Subpolar North Atlantic cooling reinforced by colder, drier atmosphere with a weakening Atlantic meridional overturning circulation
Subpolar North Atlantic cooling reinforced by colder, drier atmosphere with a weakening Atlantic meridional overturning circulation
In contrast to global warming, the subpolar North Atlantic has experienced long-term cooling throughout the 20th century. This cooling, known as the North Atlantic cold blob, has been hypothesized to arise from reduced poleward oceanic heat transport associated with a slowdown of the Atlantic meridional overturning circulation (AMOC). Here, by diagnosing historical simulations from multiple coupled climate models, we find that ocean heat transport is not the only pathway through which the AMOC modulates sea surface temperature variability. A weakened AMOC is also associated with colder, drier lower atmospheric conditions, which lead to a reduction in surface warming expected from increasing amounts of heat-trapping gases by reducing downward clear-sky longwave radiation at the surface. This radiative pathway and the oceanic processes contribute equally to the North Atlantic cold blob. These results highlight the importance of the AMOC's impact on atmospheric properties and their radiative effects.
Fan, Yifei
bbeddddc-7963-484e-afa1-7b6e72e1da02
Chan, Duo
4c1278dc-7f39-4b67-b1cd-3f81f55f4906
Clothiaux, Eugene E.
da6a4561-7d12-4805-88f1-6971ea9efa9b
Zhang, Pengfei
7949864f-9334-4c1a-b6e6-a0185b531029
Li, Laifang
7ef502f2-3319-4290-90e4-a50c76dc55f3
6 June 2025
Fan, Yifei
bbeddddc-7963-484e-afa1-7b6e72e1da02
Chan, Duo
4c1278dc-7f39-4b67-b1cd-3f81f55f4906
Clothiaux, Eugene E.
da6a4561-7d12-4805-88f1-6971ea9efa9b
Zhang, Pengfei
7949864f-9334-4c1a-b6e6-a0185b531029
Li, Laifang
7ef502f2-3319-4290-90e4-a50c76dc55f3
Fan, Yifei, Chan, Duo, Clothiaux, Eugene E., Zhang, Pengfei and Li, Laifang
(2025)
Subpolar North Atlantic cooling reinforced by colder, drier atmosphere with a weakening Atlantic meridional overturning circulation.
Science Advances, 11 (23), [eads1624].
(doi:10.1126/sciadv.ads1624).
Abstract
In contrast to global warming, the subpolar North Atlantic has experienced long-term cooling throughout the 20th century. This cooling, known as the North Atlantic cold blob, has been hypothesized to arise from reduced poleward oceanic heat transport associated with a slowdown of the Atlantic meridional overturning circulation (AMOC). Here, by diagnosing historical simulations from multiple coupled climate models, we find that ocean heat transport is not the only pathway through which the AMOC modulates sea surface temperature variability. A weakened AMOC is also associated with colder, drier lower atmospheric conditions, which lead to a reduction in surface warming expected from increasing amounts of heat-trapping gases by reducing downward clear-sky longwave radiation at the surface. This radiative pathway and the oceanic processes contribute equally to the North Atlantic cold blob. These results highlight the importance of the AMOC's impact on atmospheric properties and their radiative effects.
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sciadv.ads1624
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Accepted/In Press date: 30 April 2025
Published date: 6 June 2025
Identifiers
Local EPrints ID: 503505
URI: http://eprints.soton.ac.uk/id/eprint/503505
ISSN: 2375-2548
PURE UUID: 81be2a14-de39-457e-ae34-05c122ef88e8
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Date deposited: 04 Aug 2025 16:47
Last modified: 22 Aug 2025 02:41
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Author:
Yifei Fan
Author:
Duo Chan
Author:
Eugene E. Clothiaux
Author:
Pengfei Zhang
Author:
Laifang Li
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