Role of zooplankton dynamics for Southern Ocean phytoplankton biomass and global biogeochemical cycles

Global ocean biogeochemistry models currently employed in climate change projections use highly simplified representations of pelagic food webs. These food webs do not necessarily include critical pathways by which ecosystems interact with ocean biogeochemistry and climate. Here we present a global...

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Published in:Biogeosciences
Main Authors: Le Quéré, Corinne, Buitenhuis, Erik T., Moriarty, Róisín, Alvain, Séverine, Aumont, Olivier, Bopp, Laurent, Chollet, Sophie, Enright, Clare, Franklin, Daniel J., Geider, Richard J., Harrison, Sandy P., Hirst, Andrew G., Larsen, Stuart, Legendre, Louis, Platt, Trevor, Prentice, I. Colin, Rivkin, Richard B., Sailley, Sévrine, Sathyendranath, Shubha, Stephens, Nick, Vogt, Meike, Vallina, Sergio M.
Format: Article in Journal/Newspaper
Language:English
Published: 2016
Subjects:
Southern Ocean
Online Access:https://researchers.mq.edu.au/en/publications/aa5a2565-5745-44d1-84c8-62ad79b9fe85
https://doi.org/10.5194/bg-13-4111-2016
http://www.scopus.com/inward/record.url?scp=84978986520&partnerID=8YFLogxK
id ftmacquarieunicr:oai:https://researchers.mq.edu.au:publications/aa5a2565-5745-44d1-84c8-62ad79b9fe85
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spelling ftmacquarieunicr:oai:https://researchers.mq.edu.au:publications/aa5a2565-5745-44d1-84c8-62ad79b9fe85 2024-09-09T20:09:27+00:00 Role of zooplankton dynamics for Southern Ocean phytoplankton biomass and global biogeochemical cycles Le Quéré, Corinne Buitenhuis, Erik T. Moriarty, Róisín Alvain, Séverine Aumont, Olivier Bopp, Laurent Chollet, Sophie Enright, Clare Franklin, Daniel J. Geider, Richard J. Harrison, Sandy P. Hirst, Andrew G. Larsen, Stuart Legendre, Louis Platt, Trevor Prentice, I. Colin Rivkin, Richard B. Sailley, Sévrine Sathyendranath, Shubha Stephens, Nick Vogt, Meike Vallina, Sergio M. 2016-07-18 https://researchers.mq.edu.au/en/publications/aa5a2565-5745-44d1-84c8-62ad79b9fe85 https://doi.org/10.5194/bg-13-4111-2016 http://www.scopus.com/inward/record.url?scp=84978986520&partnerID=8YFLogxK eng eng info:eu-repo/semantics/closedAccess Le Quéré , C , Buitenhuis , E T , Moriarty , R , Alvain , S , Aumont , O , Bopp , L , Chollet , S , Enright , C , Franklin , D J , Geider , R J , Harrison , S P , Hirst , A G , Larsen , S , Legendre , L , Platt , T , Prentice , I C , Rivkin , R B , Sailley , S , Sathyendranath , S , Stephens , N , Vogt , M & Vallina , S M 2016 , ' Role of zooplankton dynamics for Southern Ocean phytoplankton biomass and global biogeochemical cycles ' , Biogeosciences , vol. 13 , no. 14 , pp. 4111-4133 . https://doi.org/10.5194/bg-13-4111-2016 article 2016 ftmacquarieunicr https://doi.org/10.5194/bg-13-4111-2016 2024-08-21T23:35:59Z Global ocean biogeochemistry models currently employed in climate change projections use highly simplified representations of pelagic food webs. These food webs do not necessarily include critical pathways by which ecosystems interact with ocean biogeochemistry and climate. Here we present a global biogeochemical model which incorporates ecosystem dynamics based on the representation of ten plankton functional types (PFTs): six types of phytoplankton, three types of zooplankton, and heterotrophic procaryotes. We improved the representation of zooplankton dynamics in our model through (a) the explicit inclusion of large, slow-growing macrozooplankton (e.g. krill), and (b) the introduction of trophic cascades among the three zooplankton types. We use the model to quantitatively assess the relative roles of iron vs. grazing in determining phytoplankton biomass in the Southern Ocean high-nutrient low-chlorophyll (HNLC) region during summer. When model simulations do not include macrozooplankton grazing explicitly, they systematically overestimate Southern Ocean chlorophyll biomass during the summer, even when there is no iron deposition from dust. When model simulations include a slow-growing macrozooplankton and trophic cascades among three zooplankton types, the high-chlorophyll summer bias in the Southern Ocean HNLC region largely disappears. Our model results suggest that the observed low phytoplankton biomass in the Southern Ocean during summer is primarily explained by the dynamics of the Southern Ocean zooplankton community, despite iron limitation of phytoplankton community growth rates. This result has implications for the representation of global biogeochemical cycles in models as zooplankton faecal pellets sink rapidly and partly control the carbon export to the intermediate and deep ocean. Article in Journal/Newspaper Southern Ocean Macquarie University Research Portal Southern Ocean Biogeosciences 13 14 4111 4133
institution Open Polar
collection Macquarie University Research Portal
op_collection_id ftmacquarieunicr
language English
description Global ocean biogeochemistry models currently employed in climate change projections use highly simplified representations of pelagic food webs. These food webs do not necessarily include critical pathways by which ecosystems interact with ocean biogeochemistry and climate. Here we present a global biogeochemical model which incorporates ecosystem dynamics based on the representation of ten plankton functional types (PFTs): six types of phytoplankton, three types of zooplankton, and heterotrophic procaryotes. We improved the representation of zooplankton dynamics in our model through (a) the explicit inclusion of large, slow-growing macrozooplankton (e.g. krill), and (b) the introduction of trophic cascades among the three zooplankton types. We use the model to quantitatively assess the relative roles of iron vs. grazing in determining phytoplankton biomass in the Southern Ocean high-nutrient low-chlorophyll (HNLC) region during summer. When model simulations do not include macrozooplankton grazing explicitly, they systematically overestimate Southern Ocean chlorophyll biomass during the summer, even when there is no iron deposition from dust. When model simulations include a slow-growing macrozooplankton and trophic cascades among three zooplankton types, the high-chlorophyll summer bias in the Southern Ocean HNLC region largely disappears. Our model results suggest that the observed low phytoplankton biomass in the Southern Ocean during summer is primarily explained by the dynamics of the Southern Ocean zooplankton community, despite iron limitation of phytoplankton community growth rates. This result has implications for the representation of global biogeochemical cycles in models as zooplankton faecal pellets sink rapidly and partly control the carbon export to the intermediate and deep ocean.
format Article in Journal/Newspaper
author Le Quéré, Corinne
Buitenhuis, Erik T.
Moriarty, Róisín
Alvain, Séverine
Aumont, Olivier
Bopp, Laurent
Chollet, Sophie
Enright, Clare
Franklin, Daniel J.
Geider, Richard J.
Harrison, Sandy P.
Hirst, Andrew G.
Larsen, Stuart
Legendre, Louis
Platt, Trevor
Prentice, I. Colin
Rivkin, Richard B.
Sailley, Sévrine
Sathyendranath, Shubha
Stephens, Nick
Vogt, Meike
Vallina, Sergio M.
spellingShingle Le Quéré, Corinne
Buitenhuis, Erik T.
Moriarty, Róisín
Alvain, Séverine
Aumont, Olivier
Bopp, Laurent
Chollet, Sophie
Enright, Clare
Franklin, Daniel J.
Geider, Richard J.
Harrison, Sandy P.
Hirst, Andrew G.
Larsen, Stuart
Legendre, Louis
Platt, Trevor
Prentice, I. Colin
Rivkin, Richard B.
Sailley, Sévrine
Sathyendranath, Shubha
Stephens, Nick
Vogt, Meike
Vallina, Sergio M.
Role of zooplankton dynamics for Southern Ocean phytoplankton biomass and global biogeochemical cycles
author_facet Le Quéré, Corinne
Buitenhuis, Erik T.
Moriarty, Róisín
Alvain, Séverine
Aumont, Olivier
Bopp, Laurent
Chollet, Sophie
Enright, Clare
Franklin, Daniel J.
Geider, Richard J.
Harrison, Sandy P.
Hirst, Andrew G.
Larsen, Stuart
Legendre, Louis
Platt, Trevor
Prentice, I. Colin
Rivkin, Richard B.
Sailley, Sévrine
Sathyendranath, Shubha
Stephens, Nick
Vogt, Meike
Vallina, Sergio M.
author_sort Le Quéré, Corinne
title Role of zooplankton dynamics for Southern Ocean phytoplankton biomass and global biogeochemical cycles
title_short Role of zooplankton dynamics for Southern Ocean phytoplankton biomass and global biogeochemical cycles
title_full Role of zooplankton dynamics for Southern Ocean phytoplankton biomass and global biogeochemical cycles
title_fullStr Role of zooplankton dynamics for Southern Ocean phytoplankton biomass and global biogeochemical cycles
title_full_unstemmed Role of zooplankton dynamics for Southern Ocean phytoplankton biomass and global biogeochemical cycles
title_sort role of zooplankton dynamics for southern ocean phytoplankton biomass and global biogeochemical cycles
publishDate 2016
url https://researchers.mq.edu.au/en/publications/aa5a2565-5745-44d1-84c8-62ad79b9fe85
https://doi.org/10.5194/bg-13-4111-2016
http://www.scopus.com/inward/record.url?scp=84978986520&partnerID=8YFLogxK
geographic Southern Ocean
geographic_facet Southern Ocean
genre Southern Ocean
genre_facet Southern Ocean
op_source Le Quéré , C , Buitenhuis , E T , Moriarty , R , Alvain , S , Aumont , O , Bopp , L , Chollet , S , Enright , C , Franklin , D J , Geider , R J , Harrison , S P , Hirst , A G , Larsen , S , Legendre , L , Platt , T , Prentice , I C , Rivkin , R B , Sailley , S , Sathyendranath , S , Stephens , N , Vogt , M & Vallina , S M 2016 , ' Role of zooplankton dynamics for Southern Ocean phytoplankton biomass and global biogeochemical cycles ' , Biogeosciences , vol. 13 , no. 14 , pp. 4111-4133 . https://doi.org/10.5194/bg-13-4111-2016
op_rights info:eu-repo/semantics/closedAccess
op_doi https://doi.org/10.5194/bg-13-4111-2016
container_title Biogeosciences
container_volume 13
container_issue 14
container_start_page 4111
op_container_end_page 4133
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