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The role of phytoplankton dynamics in the seasonal and interannual variability of carbon in the subpolar North Atlantic – a modeling study

The role of phytoplankton dynamics in the seasonal and interannual variability of carbon in the subpolar North Atlantic – a modeling study
The role of phytoplankton dynamics in the seasonal and interannual variability of carbon in the subpolar North Atlantic – a modeling study
We developed an ecosystem/biogeochemical model system, which includes multiple phytoplankton functional groups and carbon cycle dynamics, and applied it to investigate physical-biological interactions in Icelandic waters. Satellite and in situ data were used to evaluate the model. Surface seasonal cycle amplitudes and biases of key parameters (DIC, TA, pCO2, air-sea CO2 flux, and nutrients) are significantly improved when compared to surface bservations by prescribing deep water values and trends, based on available data. The seasonality of the coccolithophore and “other phytoplankton” (diatoms and dinoflagellates) blooms is in general agreement with satellite ocean color products. Nutrient supply, biomass and calcite concentrations are modulated by light and mixed layer depth seasonal cycles. Diatoms are the most abundant phytoplankton, with a large bloom in early spring and a secondary bloom in fall. The diatom bloom is followed by blooms of dinoflagellates and coccolithophores. The effect of biological changes on the seasonal variability of the surface ocean pCO2 is nearly twice the temperature effect, in agreement with previous studies. The inclusion of multiple phytoplankton functional groups in the model played a major role in the accurate representation of CO2 uptake by biology. For instance, at the peak of the bloom, the exclusion of coccolithophores causes an increase in alkalinity of up to 4 ?mol kg?1 with a corresponding increase in DIC of up to 16 ?mol kg?1. During the peak of the bloom in summer, the net effect of the absence of the coccolithophores bloom is an increase in pCO2 of more than 20 ?atm and a reduction of atmospheric CO2 uptake of more than 6 mmolm?2 d?1. On average, the impact of coccolithophores is an increase of air-sea CO2 flux of about 27%. Considering the areal extent of the bloom from satellite images within the Irminger and Icelandic Basins, this reduction translates into an annual mean of nearly 1500 tonnes C yr?1.
1991-9603
683-707
Signorini, S.R.
763bedc8-e433-452a-82e8-9f1d04c7d0a3
Häkkinen, S.
c2ecd037-91db-42d8-82d0-517fe7a40ed7
Gudmundsson, K.
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Olsen, A.
ebb340d7-2e82-4ffd-a4b1-9ba4c7998d2b
Omar, A.M.
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Olafsson, J.
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Reverdin, G.
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Henson, S.A.
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McClain, C.R.
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Worthen, D.L.
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Signorini, S.R.
763bedc8-e433-452a-82e8-9f1d04c7d0a3
Häkkinen, S.
c2ecd037-91db-42d8-82d0-517fe7a40ed7
Gudmundsson, K.
df4fd757-d112-4bec-91e7-b2a6e1f1403f
Olsen, A.
ebb340d7-2e82-4ffd-a4b1-9ba4c7998d2b
Omar, A.M.
10ac860a-d4ee-4fd6-99f2-b19c80987803
Olafsson, J.
8d741c43-c077-436c-b51d-f1344a645c44
Reverdin, G.
4824a129-bc14-4a1c-97f0-f186e11955a3
Henson, S.A.
d6532e17-a65b-4d7b-9ee3-755ecb565c19
McClain, C.R.
de05fcc2-0ed3-422b-b903-6a291e743cae
Worthen, D.L.
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Signorini, S.R., Häkkinen, S., Gudmundsson, K., Olsen, A., Omar, A.M., Olafsson, J., Reverdin, G., Henson, S.A., McClain, C.R. and Worthen, D.L. (2012) The role of phytoplankton dynamics in the seasonal and interannual variability of carbon in the subpolar North Atlantic – a modeling study. Geoscientific Model Development, 5 (3), 683-707. (doi:10.5194/gmd-5-683-2012).

Record type: Article

Abstract

We developed an ecosystem/biogeochemical model system, which includes multiple phytoplankton functional groups and carbon cycle dynamics, and applied it to investigate physical-biological interactions in Icelandic waters. Satellite and in situ data were used to evaluate the model. Surface seasonal cycle amplitudes and biases of key parameters (DIC, TA, pCO2, air-sea CO2 flux, and nutrients) are significantly improved when compared to surface bservations by prescribing deep water values and trends, based on available data. The seasonality of the coccolithophore and “other phytoplankton” (diatoms and dinoflagellates) blooms is in general agreement with satellite ocean color products. Nutrient supply, biomass and calcite concentrations are modulated by light and mixed layer depth seasonal cycles. Diatoms are the most abundant phytoplankton, with a large bloom in early spring and a secondary bloom in fall. The diatom bloom is followed by blooms of dinoflagellates and coccolithophores. The effect of biological changes on the seasonal variability of the surface ocean pCO2 is nearly twice the temperature effect, in agreement with previous studies. The inclusion of multiple phytoplankton functional groups in the model played a major role in the accurate representation of CO2 uptake by biology. For instance, at the peak of the bloom, the exclusion of coccolithophores causes an increase in alkalinity of up to 4 ?mol kg?1 with a corresponding increase in DIC of up to 16 ?mol kg?1. During the peak of the bloom in summer, the net effect of the absence of the coccolithophores bloom is an increase in pCO2 of more than 20 ?atm and a reduction of atmospheric CO2 uptake of more than 6 mmolm?2 d?1. On average, the impact of coccolithophores is an increase of air-sea CO2 flux of about 27%. Considering the areal extent of the bloom from satellite images within the Irminger and Icelandic Basins, this reduction translates into an annual mean of nearly 1500 tonnes C yr?1.

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Published date: 2012
Organisations: Marine Biogeochemistry

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Local EPrints ID: 340764
URI: http://eprints.soton.ac.uk/id/eprint/340764
ISSN: 1991-9603
PURE UUID: 71bcf1bf-eb42-457f-b918-0ae72a8cd4e4

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Date deposited: 02 Jul 2012 13:57
Last modified: 14 Mar 2024 11:29

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Contributors

Author: S.R. Signorini
Author: S. Häkkinen
Author: K. Gudmundsson
Author: A. Olsen
Author: A.M. Omar
Author: J. Olafsson
Author: G. Reverdin
Author: S.A. Henson
Author: C.R. McClain
Author: D.L. Worthen

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