Wind causes Totten Ice Shelf melt and acceleration
Wind causes Totten Ice Shelf melt and acceleration
Totten Glacier in East Antarctica has the potential to raise global sea level by at least 3.5 m, but its sensitivity to climate change has not been well understood. The glacier is coupled to the ocean by the Totten Ice Shelf, which has exhibited variable speed, thickness, and grounding line position in recent years. To understand the drivers of this interannual variability, we compare ice velocity to oceanic wind stress and find a consistent pattern of ice-shelf acceleration 19 months after upwelling anomalies occur at the continental shelf break nearby. The sensitivity to climate forcing we observe is a response to wind-driven redistribution of oceanic heat and is independent of large-scale warming of the atmosphere or ocean. Our results establish a link between the stability of Totten Glacier and upwelling near the East Antarctic coast, where surface winds are projected to intensify over the next century as a result of increasing atmospheric greenhouse gas concentrations.
Greene, Chad A.
fd6976e9-f8eb-4c07-9180-e4e859069854
Blankenship, Donald D.
e7c273e4-0aab-4a3f-869b-54b78959233b
Gwyther, David E.
ede5ab85-e944-4e09-97a0-40bb08f2e1ae
Silvano, Alessandro
54a4322b-c52d-4179-a414-dc108c416ec9
van Wijk, Esmee
a22d3dc2-b17a-4cad-8073-d78b37eef00d
1 November 2017
Greene, Chad A.
fd6976e9-f8eb-4c07-9180-e4e859069854
Blankenship, Donald D.
e7c273e4-0aab-4a3f-869b-54b78959233b
Gwyther, David E.
ede5ab85-e944-4e09-97a0-40bb08f2e1ae
Silvano, Alessandro
54a4322b-c52d-4179-a414-dc108c416ec9
van Wijk, Esmee
a22d3dc2-b17a-4cad-8073-d78b37eef00d
Greene, Chad A., Blankenship, Donald D., Gwyther, David E., Silvano, Alessandro and van Wijk, Esmee
(2017)
Wind causes Totten Ice Shelf melt and acceleration.
Science Advances, 3 (11).
(doi:10.1126/sciadv.1701681).
Abstract
Totten Glacier in East Antarctica has the potential to raise global sea level by at least 3.5 m, but its sensitivity to climate change has not been well understood. The glacier is coupled to the ocean by the Totten Ice Shelf, which has exhibited variable speed, thickness, and grounding line position in recent years. To understand the drivers of this interannual variability, we compare ice velocity to oceanic wind stress and find a consistent pattern of ice-shelf acceleration 19 months after upwelling anomalies occur at the continental shelf break nearby. The sensitivity to climate forcing we observe is a response to wind-driven redistribution of oceanic heat and is independent of large-scale warming of the atmosphere or ocean. Our results establish a link between the stability of Totten Glacier and upwelling near the East Antarctic coast, where surface winds are projected to intensify over the next century as a result of increasing atmospheric greenhouse gas concentrations.
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Published date: 1 November 2017
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Copyright © 2017 The Authors
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Local EPrints ID: 469728
URI: http://eprints.soton.ac.uk/id/eprint/469728
ISSN: 2375-2548
PURE UUID: 2d6c2374-8345-48b0-8f4f-2ae6c1f7d9e1
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Date deposited: 23 Sep 2022 16:32
Last modified: 17 Mar 2024 03:59
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Author:
Chad A. Greene
Author:
Donald D. Blankenship
Author:
David E. Gwyther
Author:
Esmee van Wijk
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