Plankton networks driving carbon export in the oligotrophic ocean

Tara Oceans Consortium Coordinators

doi:10.1038/nature16942

Plankton networks driving carbon export in the oligotrophic ocean

Tara Oceans Consortium Coordinators

Research output: Contribution to journal › Article › peer-review

567 Scopus citations

Abstract

The biological carbon pump is the process by which CO 2 is transformed to organic carbon via photosynthesis, exported through sinking particles, and finally sequestered in the deep ocean. While the intensity of the pump correlates with plankton community composition, the underlying ecosystem structure driving the process remains largely uncharacterized. Here we use environmental and metagenomic data gathered during the Tara Oceans expedition to improve our understanding of carbon export in the oligotrophic ocean. We show that specific plankton communities, from the surface and deep chlorophyll maximum, correlate with carbon export at 150 m and highlight unexpected taxa such as Radiolaria and alveolate parasites, as well as Synechococcus and their phages, as lineages most strongly associated with carbon export in the subtropical, nutrient-depleted, oligotrophic ocean. Additionally, we show that the relative abundance of a few bacterial and viral genes can predict a significant fraction of the variability in carbon export in these regions.

Original language	English (US)
Pages (from-to)	465-470
Number of pages	6
Journal	Nature
Volume	532
Issue number	7600
DOIs	https://doi.org/10.1038/nature16942
State	Published - Apr 28 2016
Externally published	Yes

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10.1038/nature16942

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@article{0fc75eaaa529489faf7aaf7c3709dc1f,

title = "Plankton networks driving carbon export in the oligotrophic ocean",

abstract = "The biological carbon pump is the process by which CO 2 is transformed to organic carbon via photosynthesis, exported through sinking particles, and finally sequestered in the deep ocean. While the intensity of the pump correlates with plankton community composition, the underlying ecosystem structure driving the process remains largely uncharacterized. Here we use environmental and metagenomic data gathered during the Tara Oceans expedition to improve our understanding of carbon export in the oligotrophic ocean. We show that specific plankton communities, from the surface and deep chlorophyll maximum, correlate with carbon export at 150 m and highlight unexpected taxa such as Radiolaria and alveolate parasites, as well as Synechococcus and their phages, as lineages most strongly associated with carbon export in the subtropical, nutrient-depleted, oligotrophic ocean. Additionally, we show that the relative abundance of a few bacterial and viral genes can predict a significant fraction of the variability in carbon export in these regions.",

author = "{Tara Oceans Consortium Coordinators} and Lionel Guidi and Samuel Chaffron and Lucie Bittner and Damien Eveillard and Abdelhalim Larhlimi and Simon Roux and Youssef Darzi and Stephane Audic and L{\'e}o Berline and Brum, {Jennifer R.} and Coelho, {Luis Pedro} and Espinoza, {Julio Cesar Ignacio} and Shruti Malviya and Shinichi Sunagawa and C{\'e}line Dimier and Stefanie Kandels-Lewis and Marc Picheral and Julie Poulain and Sarah Searson and Lars Stemmann and Fabrice Not and Pascal Hingamp and Sabrina Speich and Mick Follows and Lee Karp-Boss and Emmanuel Boss and Hiroyuki Ogata and Stephane Pesant and Jean Weissenbach and Patrick Wincker and Acinas, {Silvia G.} and Peer Bork and {De Vargas}, Colomban and Daniele Iudicone and Sullivan, {Matthew B.} and Jeroen Raes and Eric Karsenti and Chris Bowler and Gabriel Gorsky",

year = "2016",

month = apr,

day = "28",

doi = "10.1038/nature16942",

language = "English (US)",

volume = "532",

pages = "465--470",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

number = "7600",

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TY - JOUR

T1 - Plankton networks driving carbon export in the oligotrophic ocean

AU - Tara Oceans Consortium Coordinators

AU - Guidi, Lionel

AU - Chaffron, Samuel

AU - Bittner, Lucie

AU - Eveillard, Damien

AU - Larhlimi, Abdelhalim

AU - Roux, Simon

AU - Darzi, Youssef

AU - Audic, Stephane

AU - Berline, Léo

AU - Brum, Jennifer R.

AU - Coelho, Luis Pedro

AU - Espinoza, Julio Cesar Ignacio

AU - Malviya, Shruti

AU - Sunagawa, Shinichi

AU - Dimier, Céline

AU - Kandels-Lewis, Stefanie

AU - Picheral, Marc

AU - Poulain, Julie

AU - Searson, Sarah

AU - Stemmann, Lars

AU - Not, Fabrice

AU - Hingamp, Pascal

AU - Speich, Sabrina

AU - Follows, Mick

AU - Karp-Boss, Lee

AU - Boss, Emmanuel

AU - Ogata, Hiroyuki

AU - Pesant, Stephane

AU - Weissenbach, Jean

AU - Wincker, Patrick

AU - Acinas, Silvia G.

AU - Bork, Peer

AU - De Vargas, Colomban

AU - Iudicone, Daniele

AU - Sullivan, Matthew B.

AU - Raes, Jeroen

AU - Karsenti, Eric

AU - Bowler, Chris

AU - Gorsky, Gabriel

PY - 2016/4/28

Y1 - 2016/4/28

N2 - The biological carbon pump is the process by which CO 2 is transformed to organic carbon via photosynthesis, exported through sinking particles, and finally sequestered in the deep ocean. While the intensity of the pump correlates with plankton community composition, the underlying ecosystem structure driving the process remains largely uncharacterized. Here we use environmental and metagenomic data gathered during the Tara Oceans expedition to improve our understanding of carbon export in the oligotrophic ocean. We show that specific plankton communities, from the surface and deep chlorophyll maximum, correlate with carbon export at 150 m and highlight unexpected taxa such as Radiolaria and alveolate parasites, as well as Synechococcus and their phages, as lineages most strongly associated with carbon export in the subtropical, nutrient-depleted, oligotrophic ocean. Additionally, we show that the relative abundance of a few bacterial and viral genes can predict a significant fraction of the variability in carbon export in these regions.

AB - The biological carbon pump is the process by which CO 2 is transformed to organic carbon via photosynthesis, exported through sinking particles, and finally sequestered in the deep ocean. While the intensity of the pump correlates with plankton community composition, the underlying ecosystem structure driving the process remains largely uncharacterized. Here we use environmental and metagenomic data gathered during the Tara Oceans expedition to improve our understanding of carbon export in the oligotrophic ocean. We show that specific plankton communities, from the surface and deep chlorophyll maximum, correlate with carbon export at 150 m and highlight unexpected taxa such as Radiolaria and alveolate parasites, as well as Synechococcus and their phages, as lineages most strongly associated with carbon export in the subtropical, nutrient-depleted, oligotrophic ocean. Additionally, we show that the relative abundance of a few bacterial and viral genes can predict a significant fraction of the variability in carbon export in these regions.

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U2 - 10.1038/nature16942

DO - 10.1038/nature16942

M3 - Article

C2 - 26863193

AN - SCOPUS:84961057176

SN - 0028-0836

VL - 532

SP - 465

EP - 470

JO - Nature

JF - Nature

IS - 7600

ER -

Plankton networks driving carbon export in the oligotrophic ocean

Abstract

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