Short-term impacts of enhanced Greenland freshwater fluxes in an eddy-permitting ocean model
Short-term impacts of enhanced Greenland freshwater fluxes in an eddy-permitting ocean model
In a sensitivity experiment, an eddy-permitting ocean general circulation model is forced with realistic freshwater fluxes from the Greenland Ice Sheet, averaged for the period 1991–2000. The fluxes are obtained with a mass balance model for the ice sheet, forced with the ERA-40 reanalysis dataset. The freshwater flux is distributed around Greenland as an additional term in prescribed runoff, representing seasonal melting of the ice sheet and a fixed year-round iceberg calving flux, for 8.5 model years. By adding Greenland freshwater fluxes with realistic geographical distribution and seasonality, the experiment is designed to investigate the oceanic response to a sudden and spatially/temporally uniform amplification of ice sheet melting and discharge, rather than localized or gradual changes in freshwater flux. The impacts on regional hydrography and circulation are investigated by comparing the sensitivity experiment to a control experiment, without additional fluxes. By the end of the sensitivity experiment, the majority of additional fresh water has accumulated in Baffin Bay, and only a small fraction has reached the interior of the Labrador Sea, where winter mixed layer depth is sensitive to small changes in salinity. As a consequence, the impact on large-scale circulation is very slight. An indirect impact of strong freshening off the west coast of Greenland is a small anti-cyclonic component to the circulation around Greenland, which opposes the wind-driven cyclonic circulation and reduces net southward flow through the Canadian Archipelago by ~10%. Implications for the post-2000 acceleration of Greenland mass loss are discussed.
749-760
Marsh, R.
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Desbruyeres, D.
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Bamber, J.L.
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de Cuevas, B.A.
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Coward, A.C.
53b78140-2e65-476a-b287-e8384a65224b
Aksenov, Y.
1d277047-06f6-4893-8bcf-c2817a9c848e
23 July 2010
Marsh, R.
702c2e7e-ac19-4019-abd9-a8614ab27717
Desbruyeres, D.
b154886d-2b32-4b31-a837-f953c74d9bdc
Bamber, J.L.
c0300ad4-88cd-45ff-a718-bc7ea50646b1
de Cuevas, B.A.
01cc697c-2832-4de6-87bf-bf9f16c1f906
Coward, A.C.
53b78140-2e65-476a-b287-e8384a65224b
Aksenov, Y.
1d277047-06f6-4893-8bcf-c2817a9c848e
Marsh, R., Desbruyeres, D., Bamber, J.L., de Cuevas, B.A., Coward, A.C. and Aksenov, Y.
(2010)
Short-term impacts of enhanced Greenland freshwater fluxes in an eddy-permitting ocean model.
Ocean Science, 6 (3), .
(doi:10.5194/os-6-749-2010).
Abstract
In a sensitivity experiment, an eddy-permitting ocean general circulation model is forced with realistic freshwater fluxes from the Greenland Ice Sheet, averaged for the period 1991–2000. The fluxes are obtained with a mass balance model for the ice sheet, forced with the ERA-40 reanalysis dataset. The freshwater flux is distributed around Greenland as an additional term in prescribed runoff, representing seasonal melting of the ice sheet and a fixed year-round iceberg calving flux, for 8.5 model years. By adding Greenland freshwater fluxes with realistic geographical distribution and seasonality, the experiment is designed to investigate the oceanic response to a sudden and spatially/temporally uniform amplification of ice sheet melting and discharge, rather than localized or gradual changes in freshwater flux. The impacts on regional hydrography and circulation are investigated by comparing the sensitivity experiment to a control experiment, without additional fluxes. By the end of the sensitivity experiment, the majority of additional fresh water has accumulated in Baffin Bay, and only a small fraction has reached the interior of the Labrador Sea, where winter mixed layer depth is sensitive to small changes in salinity. As a consequence, the impact on large-scale circulation is very slight. An indirect impact of strong freshening off the west coast of Greenland is a small anti-cyclonic component to the circulation around Greenland, which opposes the wind-driven cyclonic circulation and reduces net southward flow through the Canadian Archipelago by ~10%. Implications for the post-2000 acceleration of Greenland mass loss are discussed.
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Published date: 23 July 2010
Organisations:
Marine Systems Modelling, Physical Oceanography
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Local EPrints ID: 166893
URI: http://eprints.soton.ac.uk/id/eprint/166893
ISSN: 1812-0792
PURE UUID: e18b4eb9-7d37-4cbe-8f7b-74b94602bb8e
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Date deposited: 03 Nov 2010 15:02
Last modified: 14 Mar 2024 02:14
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Contributors
Author:
D. Desbruyeres
Author:
J.L. Bamber
Author:
B.A. de Cuevas
Author:
A.C. Coward
Author:
Y. Aksenov
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