Model sensitivity of the Weddell and Ross seas, Antarctica, to vertical mixing and freshwater forcing
Model sensitivity of the Weddell and Ross seas, Antarctica, to vertical mixing and freshwater forcing
We examine the sensitivity of the Weddell and Ross seas to vertical mixing and surface freshwater forcing using an ocean–sea ice model. The high latitude Southern Ocean is very weakly stratified, with a winter salinity difference across the pycnocline of only ?0.2 PSU. We find that insufficient vertical mixing, freshwater supply from the Antarctic Ice Sheet, or initial sea ice causes a high salinity bias in the mixed layer which erodes the stratification and causes excessive deep convection. This leads to vertical homogenisation of the Weddell and Ross seas, opening of polynyas in the sea ice and unrealistic spin-up of the subpolar gyres and Antarctic Circumpolar Current. The model freshwater budget shows that a ?30% error in any component can destratify the ocean in about a decade. We find that freshwater forcing in the model should be sufficient along the Antarctic coastline to balance a salinity bias caused by dense coastal water that is unable to sink to the deep ocean. We also show that a low initial sea ice area introduces a salinity bias in the marginal ice zone. We demonstrate that vertical mixing, freshwater forcing and initial sea ice conditions need to be constrained simultaneously to reproduce the Southern Ocean hydrography, circulation and sea ice in a model. As an example, insufficient vertical mixing will cause excessive convection in the Weddell and Ross seas even in the presence of large surface freshwater forcing and initial sea ice cover.
Weddell sea, Ross sea, NEMO, CICE, Convection, Sea ice
141-152
Kjellsson, Joakim
386ed501-47f6-40a0-98a6-3fa741d02081
Holland, Paul R.
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Marshall, Gareth J.
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Mathiot, Pierre
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Aksenov, Yevgeny
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Coward, Andrew C.
53b78140-2e65-476a-b287-e8384a65224b
Bacon, Sheldon
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Megann, Alex P.
4fd92e77-5512-487d-bb28-8476afafdeaf
Ridley, Jeff
ea3d3c4d-a40f-4ad9-af94-fafe355e07be
October 2015
Kjellsson, Joakim
386ed501-47f6-40a0-98a6-3fa741d02081
Holland, Paul R.
1288654c-2b5b-4d4c-b360-7eebe59c7539
Marshall, Gareth J.
66660a76-59de-4afe-bbf6-65cd0cf01994
Mathiot, Pierre
5e8bb176-a884-40f3-a205-380e76d3dd82
Aksenov, Yevgeny
1d277047-06f6-4893-8bcf-c2817a9c848e
Coward, Andrew C.
53b78140-2e65-476a-b287-e8384a65224b
Bacon, Sheldon
1e7aa6e3-4fb4-4230-8ba7-90837304a9a7
Megann, Alex P.
4fd92e77-5512-487d-bb28-8476afafdeaf
Ridley, Jeff
ea3d3c4d-a40f-4ad9-af94-fafe355e07be
Kjellsson, Joakim, Holland, Paul R., Marshall, Gareth J., Mathiot, Pierre, Aksenov, Yevgeny, Coward, Andrew C., Bacon, Sheldon, Megann, Alex P. and Ridley, Jeff
(2015)
Model sensitivity of the Weddell and Ross seas, Antarctica, to vertical mixing and freshwater forcing.
Ocean Modelling, 94, .
(doi:10.1016/j.ocemod.2015.08.003).
Abstract
We examine the sensitivity of the Weddell and Ross seas to vertical mixing and surface freshwater forcing using an ocean–sea ice model. The high latitude Southern Ocean is very weakly stratified, with a winter salinity difference across the pycnocline of only ?0.2 PSU. We find that insufficient vertical mixing, freshwater supply from the Antarctic Ice Sheet, or initial sea ice causes a high salinity bias in the mixed layer which erodes the stratification and causes excessive deep convection. This leads to vertical homogenisation of the Weddell and Ross seas, opening of polynyas in the sea ice and unrealistic spin-up of the subpolar gyres and Antarctic Circumpolar Current. The model freshwater budget shows that a ?30% error in any component can destratify the ocean in about a decade. We find that freshwater forcing in the model should be sufficient along the Antarctic coastline to balance a salinity bias caused by dense coastal water that is unable to sink to the deep ocean. We also show that a low initial sea ice area introduces a salinity bias in the marginal ice zone. We demonstrate that vertical mixing, freshwater forcing and initial sea ice conditions need to be constrained simultaneously to reproduce the Southern Ocean hydrography, circulation and sea ice in a model. As an example, insufficient vertical mixing will cause excessive convection in the Weddell and Ross seas even in the presence of large surface freshwater forcing and initial sea ice cover.
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Published date: October 2015
Keywords:
Weddell sea, Ross sea, NEMO, CICE, Convection, Sea ice
Organisations:
Marine Systems Modelling, Marine Physics and Ocean Climate
Identifiers
Local EPrints ID: 383331
URI: http://eprints.soton.ac.uk/id/eprint/383331
ISSN: 1463-5003
PURE UUID: df1fad01-3b5f-4394-b2af-053aedbb8c55
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Date deposited: 26 Oct 2015 10:59
Last modified: 14 Mar 2024 21:41
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Contributors
Author:
Joakim Kjellsson
Author:
Paul R. Holland
Author:
Gareth J. Marshall
Author:
Pierre Mathiot
Author:
Yevgeny Aksenov
Author:
Andrew C. Coward
Author:
Sheldon Bacon
Author:
Alex P. Megann
Author:
Jeff Ridley
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