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://api.zotero.org/users/3476755/collections/MSX3XAXZ/items?key=qRbAXV8LpLmQTa9GAmUE20g6&format=bibtex&limit=100\",\"jsonp\":\"1\",\"authorFirst\":\"1\",\"hidemenu\":\"true\",\"commas\":\"true\",\"sort\":\"author_short\",\"groupby\":\"\",\"filter\":\"authors:(Wada|和田),keywords:^((?!wrongWada).)*$\",\"host\":\"bibbase.org\"},\n      data: [{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Cohesive bond strength of marine aggregates and its role in fragmentation\",\"volume\":\"10\",\"issn\":\"2296-7745\",\"url\":\"https://www.frontiersin.org/articles/10.3389/fmars.2023.1167169/full\",\"doi\":\"10.3389/fmars.2023.1167169\",\"abstract\":\"Marine aggregates are one of the main contributors to carbon sequestration in the deep sea through the gravitational settling of biogenic particles formed from the photosynthetic products of phytoplankton. The formation of large particles due to aggregation processes has been the focus of studies in the past, but recent findings on the spatio-temporal distribution of particles suggests that the fragmentation of aggregates plays an important role in aggregate dynamics. Here, we assessed the yield strength of aggregates derived from natural planktonic communities in order to analyze the cohesive bond strength and further understand fragmentation. The experimental approach was designed around the use of a Couette device, which produces a constant laminar shear flow of water. Aggregates were found to have a higher yield strength (~289 ± 64 nN) during phases of nutrient depletion than those of mineral particles such as montmorillonite. Based on an estimated cohesive bond strength of 96 nN a numerical model to predict the temporal variation of aggregate size was created. The output of this model indicates that cohesive bond strength is a major determinant of the size of aggregates in motion. Our findings suggest that the dynamics of marine aggregates are greatly influenced by cohesive bond strength and the role in fragmentation.\",\"urldate\":\"2024-05-01\",\"journal\":\"Frontiers in Marine Science\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Hayashi\"],\"firstnames\":[\"Yasuhito\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wada\"],\"firstnames\":[\"Shigeki\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Seto\"],\"firstnames\":[\"Mayumi\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Adachi\"],\"firstnames\":[\"Yasuhisa\"],\"suffixes\":[]}],\"month\":\"August\",\"year\":\"2023\",\"pages\":\"1167169\",\"bibtex\":\"@article{hayashi_cohesive_2023,\\n\\ttitle = {Cohesive bond strength of marine aggregates and its role in fragmentation},\\n\\tvolume = {10},\\n\\tissn = {2296-7745},\\n\\turl = {https://www.frontiersin.org/articles/10.3389/fmars.2023.1167169/full},\\n\\tdoi = {10.3389/fmars.2023.1167169},\\n\\tabstract = {Marine aggregates are one of the main contributors to carbon sequestration in the deep sea through the gravitational settling of biogenic particles formed from the photosynthetic products of phytoplankton. The formation of large particles due to aggregation processes has been the focus of studies in the past, but recent findings on the spatio-temporal distribution of particles suggests that the fragmentation of aggregates plays an important role in aggregate dynamics. Here, we assessed the yield strength of aggregates derived from natural planktonic communities in order to analyze the cohesive bond strength and further understand fragmentation. The experimental approach was designed around the use of a Couette device, which produces a constant laminar shear flow of water. Aggregates were found to have a higher yield strength ({\\\\textasciitilde}289 ± 64 nN) during phases of nutrient depletion than those of mineral particles such as montmorillonite. Based on an estimated cohesive bond strength of 96 nN a numerical model to predict the temporal variation of aggregate size was created. The output of this model indicates that cohesive bond strength is a major determinant of the size of aggregates in motion. Our findings suggest that the dynamics of marine aggregates are greatly influenced by cohesive bond strength and the role in fragmentation.},\\n\\turldate = {2024-05-01},\\n\\tjournal = {Frontiers in Marine Science},\\n\\tauthor = {Hayashi, Yasuhito and Wada, Shigeki and Seto, Mayumi and Adachi, Yasuhisa},\\n\\tmonth = aug,\\n\\tyear = {2023},\\n\\tpages = {1167169},\\n}\\n\\n\",\"author_short\":[\"Hayashi, Y.\",\"Wada, S.\",\"Seto, M.\",\"Adachi, Y.\"],\"key\":\"hayashi_cohesive_2023\",\"id\":\"hayashi_cohesive_2023\",\"bibbaseid\":\"hayashi-wada-seto-adachi-cohesivebondstrengthofmarineaggregatesanditsroleinfragmentation-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://www.frontiersin.org/articles/10.3389/fmars.2023.1167169/full\"},\"metadata\":{\"authorlinks\":{\"wada, s\":\"https://www.shimoda.tsukuba.ac.jp/staff_wada.html\"}},\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Ocean acidification increases the impact of typhoons on algal communities\",\"issn\":\"00489697\",\"url\":\"https://linkinghub.elsevier.com/retrieve/pii/S0048969722083735\",\"doi\":\"10.1016/j.scitotenv.2022.161269\",\"language\":\"en\",\"urldate\":\"2023-01-04\",\"journal\":\"Science of The Total Environment\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Hudson\"],\"firstnames\":[\"Callum\",\"J.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Agostini\"],\"firstnames\":[\"Sylvain\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wada\"],\"firstnames\":[\"Shigeki\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Hall-Spencer\"],\"firstnames\":[\"Jason\",\"M.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Connell\"],\"firstnames\":[\"Sean\",\"D.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Harvey\"],\"firstnames\":[\"Ben\",\"P.\"],\"suffixes\":[]}],\"month\":\"December\",\"year\":\"2022\",\"pages\":\"161269\",\"bibtex\":\"@article{hudson_ocean_2022,\\n\\ttitle = {Ocean acidification increases the impact of typhoons on algal communities},\\n\\tissn = {00489697},\\n\\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0048969722083735},\\n\\tdoi = {10.1016/j.scitotenv.2022.161269},\\n\\tlanguage = {en},\\n\\turldate = {2023-01-04},\\n\\tjournal = {Science of The Total Environment},\\n\\tauthor = {Hudson, Callum J. and Agostini, Sylvain and Wada, Shigeki and Hall-Spencer, Jason M. and Connell, Sean D. and Harvey, Ben P.},\\n\\tmonth = dec,\\n\\tyear = {2022},\\n\\tpages = {161269},\\n}\\n\",\"author_short\":[\"Hudson, C. J.\",\"Agostini, S.\",\"Wada, S.\",\"Hall-Spencer, J. M.\",\"Connell, S. D.\",\"Harvey, B. P.\"],\"key\":\"hudson_ocean_2022\",\"id\":\"hudson_ocean_2022\",\"bibbaseid\":\"hudson-agostini-wada-hallspencer-connell-harvey-oceanacidificationincreasestheimpactoftyphoonsonalgalcommunities-2022\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://linkinghub.elsevier.com/retrieve/pii/S0048969722083735\"},\"metadata\":{\"authorlinks\":{\"wada, s\":\"https://www.shimoda.tsukuba.ac.jp/staff_wada.html\"}},\"downloads\":3,\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"High abundances of zooxanthellate zoantharians (Palythoa and Zoanthus) at multiple natural analogues: potential model anthozoans?\",\"issn\":\"1432-0975\",\"url\":\"https://doi.org/10.1007/s00338-023-02381-9\",\"doi\":\"10.1007/s00338-023-02381-9\",\"abstract\":\"Whilst natural analogues for future ocean conditions such as CO2 seeps and enclosed lagoons in coral reef regions have received much recent research attention, most efforts in such locations have focused on the effects of prolonged high CO2 levels on scleractinian corals and fishes. Here, we demonstrate that the three species of zooxanthellate zoantharians, hexacorallian non-calcifying “cousins” of scleractinians, are common across five coral reef natural analogue sites with high CO2 levels in the western Pacific Ocean, in Japan (n = 2), Palau, Papua New Guinea, and New Caledonia (n = 1 each). These current observations support previously reported cases of high Palythoa and Zoanthus abundance and dominance on various impacted coral reefs worldwide. The results demonstrate the need for more research on the ecological roles of zooxanthellate zoantharians in coral reef systems, as well as examining other “understudied” taxa that may become increasingly important in the near future under climate change scenarios. Given their abundance in these sites combined with ease in sampling and non-CITES status, some zoantharian species should make excellent hexacoral models for examining potential resilience or resistance mechanisms of anthozoans to future high pCO2 conditions.\",\"journal\":\"Coral Reefs\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Reimer\"],\"firstnames\":[\"James\",\"Davis\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Agostini\"],\"firstnames\":[\"Sylvain\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Golbuu\"],\"firstnames\":[\"Yimnang\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Harvey\"],\"firstnames\":[\"Ben\",\"P.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Izumiyama\"],\"firstnames\":[\"Michael\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Jamodiong\"],\"firstnames\":[\"Emmeline\",\"A.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kawai\"],\"firstnames\":[\"Erina\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kayanne\"],\"firstnames\":[\"Hajime\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Kurihara\"],\"firstnames\":[\"Haruko\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Ravasi\"],\"firstnames\":[\"Timothy\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wada\"],\"firstnames\":[\"Shigeki\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Rodolfo-Metalpa\"],\"firstnames\":[\"Riccardo\"],\"suffixes\":[]}],\"month\":\"April\",\"year\":\"2023\",\"bibtex\":\"@article{reimer_high_2023,\\n\\ttitle = {High abundances of zooxanthellate zoantharians ({Palythoa} and {Zoanthus}) at multiple natural analogues: potential model anthozoans?},\\n\\tissn = {1432-0975},\\n\\turl = {https://doi.org/10.1007/s00338-023-02381-9},\\n\\tdoi = {10.1007/s00338-023-02381-9},\\n\\tabstract = {Whilst natural analogues for future ocean conditions such as CO2 seeps and enclosed lagoons in coral reef regions have received much recent research attention, most efforts in such locations have focused on the effects of prolonged high CO2 levels on scleractinian corals and fishes. Here, we demonstrate that the three species of zooxanthellate zoantharians, hexacorallian non-calcifying “cousins” of scleractinians, are common across five coral reef natural analogue sites with high CO2 levels in the western Pacific Ocean, in Japan (n = 2), Palau, Papua New Guinea, and New Caledonia (n = 1 each). These current observations support previously reported cases of high Palythoa and Zoanthus abundance and dominance on various impacted coral reefs worldwide. The results demonstrate the need for more research on the ecological roles of zooxanthellate zoantharians in coral reef systems, as well as examining other “understudied” taxa that may become increasingly important in the near future under climate change scenarios. Given their abundance in these sites combined with ease in sampling and non-CITES status, some zoantharian species should make excellent hexacoral models for examining potential resilience or resistance mechanisms of anthozoans to future high pCO2 conditions.},\\n\\tjournal = {Coral Reefs},\\n\\tauthor = {Reimer, James Davis and Agostini, Sylvain and Golbuu, Yimnang and Harvey, Ben P. and Izumiyama, Michael and Jamodiong, Emmeline A. and Kawai, Erina and Kayanne, Hajime and Kurihara, Haruko and Ravasi, Timothy and Wada, Shigeki and Rodolfo-Metalpa, Riccardo},\\n\\tmonth = apr,\\n\\tyear = {2023},\\n}\\n\\n\",\"author_short\":[\"Reimer, J. D.\",\"Agostini, S.\",\"Golbuu, Y.\",\"Harvey, B. P.\",\"Izumiyama, M.\",\"Jamodiong, E. A.\",\"Kawai, E.\",\"Kayanne, H.\",\"Kurihara, H.\",\"Ravasi, T.\",\"Wada, S.\",\"Rodolfo-Metalpa, R.\"],\"key\":\"reimer_high_2023\",\"id\":\"reimer_high_2023\",\"bibbaseid\":\"reimer-agostini-golbuu-harvey-izumiyama-jamodiong-kawai-kayanne-etal-highabundancesofzooxanthellatezoantharianspalythoaandzoanthusatmultiplenaturalanaloguespotentialmodelanthozoans-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://doi.org/10.1007/s00338-023-02381-9\"},\"metadata\":{\"authorlinks\":{\"wada, s\":\"https://www.shimoda.tsukuba.ac.jp/staff_wada.html\"}},\"downloads\":1,\"html\":\"\"},{\"bibtype\":\"article\",\"type\":\"article\",\"title\":\"Potential ecosystem regime shift resulting from elevated CO$_{\\\\textrm{2}}$ and inhibition of macroalgal recruitment by turf algae\",\"volume\":\"16\",\"issn\":\"1874-1738, 1874-1746\",\"url\":\"https://link.springer.com/10.1007/s12080-022-00550-0\",\"doi\":\"10.1007/s12080-022-00550-0\",\"language\":\"en\",\"urldate\":\"2023-01-04\",\"journal\":\"Theoretical Ecology\",\"author\":[{\"propositions\":[],\"lastnames\":[\"Seto\"],\"firstnames\":[\"Mayumi\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Harvey\"],\"firstnames\":[\"Ben\",\"P.\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Wada\"],\"firstnames\":[\"Shigeki\"],\"suffixes\":[]},{\"propositions\":[],\"lastnames\":[\"Agostini\"],\"firstnames\":[\"Sylvain\"],\"suffixes\":[]}],\"month\":\"January\",\"year\":\"2023\",\"pages\":\"1–12\",\"bibtex\":\"@article{seto_potential_2023,\\n\\ttitle = {Potential ecosystem regime shift resulting from elevated {CO}$_{\\\\textrm{2}}$ and inhibition of macroalgal recruitment by turf algae},\\n\\tvolume = {16},\\n\\tissn = {1874-1738, 1874-1746},\\n\\turl = {https://link.springer.com/10.1007/s12080-022-00550-0},\\n\\tdoi = {10.1007/s12080-022-00550-0},\\n\\tlanguage = {en},\\n\\turldate = {2023-01-04},\\n\\tjournal = {Theoretical Ecology},\\n\\tauthor = {Seto, Mayumi and Harvey, Ben P. and Wada, Shigeki and Agostini, Sylvain},\\n\\tmonth = jan,\\n\\tyear = {2023},\\n\\tpages = {1--12},\\n}\\n\\n\",\"author_short\":[\"Seto, M.\",\"Harvey, B. P.\",\"Wada, S.\",\"Agostini, S.\"],\"key\":\"seto_potential_2023\",\"id\":\"seto_potential_2023\",\"bibbaseid\":\"seto-harvey-wada-agostini-potentialecosystemregimeshiftresultingfromelevatedcotextrm2andinhibitionofmacroalgalrecruitmentbyturfalgae-2023\",\"role\":\"author\",\"urls\":{\"Paper\":\"https://link.springer.com/10.1007/s12080-022-00550-0\"},\"metadata\":{\"authorlinks\":{\"wada, s\":\"https://www.shimoda.tsukuba.ac.jp/staff_wada.html\"}},\"downloads\":3,\"html\":\"\"}],\n      metadata: {\"owner\":\"wada, s\",\"authorlinks\":{\"wada, s\":\"https://www.shimoda.tsukuba.ac.jp/staff_wada.html\"}},\n      ownerID: \"9HratjC4x8KQfkc2D\"\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 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\">\n 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In order to keep using Mendeley with BibBase past April\n        14th, you need to:\n        <ol>\n          <li>renew the authorization for BibBase on Mendeley, and</li>\n          <li>update the BibBase URL\n            in your page the same way you did when you initially set up\n            this page.\n          </li>\n        </ol>\n      </p>\n\n      <p>\n        <a href=\"http://bibbase.org/cgi-bin/mendeley2/get.py\">\n          <i class=\"fa fa-angle-double-right\"></i>\n          Fix it now</a>\n      </p>\n    </div>\n\n  </div>\n\n\n  <div id=\"bibbase_body\">\n    \n  \n  <div class=\"bibbase_paper\" id=\"hayashi-wada-seto-adachi-cohesivebondstrengthofmarineaggregatesanditsroleinfragmentation-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_author\">\n  Hayashi, Y., <a class=\"bibbase author link\" href=\"https://www.shimoda.tsukuba.ac.jp/staff_wada.html\">Wada, S.</a>, Seto, M.,  &amp; Adachi, Y.\n</span>\n\n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://www.frontiersin.org/articles/10.3389/fmars.2023.1167169/full\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'hayashi-wada-seto-adachi-cohesivebondstrengthofmarineaggregatesanditsroleinfragmentation-2023', 'https://www.frontiersin.org/articles/10.3389/fmars.2023.1167169/full', event);\">\n    Cohesive bond strength of marine aggregates and its role in fragmentation.\n  </a>\n  \n  \n  \n</span>\n\n  \n\n</span>\n\n  <i>Frontiers in Marine Science</i>, 10: 1167169. August 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.2023.1167169/full\"\n     onclick=\"log_download('hayashi-wada-seto-adachi-cohesivebondstrengthofmarineaggregatesanditsroleinfragmentation-2023', 'https://www.frontiersin.org/articles/10.3389/fmars.2023.1167169/full', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Cohesive bond strength of marine aggregates and its role in fragmentation [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.2023.1167169\"\n     onclick=\"log_download('hayashi-wada-seto-adachi-cohesivebondstrengthofmarineaggregatesanditsroleinfragmentation-2023', 'http://doi.org/10.3389/fmars.2023.1167169', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/hayashi-wada-seto-adachi-cohesivebondstrengthofmarineaggregatesanditsroleinfragmentation-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('hayashi-wada-seto-adachi-cohesivebondstrengthofmarineaggregatesanditsroleinfragmentation-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{hayashi_cohesive_2023,\n\ttitle = {Cohesive bond strength of marine aggregates and its role in fragmentation},\n\tvolume = {10},\n\tissn = {2296-7745},\n\turl = {https://www.frontiersin.org/articles/10.3389/fmars.2023.1167169/full},\n\tdoi = {10.3389/fmars.2023.1167169},\n\tabstract = {Marine aggregates are one of the main contributors to carbon sequestration in the deep sea through the gravitational settling of biogenic particles formed from the photosynthetic products of phytoplankton. The formation of large particles due to aggregation processes has been the focus of studies in the past, but recent findings on the spatio-temporal distribution of particles suggests that the fragmentation of aggregates plays an important role in aggregate dynamics. Here, we assessed the yield strength of aggregates derived from natural planktonic communities in order to analyze the cohesive bond strength and further understand fragmentation. The experimental approach was designed around the use of a Couette device, which produces a constant laminar shear flow of water. Aggregates were found to have a higher yield strength ({\\textasciitilde}289 ± 64 nN) during phases of nutrient depletion than those of mineral particles such as montmorillonite. Based on an estimated cohesive bond strength of 96 nN a numerical model to predict the temporal variation of aggregate size was created. The output of this model indicates that cohesive bond strength is a major determinant of the size of aggregates in motion. Our findings suggest that the dynamics of marine aggregates are greatly influenced by cohesive bond strength and the role in fragmentation.},\n\turldate = {2024-05-01},\n\tjournal = {Frontiers in Marine Science},\n\tauthor = {Hayashi, Yasuhito and Wada, Shigeki and Seto, Mayumi and Adachi, Yasuhisa},\n\tmonth = aug,\n\tyear = {2023},\n\tpages = {1167169},\n}\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Marine aggregates are one of the main contributors to carbon sequestration in the deep sea through the gravitational settling of biogenic particles formed from the photosynthetic products of phytoplankton. The formation of large particles due to aggregation processes has been the focus of studies in the past, but recent findings on the spatio-temporal distribution of particles suggests that the fragmentation of aggregates plays an important role in aggregate dynamics. Here, we assessed the yield strength of aggregates derived from natural planktonic communities in order to analyze the cohesive bond strength and further understand fragmentation. The experimental approach was designed around the use of a Couette device, which produces a constant laminar shear flow of water. Aggregates were found to have a higher yield strength (~289 ± 64 nN) during phases of nutrient depletion than those of mineral particles such as montmorillonite. Based on an estimated cohesive bond strength of 96 nN a numerical model to predict the temporal variation of aggregate size was created. The output of this model indicates that cohesive bond strength is a major determinant of the size of aggregates in motion. Our findings suggest that the dynamics of marine aggregates are greatly influenced by cohesive bond strength and the role in fragmentation.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"hudson-agostini-wada-hallspencer-connell-harvey-oceanacidificationincreasestheimpactoftyphoonsonalgalcommunities-2022\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_author\">\n  Hudson, C. J., Agostini, S., <a class=\"bibbase author link\" href=\"https://www.shimoda.tsukuba.ac.jp/staff_wada.html\">Wada, S.</a>, Hall-Spencer, J. M., Connell, S. D.,  &amp; Harvey, B. P.\n</span>\n\n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://linkinghub.elsevier.com/retrieve/pii/S0048969722083735\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'hudson-agostini-wada-hallspencer-connell-harvey-oceanacidificationincreasestheimpactoftyphoonsonalgalcommunities-2022', 'https://linkinghub.elsevier.com/retrieve/pii/S0048969722083735', event);\">\n    Ocean acidification increases the impact of typhoons on algal communities.\n  </a>\n  \n  \n  \n</span>\n\n  \n\n</span>\n\n  <i>Science of The Total Environment</i>,161269. December 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/S0048969722083735\"\n     onclick=\"log_download('hudson-agostini-wada-hallspencer-connell-harvey-oceanacidificationincreasestheimpactoftyphoonsonalgalcommunities-2022', 'https://linkinghub.elsevier.com/retrieve/pii/S0048969722083735', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Ocean acidification increases the impact of typhoons on algal communities [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.2022.161269\"\n     onclick=\"log_download('hudson-agostini-wada-hallspencer-connell-harvey-oceanacidificationincreasestheimpactoftyphoonsonalgalcommunities-2022', 'http://doi.org/10.1016/j.scitotenv.2022.161269', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/hudson-agostini-wada-hallspencer-connell-harvey-oceanacidificationincreasestheimpactoftyphoonsonalgalcommunities-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('hudson-agostini-wada-hallspencer-connell-harvey-oceanacidificationincreasestheimpactoftyphoonsonalgalcommunities-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{hudson_ocean_2022,\n\ttitle = {Ocean acidification increases the impact of typhoons on algal communities},\n\tissn = {00489697},\n\turl = {https://linkinghub.elsevier.com/retrieve/pii/S0048969722083735},\n\tdoi = {10.1016/j.scitotenv.2022.161269},\n\tlanguage = {en},\n\turldate = {2023-01-04},\n\tjournal = {Science of The Total Environment},\n\tauthor = {Hudson, Callum J. and Agostini, Sylvain and Wada, Shigeki and Hall-Spencer, Jason M. and Connell, Sean D. and Harvey, Ben P.},\n\tmonth = dec,\n\tyear = {2022},\n\tpages = {161269},\n}\n</pre>\n</div>\n\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"reimer-agostini-golbuu-harvey-izumiyama-jamodiong-kawai-kayanne-etal-highabundancesofzooxanthellatezoantharianspalythoaandzoanthusatmultiplenaturalanaloguespotentialmodelanthozoans-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_author\">\n  Reimer, J. D., Agostini, S., Golbuu, Y., Harvey, B. P., Izumiyama, M., Jamodiong, E. A., Kawai, E., Kayanne, H., Kurihara, H., Ravasi, T., <a class=\"bibbase author link\" href=\"https://www.shimoda.tsukuba.ac.jp/staff_wada.html\">Wada, S.</a>,  &amp; Rodolfo-Metalpa, R.\n</span>\n\n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://doi.org/10.1007/s00338-023-02381-9\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'reimer-agostini-golbuu-harvey-izumiyama-jamodiong-kawai-kayanne-etal-highabundancesofzooxanthellatezoantharianspalythoaandzoanthusatmultiplenaturalanaloguespotentialmodelanthozoans-2023', 'https://doi.org/10.1007/s00338-023-02381-9', event);\">\n    High abundances of zooxanthellate zoantharians (Palythoa and Zoanthus) at multiple natural analogues: potential model anthozoans?.\n  </a>\n  \n  \n  \n</span>\n\n  \n\n</span>\n\n  <i>Coral Reefs</i>. 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://doi.org/10.1007/s00338-023-02381-9\"\n     onclick=\"log_download('reimer-agostini-golbuu-harvey-izumiyama-jamodiong-kawai-kayanne-etal-highabundancesofzooxanthellatezoantharianspalythoaandzoanthusatmultiplenaturalanaloguespotentialmodelanthozoans-2023', 'https://doi.org/10.1007/s00338-023-02381-9', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"High abundances of zooxanthellate zoantharians (Palythoa and Zoanthus) at multiple natural analogues: potential model anthozoans? [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/s00338-023-02381-9\"\n     onclick=\"log_download('reimer-agostini-golbuu-harvey-izumiyama-jamodiong-kawai-kayanne-etal-highabundancesofzooxanthellatezoantharianspalythoaandzoanthusatmultiplenaturalanaloguespotentialmodelanthozoans-2023', 'http://doi.org/10.1007/s00338-023-02381-9', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/reimer-agostini-golbuu-harvey-izumiyama-jamodiong-kawai-kayanne-etal-highabundancesofzooxanthellatezoantharianspalythoaandzoanthusatmultiplenaturalanaloguespotentialmodelanthozoans-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  &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('reimer-agostini-golbuu-harvey-izumiyama-jamodiong-kawai-kayanne-etal-highabundancesofzooxanthellatezoantharianspalythoaandzoanthusatmultiplenaturalanaloguespotentialmodelanthozoans-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{reimer_high_2023,\n\ttitle = {High abundances of zooxanthellate zoantharians ({Palythoa} and {Zoanthus}) at multiple natural analogues: potential model anthozoans?},\n\tissn = {1432-0975},\n\turl = {https://doi.org/10.1007/s00338-023-02381-9},\n\tdoi = {10.1007/s00338-023-02381-9},\n\tabstract = {Whilst natural analogues for future ocean conditions such as CO2 seeps and enclosed lagoons in coral reef regions have received much recent research attention, most efforts in such locations have focused on the effects of prolonged high CO2 levels on scleractinian corals and fishes. Here, we demonstrate that the three species of zooxanthellate zoantharians, hexacorallian non-calcifying “cousins” of scleractinians, are common across five coral reef natural analogue sites with high CO2 levels in the western Pacific Ocean, in Japan (n = 2), Palau, Papua New Guinea, and New Caledonia (n = 1 each). These current observations support previously reported cases of high Palythoa and Zoanthus abundance and dominance on various impacted coral reefs worldwide. The results demonstrate the need for more research on the ecological roles of zooxanthellate zoantharians in coral reef systems, as well as examining other “understudied” taxa that may become increasingly important in the near future under climate change scenarios. Given their abundance in these sites combined with ease in sampling and non-CITES status, some zoantharian species should make excellent hexacoral models for examining potential resilience or resistance mechanisms of anthozoans to future high pCO2 conditions.},\n\tjournal = {Coral Reefs},\n\tauthor = {Reimer, James Davis and Agostini, Sylvain and Golbuu, Yimnang and Harvey, Ben P. and Izumiyama, Michael and Jamodiong, Emmeline A. and Kawai, Erina and Kayanne, Hajime and Kurihara, Haruko and Ravasi, Timothy and Wada, Shigeki and Rodolfo-Metalpa, Riccardo},\n\tmonth = apr,\n\tyear = {2023},\n}\n\n</pre>\n</div>\n\n\n<div class=\"well well-small bibbase\" data-type=\"abstract\"\n     style=\"display:none\">\n  Whilst natural analogues for future ocean conditions such as CO2 seeps and enclosed lagoons in coral reef regions have received much recent research attention, most efforts in such locations have focused on the effects of prolonged high CO2 levels on scleractinian corals and fishes. Here, we demonstrate that the three species of zooxanthellate zoantharians, hexacorallian non-calcifying “cousins” of scleractinians, are common across five coral reef natural analogue sites with high CO2 levels in the western Pacific Ocean, in Japan (n = 2), Palau, Papua New Guinea, and New Caledonia (n = 1 each). These current observations support previously reported cases of high Palythoa and Zoanthus abundance and dominance on various impacted coral reefs worldwide. The results demonstrate the need for more research on the ecological roles of zooxanthellate zoantharians in coral reef systems, as well as examining other “understudied” taxa that may become increasingly important in the near future under climate change scenarios. Given their abundance in these sites combined with ease in sampling and non-CITES status, some zoantharian species should make excellent hexacoral models for examining potential resilience or resistance mechanisms of anthozoans to future high pCO2 conditions.\n</div>\n\n\n</div>\n\n\n  <div class=\"bibbase_paper\" id=\"seto-harvey-wada-agostini-potentialecosystemregimeshiftresultingfromelevatedcotextrm2andinhibitionofmacroalgalrecruitmentbyturfalgae-2023\">\n  <span class=\"bibbase_paper_titleauthoryear\">\n\n  \n  <span class=\"bibbase_paper_author\">\n  Seto, M., Harvey, B. P., <a class=\"bibbase author link\" href=\"https://www.shimoda.tsukuba.ac.jp/staff_wada.html\">Wada, S.</a>,  &amp; Agostini, S.\n</span>\n\n  <span class=\"bibbase_paper_title\">\n  \n  \n  \n  <a href=\"https://link.springer.com/10.1007/s12080-022-00550-0\"\n     onclick=\"return trackOutboundLink('publications', 'click', 'seto-harvey-wada-agostini-potentialecosystemregimeshiftresultingfromelevatedcotextrm2andinhibitionofmacroalgalrecruitmentbyturfalgae-2023', 'https://link.springer.com/10.1007/s12080-022-00550-0', event);\">\n    Potential ecosystem regime shift resulting from elevated CO$_{\\textrm{2}}$ and inhibition of macroalgal recruitment by turf algae.\n  </a>\n  \n  \n  \n</span>\n\n  \n\n</span>\n\n  <i>Theoretical Ecology</i>, 16: 1–12. 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://link.springer.com/10.1007/s12080-022-00550-0\"\n     onclick=\"log_download('seto-harvey-wada-agostini-potentialecosystemregimeshiftresultingfromelevatedcotextrm2andinhibitionofmacroalgalrecruitmentbyturfalgae-2023', 'https://link.springer.com/10.1007/s12080-022-00550-0', event.ctrlKey, event)\">\n    <img src=\"//bibbase.org/img/filetypes/link.svg\"\n\t     alt=\"Potential ecosystem regime shift resulting from elevated CO$_{\\textrm{2}}$ and inhibition of macroalgal recruitment by turf 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/10.1007/s12080-022-00550-0\"\n     onclick=\"log_download('seto-harvey-wada-agostini-potentialecosystemregimeshiftresultingfromelevatedcotextrm2andinhibitionofmacroalgalrecruitmentbyturfalgae-2023', 'http://doi.org/10.1007/s12080-022-00550-0', event.ctrlKey)\"\n     class=\"bibbase doi link\">\n    <span>doi</span></a>\n  &nbsp;\n  \n\n  \n  <a href=\"//bibbase.org/network/publication/seto-harvey-wada-agostini-potentialecosystemregimeshiftresultingfromelevatedcotextrm2andinhibitionofmacroalgalrecruitmentbyturfalgae-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>3 downloads</span>\n  </span>\n  \n\n  <!-- <a class=\"bibbase read link hidden\" -->\n  <!--    href=\"javascript:toggleRead('seto-harvey-wada-agostini-potentialecosystemregimeshiftresultingfromelevatedcotextrm2andinhibitionofmacroalgalrecruitmentbyturfalgae-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{seto_potential_2023,\n\ttitle = {Potential ecosystem regime shift resulting from elevated {CO}$_{\\textrm{2}}$ and inhibition of macroalgal recruitment by turf algae},\n\tvolume = {16},\n\tissn = {1874-1738, 1874-1746},\n\turl = {https://link.springer.com/10.1007/s12080-022-00550-0},\n\tdoi = {10.1007/s12080-022-00550-0},\n\tlanguage = {en},\n\turldate = {2023-01-04},\n\tjournal = {Theoretical Ecology},\n\tauthor = {Seto, Mayumi and Harvey, Ben P. and Wada, Shigeki and Agostini, Sylvain},\n\tmonth = jan,\n\tyear = {2023},\n\tpages = {1--12},\n}\n\n</pre>\n</div>\n\n\n\n</div>\n\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);