Linking ocean biogeochemical cycles and ecosystem structure and function: results of the complex SWAMCO-4 model

We present results obtained with SWAMCO-4, a complex model of the marine planktonic system calculating C, N, P, Si, Fe cycling within the upper ocean, the export production and the exchange of CO2 between the ocean and atmosphere. The model, constrained by physical, chemical and biological (grazing,...

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Main Authors: Pasquer, B., Laruelle, G.G., Becquevort, S., Schoemann, V., Goosse, H., Lancelot, C.
Format: Article in Journal/Newspaper
Language:English
Published: 2005
Subjects:
Aardwetenschappen
Ecological modelling
Diatoms
Pico/nanophytoplankton
Coccolithophorids
Phaeocystis spp
Iron
Air-sea CO2 fluxes
Global ocean
Antarctic Ocean
North Atlantic
Antarctic
Ross Sea
Southern Ocean
The Antarctic
Antarc*
Sea ice
Online Access:https://dspace.library.uu.nl/handle/1874/31397
id ftunivutrecht:oai:dspace.library.uu.nl:1874/31397
record_format openpolar
spelling ftunivutrecht:oai:dspace.library.uu.nl:1874/31397 2023-07-23T04:14:30+02:00 Linking ocean biogeochemical cycles and ecosystem structure and function: results of the complex SWAMCO-4 model Pasquer, B. Laruelle, G.G. Becquevort, S. Schoemann, V. Goosse, H. Lancelot, C. 2005 image/pdf https://dspace.library.uu.nl/handle/1874/31397 en eng 1385-1101 https://dspace.library.uu.nl/handle/1874/31397 info:eu-repo/semantics/OpenAccess Aardwetenschappen Ecological modelling Diatoms Pico/nanophytoplankton Coccolithophorids Phaeocystis spp Iron Air-sea CO2 fluxes Global ocean Antarctic Ocean North Atlantic Article 2005 ftunivutrecht 2023-07-01T23:31:50Z We present results obtained with SWAMCO-4, a complex model of the marine planktonic system calculating C, N, P, Si, Fe cycling within the upper ocean, the export production and the exchange of CO2 between the ocean and atmosphere. The model, constrained by physical, chemical and biological (grazing, lysis) controls, explicitly details the dynamics of four relevant phytoplankton functional groups with respect to C, N, P, Si, Fe cycling and climate change. Those are diatoms, pico/nano phytoplankton, coccolithophorids, and Phaeocystis spp. whose growth regulation by light, temperature and nutrients has been obtained based on a comprehensive analysis of literature reviews on these taxonomic groups. The performance of SWAMCO-4 is first evaluated in a 1D physical frame throughout its cross application in provinces with contrasted key species dominance, export production, CO2 air-sea fluxes and where biogeochemical time-series data are available for model initialisation and comparison of results. These are: (i) the ice-free Southern Ocean Time Series station KERFIX (50°40S, 68°E) for the period 1993–1994 (diatom-dominated); (ii) the sea-ice associated Ross Sea domain (Station S; 76°S, 180°W) of the Antarctic Environment and Southern Ocean Process Study AESOPS in 1996–1997 (Phaeocystis-dominated); and (iii) the North Atlantic Bloom Experiment NABE (60°N, 20°W) in 1991 (coccolithophorids). We then explore and compare the ocean response to increased atmospheric CO2 by running SWAMCO-4 at the different locations over the last decade. Results show that at all tested latitudes the prescribed increase of atmospheric CO2 enhances the carbon uptake by the ocean. However, the amplitude of the predicted atmospheric CO2 sinks displays large regional and interannual variations due to the actual meteorological forcing that drives the local hydrodynamics. This is particularly true in the marginal ice zone of the Ross Sea (AESOPS) where the magnitude of the predicted annual CO2 sink is positively related to the length of the surface ... Article in Journal/Newspaper Antarc* Antarctic Antarctic Ocean North Atlantic Ross Sea Sea ice Southern Ocean Utrecht University Repository Antarctic Antarctic Ocean Ross Sea Southern Ocean The Antarctic
institution Open Polar
collection Utrecht University Repository
op_collection_id ftunivutrecht
language English
topic Aardwetenschappen
Ecological modelling
Diatoms
Pico/nanophytoplankton
Coccolithophorids
Phaeocystis spp
Iron
Air-sea CO2 fluxes
Global ocean
Antarctic Ocean
North Atlantic
spellingShingle Aardwetenschappen
Ecological modelling
Diatoms
Pico/nanophytoplankton
Coccolithophorids
Phaeocystis spp
Iron
Air-sea CO2 fluxes
Global ocean
Antarctic Ocean
North Atlantic
Pasquer, B.
Laruelle, G.G.
Becquevort, S.
Schoemann, V.
Goosse, H.
Lancelot, C.
Linking ocean biogeochemical cycles and ecosystem structure and function: results of the complex SWAMCO-4 model
topic_facet Aardwetenschappen
Ecological modelling
Diatoms
Pico/nanophytoplankton
Coccolithophorids
Phaeocystis spp
Iron
Air-sea CO2 fluxes
Global ocean
Antarctic Ocean
North Atlantic
description We present results obtained with SWAMCO-4, a complex model of the marine planktonic system calculating C, N, P, Si, Fe cycling within the upper ocean, the export production and the exchange of CO2 between the ocean and atmosphere. The model, constrained by physical, chemical and biological (grazing, lysis) controls, explicitly details the dynamics of four relevant phytoplankton functional groups with respect to C, N, P, Si, Fe cycling and climate change. Those are diatoms, pico/nano phytoplankton, coccolithophorids, and Phaeocystis spp. whose growth regulation by light, temperature and nutrients has been obtained based on a comprehensive analysis of literature reviews on these taxonomic groups. The performance of SWAMCO-4 is first evaluated in a 1D physical frame throughout its cross application in provinces with contrasted key species dominance, export production, CO2 air-sea fluxes and where biogeochemical time-series data are available for model initialisation and comparison of results. These are: (i) the ice-free Southern Ocean Time Series station KERFIX (50°40S, 68°E) for the period 1993–1994 (diatom-dominated); (ii) the sea-ice associated Ross Sea domain (Station S; 76°S, 180°W) of the Antarctic Environment and Southern Ocean Process Study AESOPS in 1996–1997 (Phaeocystis-dominated); and (iii) the North Atlantic Bloom Experiment NABE (60°N, 20°W) in 1991 (coccolithophorids). We then explore and compare the ocean response to increased atmospheric CO2 by running SWAMCO-4 at the different locations over the last decade. Results show that at all tested latitudes the prescribed increase of atmospheric CO2 enhances the carbon uptake by the ocean. However, the amplitude of the predicted atmospheric CO2 sinks displays large regional and interannual variations due to the actual meteorological forcing that drives the local hydrodynamics. This is particularly true in the marginal ice zone of the Ross Sea (AESOPS) where the magnitude of the predicted annual CO2 sink is positively related to the length of the surface ...
format Article in Journal/Newspaper
author Pasquer, B.
Laruelle, G.G.
Becquevort, S.
Schoemann, V.
Goosse, H.
Lancelot, C.
author_facet Pasquer, B.
Laruelle, G.G.
Becquevort, S.
Schoemann, V.
Goosse, H.
Lancelot, C.
author_sort Pasquer, B.
title Linking ocean biogeochemical cycles and ecosystem structure and function: results of the complex SWAMCO-4 model
title_short Linking ocean biogeochemical cycles and ecosystem structure and function: results of the complex SWAMCO-4 model
title_full Linking ocean biogeochemical cycles and ecosystem structure and function: results of the complex SWAMCO-4 model
title_fullStr Linking ocean biogeochemical cycles and ecosystem structure and function: results of the complex SWAMCO-4 model
title_full_unstemmed Linking ocean biogeochemical cycles and ecosystem structure and function: results of the complex SWAMCO-4 model
title_sort linking ocean biogeochemical cycles and ecosystem structure and function: results of the complex swamco-4 model
publishDate 2005
url https://dspace.library.uu.nl/handle/1874/31397
geographic Antarctic
Antarctic Ocean
Ross Sea
Southern Ocean
The Antarctic
geographic_facet Antarctic
Antarctic Ocean
Ross Sea
Southern Ocean
The Antarctic
genre Antarc*
Antarctic
Antarctic Ocean
North Atlantic
Ross Sea
Sea ice
Southern Ocean
genre_facet Antarc*
Antarctic
Antarctic Ocean
North Atlantic
Ross Sea
Sea ice
Southern Ocean
op_relation 1385-1101
https://dspace.library.uu.nl/handle/1874/31397
op_rights info:eu-repo/semantics/OpenAccess
_version_ 1772185248194363392

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