Freshening by glacial meltwater enhances melting of ice shelves and reduces formation of Antarctic bottom water
Freshening by glacial meltwater enhances melting of ice shelves and reduces formation of Antarctic bottom water
Strong heat loss and brine release during sea ice formation in coastal polynyas act to cool and salinify waters on the Antarctic continental shelf. Polynya activity thus both limits the ocean heat flux to the Antarctic Ice Sheet and promotes formation of Dense Shelf Water (DSW), the precursor to Antarctic Bottom Water. However, despite the presence of strong polynyas, DSW is not formed on the Sabrina Coast in East Antarctica and in the Amundsen Sea in West Antarctica. Using a simple ocean model driven by observed forcing, we show that freshwater input from basal melt of ice shelves partially offsets the salt flux by sea ice formation in polynyas found in both regions, preventing full-depth convection and formation of DSW. In the absence of deep convection, warm water that reaches the continental shelf in the bottom layer does not lose much heat to the atmosphere and is thus available to drive the rapid basal melt observed at the Totten Ice Shelf on the Sabrina Coast and at the Dotson and Getz ice shelves in the Amundsen Sea. Our results suggest that increased glacial meltwater input in a warming climate will both reduce Antarctic Bottom Water formation and trigger increased mass loss from the Antarctic Ice Sheet, with consequences for the global overturning circulation and sea level rise.
Silvano, Alessandro
54a4322b-c52d-4179-a414-dc108c416ec9
Rintoul, Stephen Rich
af574aef-132c-43b5-be4e-a9d12da1602d
Peña-Molino, Beatriz
446d9265-168d-44ac-ab24-a9fd1bd8b946
Hobbs, William Richard
6190e49e-2507-478d-977f-8a492116cd96
Wijk, Esmee van
8bed7754-538c-4302-ba69-dbaa6d794c8c
Aoki, Shigeru
cb751efe-f7e4-4699-9655-61bb4a8ff463
Tamura, Takeshi
6d6ab0db-99cc-43bb-a548-7d6cc9a672d9
Williams, Guy Darvall
d66ca14f-2a3f-4bbd-99cc-216830c974ef
18 April 2018
Silvano, Alessandro
54a4322b-c52d-4179-a414-dc108c416ec9
Rintoul, Stephen Rich
af574aef-132c-43b5-be4e-a9d12da1602d
Peña-Molino, Beatriz
446d9265-168d-44ac-ab24-a9fd1bd8b946
Hobbs, William Richard
6190e49e-2507-478d-977f-8a492116cd96
Wijk, Esmee van
8bed7754-538c-4302-ba69-dbaa6d794c8c
Aoki, Shigeru
cb751efe-f7e4-4699-9655-61bb4a8ff463
Tamura, Takeshi
6d6ab0db-99cc-43bb-a548-7d6cc9a672d9
Williams, Guy Darvall
d66ca14f-2a3f-4bbd-99cc-216830c974ef
Silvano, Alessandro, Rintoul, Stephen Rich, Peña-Molino, Beatriz, Hobbs, William Richard, Wijk, Esmee van, Aoki, Shigeru, Tamura, Takeshi and Williams, Guy Darvall
(2018)
Freshening by glacial meltwater enhances melting of ice shelves and reduces formation of Antarctic bottom water.
Science Advances, 4 (4).
(doi:10.1126/sciadv.aap9467).
Abstract
Strong heat loss and brine release during sea ice formation in coastal polynyas act to cool and salinify waters on the Antarctic continental shelf. Polynya activity thus both limits the ocean heat flux to the Antarctic Ice Sheet and promotes formation of Dense Shelf Water (DSW), the precursor to Antarctic Bottom Water. However, despite the presence of strong polynyas, DSW is not formed on the Sabrina Coast in East Antarctica and in the Amundsen Sea in West Antarctica. Using a simple ocean model driven by observed forcing, we show that freshwater input from basal melt of ice shelves partially offsets the salt flux by sea ice formation in polynyas found in both regions, preventing full-depth convection and formation of DSW. In the absence of deep convection, warm water that reaches the continental shelf in the bottom layer does not lose much heat to the atmosphere and is thus available to drive the rapid basal melt observed at the Totten Ice Shelf on the Sabrina Coast and at the Dotson and Getz ice shelves in the Amundsen Sea. Our results suggest that increased glacial meltwater input in a warming climate will both reduce Antarctic Bottom Water formation and trigger increased mass loss from the Antarctic Ice Sheet, with consequences for the global overturning circulation and sea level rise.
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Published date: 18 April 2018
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Copyright © 2018 The Authors
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Local EPrints ID: 469726
URI: http://eprints.soton.ac.uk/id/eprint/469726
ISSN: 2375-2548
PURE UUID: 7e9606cb-a1dc-40da-9f66-65b82c05d51a
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Date deposited: 23 Sep 2022 16:32
Last modified: 17 Mar 2024 03:59
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Author:
Stephen Rich Rintoul
Author:
Beatriz Peña-Molino
Author:
William Richard Hobbs
Author:
Esmee van Wijk
Author:
Shigeru Aoki
Author:
Takeshi Tamura
Author:
Guy Darvall Williams
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