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Linking plankton size spectra and community composition to carbon export and its efficiency

Linking plankton size spectra and community composition to carbon export and its efficiency
Linking plankton size spectra and community composition to carbon export and its efficiency
The magnitude and efficiency of particulate carbon export from the ocean surface depends not only on net primary production (NPP) but also on how carbon is consumed, respired, and repackaged by organisms. We contend that several of these processes can be captured by the size spectrum of the plankton community. However, most global models have relatively simple food-web structures that are unable to generate plankton size spectra. Moreover, the life-cycles of multicellular zooplankton are typically not resolved, restricting the ability of models to represent time-lags that are known to impact carbon export and its efficiency (pe-ratio). Here, we use a global mechanistic size-spectrum model of the marine plankton community to investigate how particulate export and pe-ratio relate to the community size spectrum, community composition, and time-lags between predators and prey. The model generates emergent food-webs with associated size distributions for organisms and detrital particles. To resolve time-lags between phytoplankton and zooplankton, we implement the life-cycle of multicellular zooplankton (here represented by copepods). We find that carbon export correlates best with copepod biomass and trophic level, whereas the pe-ratio correlates best with the exponent of the size spectrum and sea surface temperature (SST). Community metrics performed better than NPP or SST for both deep export and pe-ratio. Time-lags between phytoplankton and copepods did not strongly affect export or pe-ratio. We conclude by discussing how can we reconcile size spectrum theory with field sampling.
biological pump, copepod, export, model, plankton, zooplankton
0886-6236
Serra-Pompei, Camila
5fb41ed3-59bd-4d84-9757-02a7544c6bf0
Ward, Ben
9063af30-e344-4626-9470-8db7c1543d05
Pinti, Jérôme
d3b65050-5a6c-4f8d-98d6-fe19b3c89987
Visser, André
654e6731-6846-43ea-bf60-34494fb896c4
Kiørboe, Thomas
91f00cf3-82fe-4323-9369-24fde8766cf1
Andersen, Ken
9112d409-8232-4b09-866e-f73d71e70bd3
Serra-Pompei, Camila
5fb41ed3-59bd-4d84-9757-02a7544c6bf0
Ward, Ben
9063af30-e344-4626-9470-8db7c1543d05
Pinti, Jérôme
d3b65050-5a6c-4f8d-98d6-fe19b3c89987
Visser, André
654e6731-6846-43ea-bf60-34494fb896c4
Kiørboe, Thomas
91f00cf3-82fe-4323-9369-24fde8766cf1
Andersen, Ken
9112d409-8232-4b09-866e-f73d71e70bd3

Serra-Pompei, Camila, Ward, Ben, Pinti, Jérôme, Visser, André, Kiørboe, Thomas and Andersen, Ken (2022) Linking plankton size spectra and community composition to carbon export and its efficiency. Global Biogeochemical Cycles, 36 (5), [e2021GB007275]. (doi:10.1029/2021GB007275).

Record type: Article

Abstract

The magnitude and efficiency of particulate carbon export from the ocean surface depends not only on net primary production (NPP) but also on how carbon is consumed, respired, and repackaged by organisms. We contend that several of these processes can be captured by the size spectrum of the plankton community. However, most global models have relatively simple food-web structures that are unable to generate plankton size spectra. Moreover, the life-cycles of multicellular zooplankton are typically not resolved, restricting the ability of models to represent time-lags that are known to impact carbon export and its efficiency (pe-ratio). Here, we use a global mechanistic size-spectrum model of the marine plankton community to investigate how particulate export and pe-ratio relate to the community size spectrum, community composition, and time-lags between predators and prey. The model generates emergent food-webs with associated size distributions for organisms and detrital particles. To resolve time-lags between phytoplankton and zooplankton, we implement the life-cycle of multicellular zooplankton (here represented by copepods). We find that carbon export correlates best with copepod biomass and trophic level, whereas the pe-ratio correlates best with the exponent of the size spectrum and sea surface temperature (SST). Community metrics performed better than NPP or SST for both deep export and pe-ratio. Time-lags between phytoplankton and copepods did not strongly affect export or pe-ratio. We conclude by discussing how can we reconcile size spectrum theory with field sampling.

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Global Biogeochemical Cycles - 2022 - Serra‐Pompei - Linking Plankton Size Spectra and Community Composition to Carbon - Version of Record
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Accepted/In Press date: 19 April 2022
e-pub ahead of print date: 25 April 2022
Published date: May 2022
Additional Information: Funding Information: This work was supported by the Gordon and Betty Moore Foundation through award 5479, and by the Centre for Ocean Life, a VKR Centre for Excellence funded by the Villum Foundation. CSP was also supported by a grant from the Simons Foundation (#722859). B.A.W. was funded by a Royal Society University Research Fellowship. Publisher Copyright: © 2022 The Authors.
Keywords: biological pump, copepod, export, model, plankton, zooplankton

Identifiers

Local EPrints ID: 468436
URI: http://eprints.soton.ac.uk/id/eprint/468436
ISSN: 0886-6236
PURE UUID: 4114334d-4cb6-4a32-b16e-7fdb5901c6bf

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Date deposited: 15 Aug 2022 16:44
Last modified: 05 Jun 2024 19:29

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Contributors

Author: Camila Serra-Pompei
Author: Ben Ward
Author: Jérôme Pinti
Author: André Visser
Author: Thomas Kiørboe
Author: Ken Andersen

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