Diversity and ecological footprint of Global Ocean RNA viruses. Dominguez-Huerta, G., Zayed, A. A., Wainaina, J. M., Guo, J., Tian, F., Pratama, A. A., Bolduc, B., Mohssen, M., Zablocki, O., Pelletier, E., Delage, E., Alberti, A., Aury, J. M., Carradec, Q., da Silva, C., Labadie, K., Poulain, J., Tara Oceans Coordinators section , s., Bowler, C., Eveillard, D., Guidi, L., Karsenti, E., Kuhn, J. H., Ogata, H., Wincker, P., Culley, A., Chaffron, S., & Sullivan, M. B. Science, 376(6598):1202-1208, 2022. Dominguez-Huerta, Guillermo Zayed, Ahmed A Wainaina, James M Guo, Jiarong Tian, Funing Pratama, Akbar Adjie Bolduc, Benjamin Mohssen, Mohamed Zablocki, Olivier Pelletier, Eric Delage, Erwan Alberti, Adriana Aury, Jean-Marc Carradec, Quentin da Silva, Corinne Labadie, Karine Poulain, Julie Bowler, Chris Eveillard, Damien Guidi, Lionel Karsenti, Eric Kuhn, Jens H Ogata, Hiroyuki Wincker, Patrick Culley, Alexander Chaffron, Samuel Sullivan, Matthew B eng Science. 2022 Jun 10;376(6598):1202-1208. doi: 10.1126/science.abn6358. Epub 2022 Jun 9.![Diversity and ecological footprint of Global Ocean RNA viruses [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex 4 downloads DNA viruses are increasingly recognized as influencing marine microbes and microbe-mediated biogeochemical cycling. However, little is known about global marine RNA virus diversity, ecology, and ecosystem roles. In this study, we uncover patterns and predictors of marine RNA virus community- and "species"-level diversity and contextualize their ecological impacts from pole to pole. Our analyses revealed four ecological zones, latitudinal and depth diversity patterns, and environmental correlates for RNA viruses. Our findings only partially parallel those of cosampled plankton and show unexpectedly high polar ecological interactions. The influence of RNA viruses on ecosystems appears to be large, as predicted hosts are ecologically important. Moreover, the occurrence of auxiliary metabolic genes indicates that RNA viruses cause reprogramming of diverse host metabolisms, including photosynthesis and carbon cycling, and that RNA virus abundances predict ocean carbon export.
@article{RN284,
author = {Dominguez-Huerta, G. and Zayed, A. A. and Wainaina, J. M. and Guo, J. and Tian, F. and Pratama, A. A. and Bolduc, B. and Mohssen, M. and Zablocki, O. and Pelletier, E. and Delage, E. and Alberti, A. and Aury, J. M. and Carradec, Q. and da Silva, C. and Labadie, K. and Poulain, J. and Tara Oceans Coordinators section, sign and Bowler, C. and Eveillard, D. and Guidi, L. and Karsenti, E. and Kuhn, J. H. and Ogata, H. and Wincker, P. and Culley, A. and Chaffron, S. and Sullivan, M. B.},
title = {Diversity and ecological footprint of Global Ocean RNA viruses},
journal = {Science},
volume = {376},
number = {6598},
pages = {1202-1208},
note = {Dominguez-Huerta, Guillermo
Zayed, Ahmed A
Wainaina, James M
Guo, Jiarong
Tian, Funing
Pratama, Akbar Adjie
Bolduc, Benjamin
Mohssen, Mohamed
Zablocki, Olivier
Pelletier, Eric
Delage, Erwan
Alberti, Adriana
Aury, Jean-Marc
Carradec, Quentin
da Silva, Corinne
Labadie, Karine
Poulain, Julie
Bowler, Chris
Eveillard, Damien
Guidi, Lionel
Karsenti, Eric
Kuhn, Jens H
Ogata, Hiroyuki
Wincker, Patrick
Culley, Alexander
Chaffron, Samuel
Sullivan, Matthew B
eng
Science. 2022 Jun 10;376(6598):1202-1208. doi: 10.1126/science.abn6358. Epub 2022 Jun 9.},
abstract = {DNA viruses are increasingly recognized as influencing marine microbes and microbe-mediated biogeochemical cycling. However, little is known about global marine RNA virus diversity, ecology, and ecosystem roles. In this study, we uncover patterns and predictors of marine RNA virus community- and "species"-level diversity and contextualize their ecological impacts from pole to pole. Our analyses revealed four ecological zones, latitudinal and depth diversity patterns, and environmental correlates for RNA viruses. Our findings only partially parallel those of cosampled plankton and show unexpectedly high polar ecological interactions. The influence of RNA viruses on ecosystems appears to be large, as predicted hosts are ecologically important. Moreover, the occurrence of auxiliary metabolic genes indicates that RNA viruses cause reprogramming of diverse host metabolisms, including photosynthesis and carbon cycling, and that RNA virus abundances predict ocean carbon export.},
keywords = {Carbon Cycle
Ecosystem
Oceans and Seas
*Plankton/classification/metabolism/virology
*RNA Viruses/classification/genetics/isolation & purification
*Seawater/virology
*Virome/genetics},
ISSN = {1095-9203 (Electronic)
0036-8075 (Linking)},
DOI = {10.1126/science.abn6358},
url = {https://www.ncbi.nlm.nih.gov/pubmed/35679415},
year = {2022},
type = {Journal Article}
}
Downloads: 4
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