2008</span>\n      <span class=\"bibbase_group_count\">\n        \n        (6)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"thoms-schupp-activatedchemicaldefenseinmarinespongesacasestudyonaplysinellarhax-2008\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s10886-008-9518-z\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'thoms-schupp-activatedchemicaldefenseinmarinespongesacasestudyonaplysinellarhax-2008', 'http://link.springer.com/10.1007/s10886-008-9518-z', event);\">\n    Activated Chemical Defense in Marine Sponges—a Case Study on Aplysinella rhax.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Thoms, C.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Chemical Ecology</i>, 34(9): 1242–1252. September 2008.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s10886-008-9518-z\"\n     onclick=\"log_download('thoms-schupp-activatedchemicaldefenseinmarinespongesacasestudyonaplysinellarhax-2008', 'http://link.springer.com/10.1007/s10886-008-9518-z', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Activated Chemical Defense in Marine Sponges—a Case Study on Aplysinella rhax [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s10886-008-9518-z\"\n     onclick=\"log_download('thoms-schupp-activatedchemicaldefenseinmarinespongesacasestudyonaplysinellarhax-2008', 'http://doi.org/10.1007/s10886-008-9518-z', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/thoms-schupp-activatedchemicaldefenseinmarinespongesacasestudyonaplysinellarhax-2008\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('thoms-schupp-activatedchemicaldefenseinmarinespongesacasestudyonaplysinellarhax-2008')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{thoms_activated_2008,\n\ttitle = {Activated {Chemical} {Defense} in {Marine} {Sponges}—a {Case} {Study} on {Aplysinella} rhax},\n\tvolume = {34},\n\tissn = {0098-0331, 1573-1561},\n\turl = {http://link.springer.com/10.1007/s10886-008-9518-z},\n\tdoi = {10.1007/s10886-008-9518-z},\n\tlanguage = {en},\n\tnumber = {9},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Chemical Ecology},\n\tauthor = {Thoms, Carsten and Schupp, Peter J.},\n\tmonth = sep,\n\tyear = {2008},\n\tpages = {1242--1252},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"greve-schupp-eguereva-kehraus-kelter-maier-fiebig-knig-apralactoneaandanewstereochemicalclassofcurvularinsfromthemarinefungusicurvulariaisp-2008\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1002/ejoc.200800522\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'greve-schupp-eguereva-kehraus-kelter-maier-fiebig-knig-apralactoneaandanewstereochemicalclassofcurvularinsfromthemarinefungusicurvulariaisp-2008', 'https://onlinelibrary.wiley.com/doi/10.1002/ejoc.200800522', event);\">\n    Apralactone A and a New Stereochemical Class of Curvularins from the Marine Fungus <i>Curvularia</i> sp.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Greve, H., Schupp, P. J., Eguereva, E., Kehraus, S., Kelter, G., Maier, A., Fiebig, H.,  &amp; König, G. M.\n</span>\n\n  \n\n</span>\n\n  <i>European Journal of Organic Chemistry</i>, 2008(30): 5085–5092. October 2008.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1002/ejoc.200800522\"\n     onclick=\"log_download('greve-schupp-eguereva-kehraus-kelter-maier-fiebig-knig-apralactoneaandanewstereochemicalclassofcurvularinsfromthemarinefungusicurvulariaisp-2008', 'https://onlinelibrary.wiley.com/doi/10.1002/ejoc.200800522', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Apralactone A and a New Stereochemical Class of Curvularins from the Marine Fungus &lt;i&gt;Curvularia&lt;/i&gt; sp. [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1002/ejoc.200800522\"\n     onclick=\"log_download('greve-schupp-eguereva-kehraus-kelter-maier-fiebig-knig-apralactoneaandanewstereochemicalclassofcurvularinsfromthemarinefungusicurvulariaisp-2008', 'http://doi.org/10.1002/ejoc.200800522', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/greve-schupp-eguereva-kehraus-kelter-maier-fiebig-knig-apralactoneaandanewstereochemicalclassofcurvularinsfromthemarinefungusicurvulariaisp-2008\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('greve-schupp-eguereva-kehraus-kelter-maier-fiebig-knig-apralactoneaandanewstereochemicalclassofcurvularinsfromthemarinefungusicurvulariaisp-2008')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{greve_apralactone_2008,\n\ttitle = {Apralactone {A} and a {New} {Stereochemical} {Class} of {Curvularins} from the {Marine} {Fungus} \\textit{{Curvularia}} sp.},\n\tvolume = {2008},\n\tissn = {1434193X, 10990690},\n\turl = {https://onlinelibrary.wiley.com/doi/10.1002/ejoc.200800522},\n\tdoi = {10.1002/ejoc.200800522},\n\tlanguage = {en},\n\tnumber = {30},\n\turldate = {2022-11-09},\n\tjournal = {European Journal of Organic Chemistry},\n\tauthor = {Greve, Hendrik and Schupp, Peter J. and Eguereva, Ekaterina and Kehraus, Stefan and Kelter, Gerhard and Maier, Armin and Fiebig, Heinz-Herbert and König, Gabriele M.},\n\tmonth = oct,\n\tyear = {2008},\n\tpages = {5085--5092},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"thoms-hentschel-schmitt-schupp-rapidtissuereductionandrecoveryinthespongeaplysinellasp-2008\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s00227-008-1071-3\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'thoms-hentschel-schmitt-schupp-rapidtissuereductionandrecoveryinthespongeaplysinellasp-2008', 'http://link.springer.com/10.1007/s00227-008-1071-3', event);\">\n    Rapid tissue reduction and recovery in the sponge Aplysinella sp.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Thoms, C., Hentschel, U., Schmitt, S.,  &amp; Schupp, P. J.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Biology</i>, 156(2): 141–153. December 2008.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s00227-008-1071-3\"\n     onclick=\"log_download('thoms-hentschel-schmitt-schupp-rapidtissuereductionandrecoveryinthespongeaplysinellasp-2008', 'http://link.springer.com/10.1007/s00227-008-1071-3', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Rapid tissue reduction and recovery in the sponge Aplysinella sp. [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s00227-008-1071-3\"\n     onclick=\"log_download('thoms-hentschel-schmitt-schupp-rapidtissuereductionandrecoveryinthespongeaplysinellasp-2008', 'http://doi.org/10.1007/s00227-008-1071-3', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/thoms-hentschel-schmitt-schupp-rapidtissuereductionandrecoveryinthespongeaplysinellasp-2008\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('thoms-hentschel-schmitt-schupp-rapidtissuereductionandrecoveryinthespongeaplysinellasp-2008')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{thoms_rapid_2008,\n\ttitle = {Rapid tissue reduction and recovery in the sponge {Aplysinella} sp.},\n\tvolume = {156},\n\tissn = {0025-3162, 1432-1793},\n\turl = {http://link.springer.com/10.1007/s00227-008-1071-3},\n\tdoi = {10.1007/s00227-008-1071-3},\n\tlanguage = {en},\n\tnumber = {2},\n\turldate = {2022-11-09},\n\tjournal = {Marine Biology},\n\tauthor = {Thoms, Carsten and Hentschel, Ute and Schmitt, Susanne and Schupp, Peter J.},\n\tmonth = dec,\n\tyear = {2008},\n\tpages = {141--153},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"matthew-schupp-luesch-apratoxineacytotoxicpeptolidefromaguamaniancollectionofthemarinecyanobacteriumilyngbyabouilloniii-2008\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/np700717s\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'matthew-schupp-luesch-apratoxineacytotoxicpeptolidefromaguamaniancollectionofthemarinecyanobacteriumilyngbyabouilloniii-2008', 'https://pubs.acs.org/doi/10.1021/np700717s', event);\">\n    Apratoxin E, a Cytotoxic Peptolide from a Guamanian Collection of the Marine Cyanobacterium <i>Lyngbya bouillonii</i>.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Matthew, S., Schupp, P. J.,  &amp; Luesch, H.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Natural Products</i>, 71(6): 1113–1116. June 2008.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/np700717s\"\n     onclick=\"log_download('matthew-schupp-luesch-apratoxineacytotoxicpeptolidefromaguamaniancollectionofthemarinecyanobacteriumilyngbyabouilloniii-2008', 'https://pubs.acs.org/doi/10.1021/np700717s', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Apratoxin E, a Cytotoxic Peptolide from a Guamanian Collection of the Marine Cyanobacterium &lt;i&gt;Lyngbya bouillonii&lt;/i&gt; [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1021/np700717s\"\n     onclick=\"log_download('matthew-schupp-luesch-apratoxineacytotoxicpeptolidefromaguamaniancollectionofthemarinecyanobacteriumilyngbyabouilloniii-2008', 'http://doi.org/10.1021/np700717s', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/matthew-schupp-luesch-apratoxineacytotoxicpeptolidefromaguamaniancollectionofthemarinecyanobacteriumilyngbyabouilloniii-2008\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('matthew-schupp-luesch-apratoxineacytotoxicpeptolidefromaguamaniancollectionofthemarinecyanobacteriumilyngbyabouilloniii-2008')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{matthew_apratoxin_2008,\n\ttitle = {Apratoxin {E}, a {Cytotoxic} {Peptolide} from a {Guamanian} {Collection} of the {Marine} {Cyanobacterium} \\textit{{Lyngbya} bouillonii}},\n\tvolume = {71},\n\tissn = {0163-3864, 1520-6025},\n\turl = {https://pubs.acs.org/doi/10.1021/np700717s},\n\tdoi = {10.1021/np700717s},\n\tlanguage = {en},\n\tnumber = {6},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Natural Products},\n\tauthor = {Matthew, Susan and Schupp, Peter J. and Luesch, Hendrik},\n\tmonth = jun,\n\tyear = {2008},\n\tpages = {1113--1116},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"matz-webb-schupp-phang-penesyan-egan-steinberg-kjelleberg-marinebiofilmbacteriaevadeeukaryoticpredationbytargetedchemicaldefense-2008\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://dx.plos.org/10.1371/journal.pone.0002744\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'matz-webb-schupp-phang-penesyan-egan-steinberg-kjelleberg-marinebiofilmbacteriaevadeeukaryoticpredationbytargetedchemicaldefense-2008', 'https://dx.plos.org/10.1371/journal.pone.0002744', event);\">\n    Marine Biofilm Bacteria Evade Eukaryotic Predation by Targeted Chemical Defense.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Matz, C., Webb, J. S., Schupp, P. J., Phang, S. Y., Penesyan, A., Egan, S., Steinberg, P.,  &amp; Kjelleberg, S.\n</span>\n\n  \n\n</span>\n\n  <i>PLoS ONE</i>, 3(7): e2744. July 2008.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://dx.plos.org/10.1371/journal.pone.0002744\"\n     onclick=\"log_download('matz-webb-schupp-phang-penesyan-egan-steinberg-kjelleberg-marinebiofilmbacteriaevadeeukaryoticpredationbytargetedchemicaldefense-2008', 'https://dx.plos.org/10.1371/journal.pone.0002744', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Marine Biofilm Bacteria Evade Eukaryotic Predation by Targeted Chemical Defense [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1371/journal.pone.0002744\"\n     onclick=\"log_download('matz-webb-schupp-phang-penesyan-egan-steinberg-kjelleberg-marinebiofilmbacteriaevadeeukaryoticpredationbytargetedchemicaldefense-2008', 'http://doi.org/10.1371/journal.pone.0002744', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/matz-webb-schupp-phang-penesyan-egan-steinberg-kjelleberg-marinebiofilmbacteriaevadeeukaryoticpredationbytargetedchemicaldefense-2008\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('matz-webb-schupp-phang-penesyan-egan-steinberg-kjelleberg-marinebiofilmbacteriaevadeeukaryoticpredationbytargetedchemicaldefense-2008')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{matz_marine_2008,\n\ttitle = {Marine {Biofilm} {Bacteria} {Evade} {Eukaryotic} {Predation} by {Targeted} {Chemical} {Defense}},\n\tvolume = {3},\n\tissn = {1932-6203},\n\turl = {https://dx.plos.org/10.1371/journal.pone.0002744},\n\tdoi = {10.1371/journal.pone.0002744},\n\tlanguage = {en},\n\tnumber = {7},\n\turldate = {2022-11-09},\n\tjournal = {PLoS ONE},\n\tauthor = {Matz, Carsten and Webb, Jeremy S. and Schupp, Peter J. and Phang, Shui Yen and Penesyan, Anahit and Egan, Suhelen and Steinberg, Peter and Kjelleberg, Staffan},\n\teditor = {McClain, Craig R.},\n\tmonth = jul,\n\tyear = {2008},\n\tpages = {e2744},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"greve-schupp-eguereva-kehraus-knig-tenmemberedlactonesfromthemarinederivedfungusicurvulariaisp-2008\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/np8003326\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'greve-schupp-eguereva-kehraus-knig-tenmemberedlactonesfromthemarinederivedfungusicurvulariaisp-2008', 'https://pubs.acs.org/doi/10.1021/np8003326', event);\">\n    Ten-Membered Lactones from the Marine-Derived Fungus <i>Curvularia</i> sp.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Greve, H., Schupp, P. J., Eguereva, E., Kehraus, S.,  &amp; König, G. M.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Natural Products</i>, 71(9): 1651–1653. September 2008.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/np8003326\"\n     onclick=\"log_download('greve-schupp-eguereva-kehraus-knig-tenmemberedlactonesfromthemarinederivedfungusicurvulariaisp-2008', 'https://pubs.acs.org/doi/10.1021/np8003326', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Ten-Membered Lactones from the Marine-Derived Fungus &lt;i&gt;Curvularia&lt;/i&gt; sp. [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1021/np8003326\"\n     onclick=\"log_download('greve-schupp-eguereva-kehraus-knig-tenmemberedlactonesfromthemarinederivedfungusicurvulariaisp-2008', 'http://doi.org/10.1021/np8003326', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/greve-schupp-eguereva-kehraus-knig-tenmemberedlactonesfromthemarinederivedfungusicurvulariaisp-2008\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('greve-schupp-eguereva-kehraus-knig-tenmemberedlactonesfromthemarinederivedfungusicurvulariaisp-2008')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{greve_ten-membered_2008,\n\ttitle = {Ten-{Membered} {Lactones} from the {Marine}-{Derived} {Fungus} \\textit{{Curvularia}} sp.},\n\tvolume = {71},\n\tissn = {0163-3864, 1520-6025},\n\turl = {https://pubs.acs.org/doi/10.1021/np8003326},\n\tdoi = {10.1021/np8003326},\n\tlanguage = {en},\n\tnumber = {9},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Natural Products},\n\tauthor = {Greve, Hendrik and Schupp, Peter J. and Eguereva, Ekaterina and Kehraus, Stefan and König, Gabriele M.},\n\tmonth = sep,\n\tyear = {2008},\n\tpages = {1651--1653},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2007\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2007')\"\n      onkeypress=\"toggleGroup('group_2007')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2007</span>\n      <span class=\"bibbase_group_count\">\n        \n        (3)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"thoms-schupp-custdio-lbohajdu-hajdu-muricy-chemicaldefensestrategiesinspongesareview-2007\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  Chemical defense strategies in sponges: a review.\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Thoms, C., Schupp, P. J, Custódio, M., Lôbo-Hajdu, G, Hajdu, E,  &amp; Muricy, G\n</span>\n\n  \n\n</span>\n\n  In <i>Porifera research: biodiversity, Innovation and sustainability</i>, volume 28, pages 627–637.  2007.\n  <span class=\"note\">Publisher: Série Livros</span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/thoms-schupp-custdio-lbohajdu-hajdu-muricy-chemicaldefensestrategiesinspongesareview-2007\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('thoms-schupp-custdio-lbohajdu-hajdu-muricy-chemicaldefensestrategiesinspongesareview-2007')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@incollection{thoms_chemical_2007,\n\ttitle = {Chemical defense strategies in sponges: a review},\n\tvolume = {28},\n\tisbn = {85-7427-023-7 978-85-7427-023-4},\n\tbooktitle = {Porifera research: biodiversity, {Innovation} and sustainability},\n\tauthor = {Thoms, Carsten and Schupp, Peter J and Custódio, MR and Lôbo-Hajdu, G and Hajdu, E and Muricy, G},\n\tyear = {2007},\n\tnote = {Publisher: Série Livros},\n\tpages = {627--637},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"ortlepp-sjgren-dahlstrm-weber-ebel-edrada-thoms-schupp-etal-antifoulingactivityofbromotyrosinederivedspongemetabolitesandsyntheticanalogues-2007\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s10126-007-9029-x\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'ortlepp-sjgren-dahlstrm-weber-ebel-edrada-thoms-schupp-etal-antifoulingactivityofbromotyrosinederivedspongemetabolitesandsyntheticanalogues-2007', 'http://link.springer.com/10.1007/s10126-007-9029-x', event);\">\n    Antifouling Activity of Bromotyrosine-Derived Sponge Metabolites and Synthetic Analogues.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Ortlepp, S., Sjögren, M., Dahlström, M., Weber, H., Ebel, R., Edrada, R., Thoms, C., Schupp, P., Bohlin, L.,  &amp; Proksch, P.\n</span>\n\n  \n\n</span>\n\n  <i>Marine Biotechnology</i>, 9(6): 776–785. November 2007.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s10126-007-9029-x\"\n     onclick=\"log_download('ortlepp-sjgren-dahlstrm-weber-ebel-edrada-thoms-schupp-etal-antifoulingactivityofbromotyrosinederivedspongemetabolitesandsyntheticanalogues-2007', 'http://link.springer.com/10.1007/s10126-007-9029-x', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Antifouling Activity of Bromotyrosine-Derived Sponge Metabolites and Synthetic Analogues [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s10126-007-9029-x\"\n     onclick=\"log_download('ortlepp-sjgren-dahlstrm-weber-ebel-edrada-thoms-schupp-etal-antifoulingactivityofbromotyrosinederivedspongemetabolitesandsyntheticanalogues-2007', 'http://doi.org/10.1007/s10126-007-9029-x', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/ortlepp-sjgren-dahlstrm-weber-ebel-edrada-thoms-schupp-etal-antifoulingactivityofbromotyrosinederivedspongemetabolitesandsyntheticanalogues-2007\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('ortlepp-sjgren-dahlstrm-weber-ebel-edrada-thoms-schupp-etal-antifoulingactivityofbromotyrosinederivedspongemetabolitesandsyntheticanalogues-2007')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{ortlepp_antifouling_2007,\n\ttitle = {Antifouling {Activity} of {Bromotyrosine}-{Derived} {Sponge} {Metabolites} and {Synthetic} {Analogues}},\n\tvolume = {9},\n\tissn = {1436-2228, 1436-2236},\n\turl = {http://link.springer.com/10.1007/s10126-007-9029-x},\n\tdoi = {10.1007/s10126-007-9029-x},\n\tlanguage = {en},\n\tnumber = {6},\n\turldate = {2022-11-09},\n\tjournal = {Marine Biotechnology},\n\tauthor = {Ortlepp, Sofia and Sjögren, Martin and Dahlström, Mia and Weber, Horst and Ebel, Rainer and Edrada, RuAngelie and Thoms, Carsten and Schupp, Peter and Bohlin, Lars and Proksch, Peter},\n\tmonth = nov,\n\tyear = {2007},\n\tpages = {776--785},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"manzo-gavagnin-somerville-mao-ciavatta-mollo-schupp-garson-etal-chemistryofglossodorisnudibranchsspecificoccurrenceof12ketoscalaranes-2007\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s10886-007-9387-x\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'manzo-gavagnin-somerville-mao-ciavatta-mollo-schupp-garson-etal-chemistryofglossodorisnudibranchsspecificoccurrenceof12ketoscalaranes-2007', 'http://link.springer.com/10.1007/s10886-007-9387-x', event);\">\n    Chemistry of Glossodoris Nudibranchs: Specific Occurrence of 12-Keto Scalaranes.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Manzo, E., Gavagnin, M., Somerville, M. J., Mao, S., Ciavatta, M. L., Mollo, E., Schupp, P. J., Garson, M. J., Guo, Y.,  &amp; Cimino, G.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Chemical Ecology</i>, 33(12): 2325–2336. December 2007.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s10886-007-9387-x\"\n     onclick=\"log_download('manzo-gavagnin-somerville-mao-ciavatta-mollo-schupp-garson-etal-chemistryofglossodorisnudibranchsspecificoccurrenceof12ketoscalaranes-2007', 'http://link.springer.com/10.1007/s10886-007-9387-x', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Chemistry of Glossodoris Nudibranchs: Specific Occurrence of 12-Keto Scalaranes [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s10886-007-9387-x\"\n     onclick=\"log_download('manzo-gavagnin-somerville-mao-ciavatta-mollo-schupp-garson-etal-chemistryofglossodorisnudibranchsspecificoccurrenceof12ketoscalaranes-2007', 'http://doi.org/10.1007/s10886-007-9387-x', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/manzo-gavagnin-somerville-mao-ciavatta-mollo-schupp-garson-etal-chemistryofglossodorisnudibranchsspecificoccurrenceof12ketoscalaranes-2007\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('manzo-gavagnin-somerville-mao-ciavatta-mollo-schupp-garson-etal-chemistryofglossodorisnudibranchsspecificoccurrenceof12ketoscalaranes-2007')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{manzo_chemistry_2007,\n\ttitle = {Chemistry of {Glossodoris} {Nudibranchs}: {Specific} {Occurrence} of 12-{Keto} {Scalaranes}},\n\tvolume = {33},\n\tissn = {0098-0331, 1573-1561},\n\tshorttitle = {Chemistry of {Glossodoris} {Nudibranchs}},\n\turl = {http://link.springer.com/10.1007/s10886-007-9387-x},\n\tdoi = {10.1007/s10886-007-9387-x},\n\tlanguage = {en},\n\tnumber = {12},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Chemical Ecology},\n\tauthor = {Manzo, Emiliano and Gavagnin, Margherita and Somerville, Michael J. and Mao, Shui-Chun and Ciavatta, M. Letizia and Mollo, Ernesto and Schupp, Peter J. and Garson, Mary J. and Guo, Yue-Wei and Cimino, Guido},\n\tmonth = dec,\n\tyear = {2007},\n\tpages = {2325--2336},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2006\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2006')\"\n      onkeypress=\"toggleGroup('group_2006')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2006</span>\n      <span class=\"bibbase_group_count\">\n        \n        (2)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"lpezlegentil-turon-schupp-chemicalandphysicaldefensesagainstpredatorsincystodytesascidiacea-2006\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0022098105004971\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'lpezlegentil-turon-schupp-chemicalandphysicaldefensesagainstpredatorsincystodytesascidiacea-2006', 'https://linkinghub.elsevier.com/retrieve/pii/S0022098105004971', event);\">\n    Chemical and physical defenses against predators in Cystodytes (Ascidiacea).\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  López-Legentil, S., Turon, X.,  &amp; Schupp, P.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Experimental Marine Biology and Ecology</i>, 332(1): 27–36. May 2006.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0022098105004971\"\n     onclick=\"log_download('lpezlegentil-turon-schupp-chemicalandphysicaldefensesagainstpredatorsincystodytesascidiacea-2006', 'https://linkinghub.elsevier.com/retrieve/pii/S0022098105004971', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Chemical and physical defenses against predators in Cystodytes (Ascidiacea) [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/j.jembe.2005.11.002\"\n     onclick=\"log_download('lpezlegentil-turon-schupp-chemicalandphysicaldefensesagainstpredatorsincystodytesascidiacea-2006', 'http://doi.org/10.1016/j.jembe.2005.11.002', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/lpezlegentil-turon-schupp-chemicalandphysicaldefensesagainstpredatorsincystodytesascidiacea-2006\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('lpezlegentil-turon-schupp-chemicalandphysicaldefensesagainstpredatorsincystodytesascidiacea-2006')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{lopez-legentil_chemical_2006,\n\ttitle = {Chemical and physical defenses against predators in {Cystodytes} ({Ascidiacea})},\n\tvolume = {332},\n\tissn = {00220981},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0022098105004971},\n\tdoi = {10.1016/j.jembe.2005.11.002},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Experimental Marine Biology and Ecology},\n\tauthor = {López-Legentil, Susanna and Turon, Xavier and Schupp, Peter},\n\tmonth = may,\n\tyear = {2006},\n\tpages = {27--36},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"vanalstyne-schupp-slattery-thedistributionofdimethylsulfoniopropionateintropicalpacificcoralreefinvertebrates-2006\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://link.springer.com/10.1007/s00338-006-0114-9\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'vanalstyne-schupp-slattery-thedistributionofdimethylsulfoniopropionateintropicalpacificcoralreefinvertebrates-2006', 'https://link.springer.com/10.1007/s00338-006-0114-9', event);\">\n    The distribution of dimethylsulfoniopropionate in tropical Pacific coral reef invertebrates.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Van Alstyne, K. L., Schupp, P.,  &amp; Slattery, M.\n</span>\n\n  \n\n</span>\n\n  <i>Coral Reefs</i>, 25(3): 321–327. August 2006.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://link.springer.com/10.1007/s00338-006-0114-9\"\n     onclick=\"log_download('vanalstyne-schupp-slattery-thedistributionofdimethylsulfoniopropionateintropicalpacificcoralreefinvertebrates-2006', 'https://link.springer.com/10.1007/s00338-006-0114-9', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"The distribution of dimethylsulfoniopropionate in tropical Pacific coral reef invertebrates [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s00338-006-0114-9\"\n     onclick=\"log_download('vanalstyne-schupp-slattery-thedistributionofdimethylsulfoniopropionateintropicalpacificcoralreefinvertebrates-2006', 'http://doi.org/10.1007/s00338-006-0114-9', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/vanalstyne-schupp-slattery-thedistributionofdimethylsulfoniopropionateintropicalpacificcoralreefinvertebrates-2006\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('vanalstyne-schupp-slattery-thedistributionofdimethylsulfoniopropionateintropicalpacificcoralreefinvertebrates-2006')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{van_alstyne_distribution_2006,\n\ttitle = {The distribution of dimethylsulfoniopropionate in tropical {Pacific} coral reef invertebrates},\n\tvolume = {25},\n\tissn = {0722-4028, 1432-0975},\n\turl = {https://link.springer.com/10.1007/s00338-006-0114-9},\n\tdoi = {10.1007/s00338-006-0114-9},\n\tlanguage = {en},\n\tnumber = {3},\n\turldate = {2022-11-09},\n\tjournal = {Coral Reefs},\n\tauthor = {Van Alstyne, Kathryn L. and Schupp, Peter and Slattery, Marc},\n\tmonth = aug,\n\tyear = {2006},\n\tpages = {321--327},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2005\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2005')\"\n      onkeypress=\"toggleGroup('group_2005')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2005</span>\n      <span class=\"bibbase_group_count\">\n        \n        (2)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"taylor-schupp-denys-kjelleberg-steinberg-biogeographyofbacteriaassociatedwiththemarinespongecymbastelaconcentrica-2005\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1111/j.1462-2920.2004.00711.x\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'taylor-schupp-denys-kjelleberg-steinberg-biogeographyofbacteriaassociatedwiththemarinespongecymbastelaconcentrica-2005', 'https://onlinelibrary.wiley.com/doi/10.1111/j.1462-2920.2004.00711.x', event);\">\n    Biogeography of bacteria associated with the marine sponge Cymbastela concentrica.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Taylor, M. W., Schupp, P. J., de Nys, R., Kjelleberg, S.,  &amp; Steinberg, P. D.\n</span>\n\n  \n\n</span>\n\n  <i>Environmental Microbiology</i>, 7(3): 419–433. March 2005.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://onlinelibrary.wiley.com/doi/10.1111/j.1462-2920.2004.00711.x\"\n     onclick=\"log_download('taylor-schupp-denys-kjelleberg-steinberg-biogeographyofbacteriaassociatedwiththemarinespongecymbastelaconcentrica-2005', 'https://onlinelibrary.wiley.com/doi/10.1111/j.1462-2920.2004.00711.x', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Biogeography of bacteria associated with the marine sponge Cymbastela concentrica [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1111/j.1462-2920.2004.00711.x\"\n     onclick=\"log_download('taylor-schupp-denys-kjelleberg-steinberg-biogeographyofbacteriaassociatedwiththemarinespongecymbastelaconcentrica-2005', 'http://doi.org/10.1111/j.1462-2920.2004.00711.x', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/taylor-schupp-denys-kjelleberg-steinberg-biogeographyofbacteriaassociatedwiththemarinespongecymbastelaconcentrica-2005\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('taylor-schupp-denys-kjelleberg-steinberg-biogeographyofbacteriaassociatedwiththemarinespongecymbastelaconcentrica-2005')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{taylor_biogeography_2005,\n\ttitle = {Biogeography of bacteria associated with the marine sponge {Cymbastela} concentrica},\n\tvolume = {7},\n\tissn = {1462-2912, 1462-2920},\n\turl = {https://onlinelibrary.wiley.com/doi/10.1111/j.1462-2920.2004.00711.x},\n\tdoi = {10.1111/j.1462-2920.2004.00711.x},\n\tlanguage = {en},\n\tnumber = {3},\n\turldate = {2022-11-09},\n\tjournal = {Environmental Microbiology},\n\tauthor = {Taylor, Michael W. and Schupp, Peter J. and de Nys, Rocky and Kjelleberg, Staffan and Steinberg, Peter D.},\n\tmonth = mar,\n\tyear = {2005},\n\tpages = {419--433},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"schupp-charlton-taylor-kjelleberg-steinberg-useofsolidphaseextractiontoenableenhanceddetectionofacylhomoserinelactonesahlsinenvironmentalsamples-2005\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://link.springer.com/10.1007/s00216-005-3387-x\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'schupp-charlton-taylor-kjelleberg-steinberg-useofsolidphaseextractiontoenableenhanceddetectionofacylhomoserinelactonesahlsinenvironmentalsamples-2005', 'http://link.springer.com/10.1007/s00216-005-3387-x', event);\">\n    Use of solid-phase extraction to enable enhanced detection of acyl homoserine lactones (AHLs) in environmental samples.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Schupp, P. J., Charlton, T. S., Taylor, M. W., Kjelleberg, S.,  &amp; Steinberg, P. D.\n</span>\n\n  \n\n</span>\n\n  <i>Analytical and Bioanalytical Chemistry</i>, 383(1): 132–137. September 2005.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://link.springer.com/10.1007/s00216-005-3387-x\"\n     onclick=\"log_download('schupp-charlton-taylor-kjelleberg-steinberg-useofsolidphaseextractiontoenableenhanceddetectionofacylhomoserinelactonesahlsinenvironmentalsamples-2005', 'http://link.springer.com/10.1007/s00216-005-3387-x', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Use of solid-phase extraction to enable enhanced detection of acyl homoserine lactones (AHLs) in environmental samples [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1007/s00216-005-3387-x\"\n     onclick=\"log_download('schupp-charlton-taylor-kjelleberg-steinberg-useofsolidphaseextractiontoenableenhanceddetectionofacylhomoserinelactonesahlsinenvironmentalsamples-2005', 'http://doi.org/10.1007/s00216-005-3387-x', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/schupp-charlton-taylor-kjelleberg-steinberg-useofsolidphaseextractiontoenableenhanceddetectionofacylhomoserinelactonesahlsinenvironmentalsamples-2005\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('schupp-charlton-taylor-kjelleberg-steinberg-useofsolidphaseextractiontoenableenhanceddetectionofacylhomoserinelactonesahlsinenvironmentalsamples-2005')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{schupp_use_2005,\n\ttitle = {Use of solid-phase extraction to enable enhanced detection of acyl homoserine lactones ({AHLs}) in environmental samples},\n\tvolume = {383},\n\tissn = {1618-2642, 1618-2650},\n\turl = {http://link.springer.com/10.1007/s00216-005-3387-x},\n\tdoi = {10.1007/s00216-005-3387-x},\n\tlanguage = {en},\n\tnumber = {1},\n\turldate = {2022-11-09},\n\tjournal = {Analytical and Bioanalytical Chemistry},\n\tauthor = {Schupp, Peter J. and Charlton, Timothy S. and Taylor, Michael W. and Kjelleberg, Staffan and Steinberg, Peter D.},\n\tmonth = sep,\n\tyear = {2005},\n\tpages = {132--137},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2004\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2004')\"\n      onkeypress=\"toggleGroup('group_2004')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2004</span>\n      <span class=\"bibbase_group_count\">\n        \n        (2)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"taylor-schupp-dahllf-kjelleberg-steinberg-hostspecificityinmarinespongeassociatedbacteriaandpotentialimplicationsformarinemicrobialdiversityhostspecificityanddiversityinmarinebacteria-2004\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"http://doi.wiley.com/10.1046/j.1462-2920.2003.00545.x\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'taylor-schupp-dahllf-kjelleberg-steinberg-hostspecificityinmarinespongeassociatedbacteriaandpotentialimplicationsformarinemicrobialdiversityhostspecificityanddiversityinmarinebacteria-2004', 'http://doi.wiley.com/10.1046/j.1462-2920.2003.00545.x', event);\">\n    Host specificity in marine sponge-associated bacteria, and potential implications for marine microbial diversity: Host specificity and diversity in marine bacteria.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Taylor, M. W., Schupp, P. J., Dahllöf, I., Kjelleberg, S.,  &amp; Steinberg, P. D.\n</span>\n\n  \n\n</span>\n\n  <i>Environmental Microbiology</i>, 6(2): 121–130. February 2004.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"http://doi.wiley.com/10.1046/j.1462-2920.2003.00545.x\"\n     onclick=\"log_download('taylor-schupp-dahllf-kjelleberg-steinberg-hostspecificityinmarinespongeassociatedbacteriaandpotentialimplicationsformarinemicrobialdiversityhostspecificityanddiversityinmarinebacteria-2004', 'http://doi.wiley.com/10.1046/j.1462-2920.2003.00545.x', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Host specificity in marine sponge-associated bacteria, and potential implications for marine microbial diversity: Host specificity and diversity in marine bacteria [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1046/j.1462-2920.2003.00545.x\"\n     onclick=\"log_download('taylor-schupp-dahllf-kjelleberg-steinberg-hostspecificityinmarinespongeassociatedbacteriaandpotentialimplicationsformarinemicrobialdiversityhostspecificityanddiversityinmarinebacteria-2004', 'http://doi.org/10.1046/j.1462-2920.2003.00545.x', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/taylor-schupp-dahllf-kjelleberg-steinberg-hostspecificityinmarinespongeassociatedbacteriaandpotentialimplicationsformarinemicrobialdiversityhostspecificityanddiversityinmarinebacteria-2004\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('taylor-schupp-dahllf-kjelleberg-steinberg-hostspecificityinmarinespongeassociatedbacteriaandpotentialimplicationsformarinemicrobialdiversityhostspecificityanddiversityinmarinebacteria-2004')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{taylor_host_2004,\n\ttitle = {Host specificity in marine sponge-associated bacteria, and potential implications for marine microbial diversity: {Host} specificity and diversity in marine bacteria},\n\tvolume = {6},\n\tissn = {14622912},\n\tshorttitle = {Host specificity in marine sponge-associated bacteria, and potential implications for marine microbial diversity},\n\turl = {http://doi.wiley.com/10.1046/j.1462-2920.2003.00545.x},\n\tdoi = {10.1046/j.1462-2920.2003.00545.x},\n\tlanguage = {en},\n\tnumber = {2},\n\turldate = {2022-11-09},\n\tjournal = {Environmental Microbiology},\n\tauthor = {Taylor, Michael W. and Schupp, Peter J. and Dahllöf, Ingela and Kjelleberg, Staffan and Steinberg, Peter D.},\n\tmonth = feb,\n\tyear = {2004},\n\tpages = {121--130},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"taylor-schupp-baillie-charlton-denys-kjelleberg-steinberg-evidenceforacylhomoserinelactonesignalproductioninbacteriaassociatedwithmarinesponges-2004\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://journals.asm.org/doi/10.1128/AEM.70.7.4387-4389.2004\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'taylor-schupp-baillie-charlton-denys-kjelleberg-steinberg-evidenceforacylhomoserinelactonesignalproductioninbacteriaassociatedwithmarinesponges-2004', 'https://journals.asm.org/doi/10.1128/AEM.70.7.4387-4389.2004', event);\">\n    Evidence for Acyl Homoserine Lactone Signal Production in Bacteria Associated with Marine Sponges.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Taylor, M. W., Schupp, P. J., Baillie, H. J., Charlton, T. S., de Nys, R., Kjelleberg, S.,  &amp; Steinberg, P. D.\n</span>\n\n  \n\n</span>\n\n  <i>Applied and Environmental Microbiology</i>, 70(7): 4387–4389. July 2004.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://journals.asm.org/doi/10.1128/AEM.70.7.4387-4389.2004\"\n     onclick=\"log_download('taylor-schupp-baillie-charlton-denys-kjelleberg-steinberg-evidenceforacylhomoserinelactonesignalproductioninbacteriaassociatedwithmarinesponges-2004', 'https://journals.asm.org/doi/10.1128/AEM.70.7.4387-4389.2004', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Evidence for Acyl Homoserine Lactone Signal Production in Bacteria Associated with Marine Sponges [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1128/AEM.70.7.4387-4389.2004\"\n     onclick=\"log_download('taylor-schupp-baillie-charlton-denys-kjelleberg-steinberg-evidenceforacylhomoserinelactonesignalproductioninbacteriaassociatedwithmarinesponges-2004', 'http://doi.org/10.1128/AEM.70.7.4387-4389.2004', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/taylor-schupp-baillie-charlton-denys-kjelleberg-steinberg-evidenceforacylhomoserinelactonesignalproductioninbacteriaassociatedwithmarinesponges-2004\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('taylor-schupp-baillie-charlton-denys-kjelleberg-steinberg-evidenceforacylhomoserinelactonesignalproductioninbacteriaassociatedwithmarinesponges-2004')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{taylor_evidence_2004,\n\ttitle = {Evidence for {Acyl} {Homoserine} {Lactone} {Signal} {Production} in {Bacteria} {Associated} with {Marine} {Sponges}},\n\tvolume = {70},\n\tissn = {0099-2240, 1098-5336},\n\turl = {https://journals.asm.org/doi/10.1128/AEM.70.7.4387-4389.2004},\n\tdoi = {10.1128/AEM.70.7.4387-4389.2004},\n\tabstract = {ABSTRACT\n            We report for the first time the production of acyl homoserine lactones (AHLs) by bacteria associated with marine sponges. Given the involvement of AHLs in bacterial colonization of many higher organisms, we speculate that such quorum sensing signals could play a part in interactions between sponges and the dense bacterial communities living within them.},\n\tlanguage = {en},\n\tnumber = {7},\n\turldate = {2022-11-09},\n\tjournal = {Applied and Environmental Microbiology},\n\tauthor = {Taylor, Michael W. and Schupp, Peter J. and Baillie, Harriet J. and Charlton, Timothy S. and de Nys, Rocky and Kjelleberg, Staffan and Steinberg, Peter D.},\n\tmonth = jul,\n\tyear = {2004},\n\tpages = {4387--4389},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  ABSTRACT We report for the first time the production of acyl homoserine lactones (AHLs) by bacteria associated with marine sponges. Given the involvement of AHLs in bacterial colonization of many higher organisms, we speculate that such quorum sensing signals could play a part in interactions between sponges and the dense bacterial communities living within them.\n</div>\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2003\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2003')\"\n      onkeypress=\"toggleGroup('group_2003')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2003</span>\n      <span class=\"bibbase_group_count\">\n        \n        (3)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"steube-meyer-schupp-proksch-drexler-differentialeffectsofstaurosporineanditsanaloguesonchemokinereleasebypromyelocyticleukemiacelllinenb4-2003\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S014521260300047X\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'steube-meyer-schupp-proksch-drexler-differentialeffectsofstaurosporineanditsanaloguesonchemokinereleasebypromyelocyticleukemiacelllinenb4-2003', 'https://linkinghub.elsevier.com/retrieve/pii/S014521260300047X', event);\">\n    Differential effects of staurosporine and its analogues on chemokine release by promyelocytic leukemia cell line NB-4.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Steube, K. G., Meyer, C., Schupp, P., Proksch, P.,  &amp; Drexler, H. G.\n</span>\n\n  \n\n</span>\n\n  <i>Leukemia Research</i>, 27(10): 957–963. October 2003.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S014521260300047X\"\n     onclick=\"log_download('steube-meyer-schupp-proksch-drexler-differentialeffectsofstaurosporineanditsanaloguesonchemokinereleasebypromyelocyticleukemiacelllinenb4-2003', 'https://linkinghub.elsevier.com/retrieve/pii/S014521260300047X', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Differential effects of staurosporine and its analogues on chemokine release by promyelocytic leukemia cell line NB-4 [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1016/S0145-2126(03)00047-X\"\n     onclick=\"log_download('steube-meyer-schupp-proksch-drexler-differentialeffectsofstaurosporineanditsanaloguesonchemokinereleasebypromyelocyticleukemiacelllinenb4-2003', 'http://doi.org/10.1016/S0145-2126(03)00047-X', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/steube-meyer-schupp-proksch-drexler-differentialeffectsofstaurosporineanditsanaloguesonchemokinereleasebypromyelocyticleukemiacelllinenb4-2003\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('steube-meyer-schupp-proksch-drexler-differentialeffectsofstaurosporineanditsanaloguesonchemokinereleasebypromyelocyticleukemiacelllinenb4-2003')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{steube_differential_2003,\n\ttitle = {Differential effects of staurosporine and its analogues on chemokine release by promyelocytic leukemia cell line {NB}-4},\n\tvolume = {27},\n\tissn = {01452126},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S014521260300047X},\n\tdoi = {10.1016/S0145-2126(03)00047-X},\n\tlanguage = {en},\n\tnumber = {10},\n\turldate = {2022-11-09},\n\tjournal = {Leukemia Research},\n\tauthor = {Steube, Klaus G. and Meyer, Corinna and Schupp, Peter and Proksch, Peter and Drexler, Hans G.},\n\tmonth = oct,\n\tyear = {2003},\n\tpages = {957--963},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"proksch-ebel-edrada-schupp-lin-sudarsono-wray-steube-detectionofpharmacologicallyactivenaturalproductsusingecologyselectedexamplesfromindopacificmarineinvertebratesandspongederivedfungi-2003\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.degruyter.com/document/doi/10.1351/pac200375020343/html\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'proksch-ebel-edrada-schupp-lin-sudarsono-wray-steube-detectionofpharmacologicallyactivenaturalproductsusingecologyselectedexamplesfromindopacificmarineinvertebratesandspongederivedfungi-2003', 'https://www.degruyter.com/document/doi/10.1351/pac200375020343/html', event);\">\n    Detection of pharmacologically active natural products using ecology. Selected examples from Indopacific marine invertebrates and sponge-derived fungi.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Proksch, P., Ebel, R., Edrada, R. A., Schupp, P., Lin, W. H., Sudarsono, Wray, V.,  &amp; Steube, K.\n</span>\n\n  \n\n</span>\n\n  <i>Pure and Applied Chemistry</i>, 75(2-3): 343–352. January 2003.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://www.degruyter.com/document/doi/10.1351/pac200375020343/html\"\n     onclick=\"log_download('proksch-ebel-edrada-schupp-lin-sudarsono-wray-steube-detectionofpharmacologicallyactivenaturalproductsusingecologyselectedexamplesfromindopacificmarineinvertebratesandspongederivedfungi-2003', 'https://www.degruyter.com/document/doi/10.1351/pac200375020343/html', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Detection of pharmacologically active natural products using ecology. Selected examples from Indopacific marine invertebrates and sponge-derived fungi [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1351/pac200375020343\"\n     onclick=\"log_download('proksch-ebel-edrada-schupp-lin-sudarsono-wray-steube-detectionofpharmacologicallyactivenaturalproductsusingecologyselectedexamplesfromindopacificmarineinvertebratesandspongederivedfungi-2003', 'http://doi.org/10.1351/pac200375020343', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/proksch-ebel-edrada-schupp-lin-sudarsono-wray-steube-detectionofpharmacologicallyactivenaturalproductsusingecologyselectedexamplesfromindopacificmarineinvertebratesandspongederivedfungi-2003\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n  &nbsp;\n  <a class=\"bibbase_abstract_link bibbase link\"\n     href=\"#\"\n     onclick=\"showAbstract(event); return false;\">\n    abstract <i class=\"fa fa-caret-down\"></i></a>\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('proksch-ebel-edrada-schupp-lin-sudarsono-wray-steube-detectionofpharmacologicallyactivenaturalproductsusingecologyselectedexamplesfromindopacificmarineinvertebratesandspongederivedfungi-2003')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{proksch_detection_2003,\n\ttitle = {Detection of pharmacologically active natural products using ecology. {Selected} examples from {Indopacific} marine invertebrates and sponge-derived fungi},\n\tvolume = {75},\n\tissn = {1365-3075, 0033-4545},\n\turl = {https://www.degruyter.com/document/doi/10.1351/pac200375020343/html},\n\tdoi = {10.1351/pac200375020343},\n\tabstract = {Abstract\n            This review article presents our group&#x27;s recent research findings with regard to bioactive natural products from marine sponges and tunicates, as well as from sponge derived fungi. The organisms discussed originate in the Indopacific region, which has an exceptionally rich marine biodiversity. Major topics that are covered in our review include the chemical ecology of sponges, focusing on defense against fishes, as well as the isolation and identification of new bioactive constituents from sponges and tunicates. Sponge derived fungi are introduced as an emerging source for new bioactive metabolites, reflecting the currently growing interest in natural products from marine microorganisms.},\n\tlanguage = {en},\n\tnumber = {2-3},\n\turldate = {2022-11-09},\n\tjournal = {Pure and Applied Chemistry},\n\tauthor = {Proksch, P. and Ebel, R. and Edrada, R. A. and Schupp, P. and Lin, W. H. and {Sudarsono} and Wray, V. and Steube, K.},\n\tmonth = jan,\n\tyear = {2003},\n\tpages = {343--352},\n}\n\n\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Abstract This review article presents our group's recent research findings with regard to bioactive natural products from marine sponges and tunicates, as well as from sponge derived fungi. The organisms discussed originate in the Indopacific region, which has an exceptionally rich marine biodiversity. Major topics that are covered in our review include the chemical ecology of sponges, focusing on defense against fishes, as well as the isolation and identification of new bioactive constituents from sponges and tunicates. Sponge derived fungi are introduced as an emerging source for new bioactive metabolites, reflecting the currently growing interest in natural products from marine microorganisms.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"schupp-poehner-edrada-ebel-berg-wray-proksch-eudistominswandxtwonewcarbolinesfromthemicronesiantunicateieudistomaisp-2003\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/np020315n\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'schupp-poehner-edrada-ebel-berg-wray-proksch-eudistominswandxtwonewcarbolinesfromthemicronesiantunicateieudistomaisp-2003', 'https://pubs.acs.org/doi/10.1021/np020315n', event);\">\n    Eudistomins W and X, Two New β-Carbolines from the Micronesian Tunicate <i>Eudistoma</i> sp.\n  </a>\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Schupp, P., Poehner, T., Edrada, R., Ebel, R., Berg, A., Wray, V.,  &amp; Proksch, P.\n</span>\n\n  \n\n</span>\n\n  <i>Journal of Natural Products</i>, 66(2): 272–275. February 2003.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n  <a href=\"https://pubs.acs.org/doi/10.1021/np020315n\"\n     onclick=\"log_download('schupp-poehner-edrada-ebel-berg-wray-proksch-eudistominswandxtwonewcarbolinesfromthemicronesiantunicateieudistomaisp-2003', 'https://pubs.acs.org/doi/10.1021/np020315n', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Eudistomins W and X, Two New β-Carbolines from the Micronesian Tunicate &lt;i&gt;Eudistoma&lt;/i&gt; sp. [link]\"\n       title=\"Paper\"\n\t     class=\"bibbase_icon\"\n         ><span class=\"bibbase_icon_text\">Paper</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"http://doi.org/10.1021/np020315n\"\n     onclick=\"log_download('schupp-poehner-edrada-ebel-berg-wray-proksch-eudistominswandxtwonewcarbolinesfromthemicronesiantunicateieudistomaisp-2003', 'http://doi.org/10.1021/np020315n', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/schupp-poehner-edrada-ebel-berg-wray-proksch-eudistominswandxtwonewcarbolinesfromthemicronesiantunicateieudistomaisp-2003\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('schupp-poehner-edrada-ebel-berg-wray-proksch-eudistominswandxtwonewcarbolinesfromthemicronesiantunicateieudistomaisp-2003')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{schupp_eudistomins_2003,\n\ttitle = {Eudistomins {W} and {X}, {Two} {New} β-{Carbolines} from the {Micronesian} {Tunicate} \\textit{{Eudistoma}} sp.},\n\tvolume = {66},\n\tissn = {0163-3864, 1520-6025},\n\turl = {https://pubs.acs.org/doi/10.1021/np020315n},\n\tdoi = {10.1021/np020315n},\n\tlanguage = {en},\n\tnumber = {2},\n\turldate = {2022-11-09},\n\tjournal = {Journal of Natural Products},\n\tauthor = {Schupp, Peter and Poehner, Timo and Edrada, RuAngelie and Ebel, Rainer and Berg, Albrecht and Wray, Victor and Proksch, Peter},\n\tmonth = feb,\n\tyear = {2003},\n\tpages = {272--275},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n  <div class=\"bibbase_group_whole\" id=\"group_2002\">\n    <div class=\"bibbase_group\"\n      onclick=\"toggleGroup('group_2002')\"\n      onkeypress=\"toggleGroup('group_2002')\"\n      tabindex=\"0\">\n      <i class=\"fa fa-angle-down bibbase_group_head_icon\"></i>&nbsp;\n      <span>2002</span>\n      <span class=\"bibbase_group_count\">\n        \n        (1)\n        \n      </span>\n    </div>\n    <div class=\"bibbase_group_body\">\n      \n  \n  <div class=\"bibbase_paper\" id=\"newman-schupp-anewspeciesofpseudocerotidflatwormplatyhelminthespolycladidafromtheindopacific-2002\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  A new species of pseudocerotid flatworm (Platyhelminthes, Polycladida) from the Indo-Pacific.\n  \n  \n  \n</span>\n\n  <span class=\"bibbase_paper_author\">\n  Newman, L. J,  &amp; Schupp, P.\n</span>\n\n  \n\n</span>\n\n  <i>Micronesica</i>, 34(2): 177–184.  2002.\n  <span class=\"note\"></span>\n\n<span class=\"bibbase_note\"></span>\n\n<br class=\"bibbase_paper_content\"/>\n\n<span class=\"bibbase_paper_content dontprint\">\n\n  \n\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/newman-schupp-anewspeciesofpseudocerotidflatwormplatyhelminthespolycladidafromtheindopacific-2002\"\n     class=\"bibbase bibbase_page link\">link</a>\n  &nbsp;\n  \n\n  <a href=\"#\"\n     onclick=\"showBib(event); return false;\"\n     class=\"bibbase bibtex link\">bibtex\n    <i class=\"fa fa-caret-down\"></i></a>\n\n  \n\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('newman-schupp-anewspeciesofpseudocerotidflatwormplatyhelminthespolycladidafromtheindopacific-2002')\" -->\n  <!--    title=\"Marking this paper as read adds it to your library on BibBase.\" -->\n  <!--    > -->\n  <!--   <i class=\"fa fa-check\"></i>&nbsp; -->\n  <!--   <span>mark as read</span> -->\n  <!-- </a> -->\n\n  &nbsp;\n  \n  \n\n</span>\n\n<div class=\"well well-small bibbase\" data-type=\"bibtex\"\n     style=\"display:none\">\n  <pre style=\"white-space: pre-wrap;\">@article{newman_new_2002,\n\ttitle = {A new species of pseudocerotid flatworm ({Platyhelminthes}, {Polycladida}) from the {Indo}-{Pacific}},\n\tvolume = {34},\n\tissn = {0026-279X},\n\tnumber = {2},\n\tjournal = {Micronesica},\n\tauthor = {Newman, LESLIE J and Schupp, Peter},\n\tyear = {2002},\n\tpages = {177--184},\n}\n\n\n\n</pre>\n</div>\n\n\n\n</div>\n\n\n\n\n\n    </div>\n  </div>\n\n\n\n\n  </div>\n\n\n  <!-- Modal -->\n\n  <!-- <iframe id=\"bibbase_network_frame\" -->\n  <!--         src=\"//bibbase.org/network/control\" -->\n  <!--         style=\"display: none;\"> -->\n  <!-- </iframe> -->\n\n</div>\n"}; document.write(bibbase_data.data);