Decadal fingerprints of freshwater discharge around Greenland in a multi-model ensemble

The recent increase in the rate of the Greenland ice sheet melting has raised with urgency the question of the impact of such a melting on the climate. As former model projections, based on a coarse representation of the melting, show very different sensitivity to this melting, it seems necessary to...

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Main Authors: Swingedouw, D., Rodehacke, C. B., Behrens, E., Menary, M., Olsen, S. M., Gao, Y. Q., Mikolajewicz, U., /Mignot, Juliette, Biastoch, A.
Format: Text
Language:English
Published: 2013
Subjects:
Greenland ice sheet melting
Thermohaline circulation
Oceanic gyre
Ocean-atmosphere interactions
Oceanic dynamics
Sea-level rise
AMOC
North Atlantic
Greenland
Groenland
Ice Sheet
Nordic Seas
Online Access:https://www.documentation.ird.fr/hor/fdi:010060555
id ftird:oai:ird.fr:fdi:010060555
record_format openpolar
spelling ftird:oai:ird.fr:fdi:010060555 2024-09-15T18:09:10+00:00 Decadal fingerprints of freshwater discharge around Greenland in a multi-model ensemble Swingedouw, D. Rodehacke, C. B. Behrens, E. Menary, M. Olsen, S. M. Gao, Y. Q. Mikolajewicz, U. /Mignot, Juliette Biastoch, A. GROENLAND OCEAN ATLANTIQUE NORD 2013 https://www.documentation.ird.fr/hor/fdi:010060555 EN eng https://www.documentation.ird.fr/hor/fdi:010060555 oai:ird.fr:fdi:010060555 Swingedouw D., Rodehacke C. B., Behrens E., Menary M., Olsen S. M., Gao Y. Q., Mikolajewicz U., Mignot Juliette, Biastoch A. Decadal fingerprints of freshwater discharge around Greenland in a multi-model ensemble. 2013, 41 (3-4), p. 695-720 Greenland ice sheet melting Thermohaline circulation Oceanic gyre Ocean-atmosphere interactions Oceanic dynamics Sea-level rise AMOC North Atlantic text 2013 ftird 2024-08-15T05:57:42Z The recent increase in the rate of the Greenland ice sheet melting has raised with urgency the question of the impact of such a melting on the climate. As former model projections, based on a coarse representation of the melting, show very different sensitivity to this melting, it seems necessary to consider a multi-model ensemble to tackle this question. Here we use five coupled climate models and one ocean-only model to evaluate the impact of 0.1 Sv (1 Sv = 10(6) m(3)/s) of freshwater equally distributed around the coast of Greenland during the historical era 1965-2004. The ocean-only model helps to discriminate between oceanic and coupled responses. In this idealized framework, we find similar fingerprints in the fourth decade of hosing among the models, with a general weakening of the Atlantic Meridional Overturning Circulation (AMOC). Initially, the additional freshwater spreads along the main currents of the subpolar gyre. Part of the anomaly crosses the Atlantic eastward and enters into the Canary Current constituting a freshwater leakage tapping the subpolar gyre system. As a consequence, we show that the AMOC weakening is smaller if the leakage is larger. We argue that the magnitude of the freshwater leakage is related to the asymmetry between the subpolar-subtropical gyres in the control simulations, which may ultimately be a primary cause for the diversity of AMOC responses to the hosing in the multi-model ensemble. Another important fingerprint concerns a warming in the Nordic Seas in response to the re-emergence of Atlantic subsurface waters capped by the freshwater in the subpolar gyre. This subsurface heat anomaly reaches the Arctic where it emerges and induces a positive upper ocean salinity anomaly by introducing more Atlantic waters. We found similar climatic impacts in all the coupled ocean-atmosphere models with an atmospheric cooling of the North Atlantic except in the region around the Nordic Seas and a slight warming south of the equator in the Atlantic. This meridional gradient of ... Text Greenland Groenland Ice Sheet Nordic Seas North Atlantic IRD (Institute de recherche pour le développement): Horizon
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
topic Greenland ice sheet melting
Thermohaline circulation
Oceanic gyre
Ocean-atmosphere interactions
Oceanic dynamics
Sea-level rise
AMOC
North Atlantic
spellingShingle Greenland ice sheet melting
Thermohaline circulation
Oceanic gyre
Ocean-atmosphere interactions
Oceanic dynamics
Sea-level rise
AMOC
North Atlantic
Swingedouw, D.
Rodehacke, C. B.
Behrens, E.
Menary, M.
Olsen, S. M.
Gao, Y. Q.
Mikolajewicz, U.
/Mignot, Juliette
Biastoch, A.
Decadal fingerprints of freshwater discharge around Greenland in a multi-model ensemble
topic_facet Greenland ice sheet melting
Thermohaline circulation
Oceanic gyre
Ocean-atmosphere interactions
Oceanic dynamics
Sea-level rise
AMOC
North Atlantic
description The recent increase in the rate of the Greenland ice sheet melting has raised with urgency the question of the impact of such a melting on the climate. As former model projections, based on a coarse representation of the melting, show very different sensitivity to this melting, it seems necessary to consider a multi-model ensemble to tackle this question. Here we use five coupled climate models and one ocean-only model to evaluate the impact of 0.1 Sv (1 Sv = 10(6) m(3)/s) of freshwater equally distributed around the coast of Greenland during the historical era 1965-2004. The ocean-only model helps to discriminate between oceanic and coupled responses. In this idealized framework, we find similar fingerprints in the fourth decade of hosing among the models, with a general weakening of the Atlantic Meridional Overturning Circulation (AMOC). Initially, the additional freshwater spreads along the main currents of the subpolar gyre. Part of the anomaly crosses the Atlantic eastward and enters into the Canary Current constituting a freshwater leakage tapping the subpolar gyre system. As a consequence, we show that the AMOC weakening is smaller if the leakage is larger. We argue that the magnitude of the freshwater leakage is related to the asymmetry between the subpolar-subtropical gyres in the control simulations, which may ultimately be a primary cause for the diversity of AMOC responses to the hosing in the multi-model ensemble. Another important fingerprint concerns a warming in the Nordic Seas in response to the re-emergence of Atlantic subsurface waters capped by the freshwater in the subpolar gyre. This subsurface heat anomaly reaches the Arctic where it emerges and induces a positive upper ocean salinity anomaly by introducing more Atlantic waters. We found similar climatic impacts in all the coupled ocean-atmosphere models with an atmospheric cooling of the North Atlantic except in the region around the Nordic Seas and a slight warming south of the equator in the Atlantic. This meridional gradient of ...
format Text
author Swingedouw, D.
Rodehacke, C. B.
Behrens, E.
Menary, M.
Olsen, S. M.
Gao, Y. Q.
Mikolajewicz, U.
/Mignot, Juliette
Biastoch, A.
author_facet Swingedouw, D.
Rodehacke, C. B.
Behrens, E.
Menary, M.
Olsen, S. M.
Gao, Y. Q.
Mikolajewicz, U.
/Mignot, Juliette
Biastoch, A.
author_sort Swingedouw, D.
title Decadal fingerprints of freshwater discharge around Greenland in a multi-model ensemble
title_short Decadal fingerprints of freshwater discharge around Greenland in a multi-model ensemble
title_full Decadal fingerprints of freshwater discharge around Greenland in a multi-model ensemble
title_fullStr Decadal fingerprints of freshwater discharge around Greenland in a multi-model ensemble
title_full_unstemmed Decadal fingerprints of freshwater discharge around Greenland in a multi-model ensemble
title_sort decadal fingerprints of freshwater discharge around greenland in a multi-model ensemble
publishDate 2013
url https://www.documentation.ird.fr/hor/fdi:010060555
op_coverage GROENLAND
OCEAN ATLANTIQUE NORD
genre Greenland
Groenland
Ice Sheet
Nordic Seas
North Atlantic
genre_facet Greenland
Groenland
Ice Sheet
Nordic Seas
North Atlantic
op_relation https://www.documentation.ird.fr/hor/fdi:010060555
oai:ird.fr:fdi:010060555
Swingedouw D., Rodehacke C. B., Behrens E., Menary M., Olsen S. M., Gao Y. Q., Mikolajewicz U., Mignot Juliette, Biastoch A. Decadal fingerprints of freshwater discharge around Greenland in a multi-model ensemble. 2013, 41 (3-4), p. 695-720
_version_ 1810446589570842624

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