Factors controlling the competition between Phaeocystis and diatoms in the Southern Ocean and implications for carbon export fluxes

The high-latitude Southern Ocean phytoplankton community is shaped by the competition between Phaeocystis and silicifying diatoms, with the relative abundance of these two groups controlling primary and export production, the production of dimethylsulfide, the ratio of silicic acid and nitrate avail...

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Published in:Biogeosciences
Main Authors: Nissen, Cara, Vogt, Meike
Format: Text
Language:English
Published: 2021
Subjects:
Ross Sea
Southern Ocean
Online Access:https://doi.org/10.5194/bg-18-251-2021
https://bg.copernicus.org/articles/18/251/2021/
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spelling ftcopernicus:oai:publications.copernicus.org:bg82329 2023-05-15T18:07:34+02:00 Factors controlling the competition between Phaeocystis and diatoms in the Southern Ocean and implications for carbon export fluxes Nissen, Cara Vogt, Meike 2021-01-14 application/pdf https://doi.org/10.5194/bg-18-251-2021 https://bg.copernicus.org/articles/18/251/2021/ eng eng doi:10.5194/bg-18-251-2021 https://bg.copernicus.org/articles/18/251/2021/ eISSN: 1726-4189 Text 2021 ftcopernicus https://doi.org/10.5194/bg-18-251-2021 2021-01-18T17:22:13Z The high-latitude Southern Ocean phytoplankton community is shaped by the competition between Phaeocystis and silicifying diatoms, with the relative abundance of these two groups controlling primary and export production, the production of dimethylsulfide, the ratio of silicic acid and nitrate available in the water column, and the structure of the food web. Here, we investigate this competition using a regional physical–biogeochemical–ecological model (ROMS-BEC) configured at eddy-permitting resolution for the Southern Ocean south of 35 ∘ S. We improved ROMS-BEC by adding an explicit parameterization of Phaeocystis colonies so that the model, together with the previous addition of an explicit coccolithophore type, now includes all biogeochemically relevant Southern Ocean phytoplankton types. We find that Phaeocystis contribute 46±21 % (1 σ in space) and 40±20 % to annual net primary production (NPP) and particulate organic carbon (POC) export south of 60 ∘ S, respectively, making them an important contributor to high-latitude carbon cycling. In our simulation, the relative importance of Phaeocystis and diatoms is mainly controlled by spatiotemporal variability in temperature and iron availability. In addition, in more coastal areas, such as the Ross Sea, the higher light sensitivity of Phaeocystis at low irradiances promotes the succession from Phaeocystis to diatoms. Differences in the biomass loss rates, such as aggregation or grazing by zooplankton, need to be considered to explain the simulated seasonal biomass evolution and carbon export fluxes. Text Ross Sea Southern Ocean Copernicus Publications: E-Journals Ross Sea Southern Ocean Biogeosciences 18 1 251 283
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description The high-latitude Southern Ocean phytoplankton community is shaped by the competition between Phaeocystis and silicifying diatoms, with the relative abundance of these two groups controlling primary and export production, the production of dimethylsulfide, the ratio of silicic acid and nitrate available in the water column, and the structure of the food web. Here, we investigate this competition using a regional physical–biogeochemical–ecological model (ROMS-BEC) configured at eddy-permitting resolution for the Southern Ocean south of 35 ∘ S. We improved ROMS-BEC by adding an explicit parameterization of Phaeocystis colonies so that the model, together with the previous addition of an explicit coccolithophore type, now includes all biogeochemically relevant Southern Ocean phytoplankton types. We find that Phaeocystis contribute 46±21 % (1 σ in space) and 40±20 % to annual net primary production (NPP) and particulate organic carbon (POC) export south of 60 ∘ S, respectively, making them an important contributor to high-latitude carbon cycling. In our simulation, the relative importance of Phaeocystis and diatoms is mainly controlled by spatiotemporal variability in temperature and iron availability. In addition, in more coastal areas, such as the Ross Sea, the higher light sensitivity of Phaeocystis at low irradiances promotes the succession from Phaeocystis to diatoms. Differences in the biomass loss rates, such as aggregation or grazing by zooplankton, need to be considered to explain the simulated seasonal biomass evolution and carbon export fluxes.
format Text
author Nissen, Cara
Vogt, Meike
spellingShingle Nissen, Cara
Vogt, Meike
Factors controlling the competition between Phaeocystis and diatoms in the Southern Ocean and implications for carbon export fluxes
author_facet Nissen, Cara
Vogt, Meike
author_sort Nissen, Cara
title Factors controlling the competition between Phaeocystis and diatoms in the Southern Ocean and implications for carbon export fluxes
title_short Factors controlling the competition between Phaeocystis and diatoms in the Southern Ocean and implications for carbon export fluxes
title_full Factors controlling the competition between Phaeocystis and diatoms in the Southern Ocean and implications for carbon export fluxes
title_fullStr Factors controlling the competition between Phaeocystis and diatoms in the Southern Ocean and implications for carbon export fluxes
title_full_unstemmed Factors controlling the competition between Phaeocystis and diatoms in the Southern Ocean and implications for carbon export fluxes
title_sort factors controlling the competition between phaeocystis and diatoms in the southern ocean and implications for carbon export fluxes
publishDate 2021
url https://doi.org/10.5194/bg-18-251-2021
https://bg.copernicus.org/articles/18/251/2021/
geographic Ross Sea
Southern Ocean
geographic_facet Ross Sea
Southern Ocean
genre Ross Sea
Southern Ocean
genre_facet Ross Sea
Southern Ocean
op_source eISSN: 1726-4189
op_relation doi:10.5194/bg-18-251-2021
https://bg.copernicus.org/articles/18/251/2021/
op_doi https://doi.org/10.5194/bg-18-251-2021
container_title Biogeosciences
container_volume 18
container_issue 1
container_start_page 251
op_container_end_page 283
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