Strong sensitivity of Southern Ocean carbon uptake and nutrient cycling to wind stirring

Here we test the hypothesis that winds have an important role in determining the rate of exchange of CO2 between the atmosphere and ocean through wind stirring over the Southern Ocean. This is tested with a sensitivity study using an ad hoc parameterization of wind stirring in an ocean carbon cycle...

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Main Authors: Rodgers, K. B., Aumont, Olivier, Fletcher, S. E. M., Plancherel, Y., Bopp, L., Montegut, C. D., Iudicone, D., Keeling, R. F., Madec, G., Wanninkhof, R.
Format: Text
Language:English
Published: 2014
Subjects:
Austral
Southern Ocean
Online Access:http://www.documentation.ird.fr/hor/fdi:010062511
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spelling ftird:oai:ird.fr:fdi:010062511 2023-05-15T18:24:21+02:00 Strong sensitivity of Southern Ocean carbon uptake and nutrient cycling to wind stirring Rodgers, K. B. Aumont, Olivier Fletcher, S. E. M. Plancherel, Y. Bopp, L. Montegut, C. D. Iudicone, D. Keeling, R. F. Madec, G. Wanninkhof, R. OCEAN AUSTRAL 2014 text/pdf http://www.documentation.ird.fr/hor/fdi:010062511 EN eng http://www.documentation.ird.fr/hor/fdi:010062511 oai:ird.fr:fdi:010062511 Rodgers K. B., Aumont Olivier, Fletcher S. E. M., Plancherel Y., Bopp L., Montegut C. D., Iudicone D., Keeling R. F., Madec G., Wanninkhof R. Strong sensitivity of Southern Ocean carbon uptake and nutrient cycling to wind stirring. Biogeosciences, 2014, 11 (15), p. 4077-4098. text 2014 ftird 2020-08-21T06:53:29Z Here we test the hypothesis that winds have an important role in determining the rate of exchange of CO2 between the atmosphere and ocean through wind stirring over the Southern Ocean. This is tested with a sensitivity study using an ad hoc parameterization of wind stirring in an ocean carbon cycle model, where the objective is to identify the way in which perturbations to the vertical density structure of the planetary boundary in the ocean impacts the carbon cycle and ocean biogeochemistry. Wind stirring leads to reduced uptake of CO2 by the Southern Ocean over the period 2000-2006, with a relative reduction with wind stirring on the order of 0.9 Pg C yr(-1) over the region south of 45 degrees S. This impacts not only the mean carbon uptake, but also the phasing of the seasonal cycle of carbon and other ocean biogeochemical tracers. Enhanced wind stirring delays the seasonal onset of stratification, and this has large impacts on both entrainment and the biological pump. It is also found that there is a strong reduction on the order of 25-30% in the concentrations of NO3 exported in Subantarctic Mode Water (SAMW) to wind stirring. This finds expression not only locally over the Southern Ocean, but also over larger scales through the impact on advected nutrients. In summary, the large sensitivity identified with the ad hoc wind stirring parameterization offers support for the importance of wind stirring for global ocean biogeochemistry through its impact over the Southern Ocean. Text Southern Ocean IRD (Institute de recherche pour le développement): Horizon Austral Southern Ocean
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
description Here we test the hypothesis that winds have an important role in determining the rate of exchange of CO2 between the atmosphere and ocean through wind stirring over the Southern Ocean. This is tested with a sensitivity study using an ad hoc parameterization of wind stirring in an ocean carbon cycle model, where the objective is to identify the way in which perturbations to the vertical density structure of the planetary boundary in the ocean impacts the carbon cycle and ocean biogeochemistry. Wind stirring leads to reduced uptake of CO2 by the Southern Ocean over the period 2000-2006, with a relative reduction with wind stirring on the order of 0.9 Pg C yr(-1) over the region south of 45 degrees S. This impacts not only the mean carbon uptake, but also the phasing of the seasonal cycle of carbon and other ocean biogeochemical tracers. Enhanced wind stirring delays the seasonal onset of stratification, and this has large impacts on both entrainment and the biological pump. It is also found that there is a strong reduction on the order of 25-30% in the concentrations of NO3 exported in Subantarctic Mode Water (SAMW) to wind stirring. This finds expression not only locally over the Southern Ocean, but also over larger scales through the impact on advected nutrients. In summary, the large sensitivity identified with the ad hoc wind stirring parameterization offers support for the importance of wind stirring for global ocean biogeochemistry through its impact over the Southern Ocean.
format Text
author Rodgers, K. B.
Aumont, Olivier
Fletcher, S. E. M.
Plancherel, Y.
Bopp, L.
Montegut, C. D.
Iudicone, D.
Keeling, R. F.
Madec, G.
Wanninkhof, R.
spellingShingle Rodgers, K. B.
Aumont, Olivier
Fletcher, S. E. M.
Plancherel, Y.
Bopp, L.
Montegut, C. D.
Iudicone, D.
Keeling, R. F.
Madec, G.
Wanninkhof, R.
Strong sensitivity of Southern Ocean carbon uptake and nutrient cycling to wind stirring
author_facet Rodgers, K. B.
Aumont, Olivier
Fletcher, S. E. M.
Plancherel, Y.
Bopp, L.
Montegut, C. D.
Iudicone, D.
Keeling, R. F.
Madec, G.
Wanninkhof, R.
author_sort Rodgers, K. B.
title Strong sensitivity of Southern Ocean carbon uptake and nutrient cycling to wind stirring
title_short Strong sensitivity of Southern Ocean carbon uptake and nutrient cycling to wind stirring
title_full Strong sensitivity of Southern Ocean carbon uptake and nutrient cycling to wind stirring
title_fullStr Strong sensitivity of Southern Ocean carbon uptake and nutrient cycling to wind stirring
title_full_unstemmed Strong sensitivity of Southern Ocean carbon uptake and nutrient cycling to wind stirring
title_sort strong sensitivity of southern ocean carbon uptake and nutrient cycling to wind stirring
publishDate 2014
url http://www.documentation.ird.fr/hor/fdi:010062511
op_coverage OCEAN AUSTRAL
geographic Austral
Southern Ocean
geographic_facet Austral
Southern Ocean
genre Southern Ocean
genre_facet Southern Ocean
op_relation http://www.documentation.ird.fr/hor/fdi:010062511
oai:ird.fr:fdi:010062511
Rodgers K. B., Aumont Olivier, Fletcher S. E. M., Plancherel Y., Bopp L., Montegut C. D., Iudicone D., Keeling R. F., Madec G., Wanninkhof R. Strong sensitivity of Southern Ocean carbon uptake and nutrient cycling to wind stirring. Biogeosciences, 2014, 11 (15), p. 4077-4098.
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