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Internal tsunamigenesis and ocean mixing driven by glacier calving in Antarctica

Internal tsunamigenesis and ocean mixing driven by glacier calving in Antarctica
Internal tsunamigenesis and ocean mixing driven by glacier calving in Antarctica
Ocean mixing around Antarctica exerts key influences on glacier dynamics and ice shelf retreats, sea ice, and marine productivity, thus affecting global sea level and climate. The conventional paradigm is that this is dominated by winds, tides, and buoyancy forcing. Direct observations from the Antarctic Peninsula demonstrate that glacier calving triggers internal tsunamis, the breaking of which drives vigorous mixing. Being widespread and frequent, these internal tsunamis are at least comparable to winds, and much more important than tides, in driving regional shelf mixing. They are likely relevant everywhere that marine-terminating glaciers calve, including Greenland and across the Arctic. Calving frequency may change with higher ocean temperatures, suggesting possible shifts to internal tsunamigenesis and mixing in a warming climate.
2375-2548
Meredith, Michael
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Inall, Mark
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Brearley, J. Alexander
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Ehmen, Tobias
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Sheen, Katy
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Munday, David
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Cook, Alison
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Retallick, Kate
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Landeghem, Katrien Van
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Gerrish, Laura
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Annett, Amber
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Carvalho, Filipa
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Jones, Rhiannon
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Garabato, Alberto Naveira
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Bull, Christopher Y.S.
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Wallis, Benjamin J.
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Hogg, Anna
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Scourse, James
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Meredith, Michael
dee29068-3837-47fd-8d92-7fa6cd7a49d0
Inall, Mark
fab832f2-d73b-4bfc-8634-dd940d52ae1f
Brearley, J. Alexander
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Ehmen, Tobias
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Sheen, Katy
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Munday, David
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Cook, Alison
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Retallick, Kate
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Landeghem, Katrien Van
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Gerrish, Laura
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Annett, Amber
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Carvalho, Filipa
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Jones, Rhiannon
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Garabato, Alberto Naveira
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Bull, Christopher Y.S.
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Wallis, Benjamin J.
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Hogg, Anna
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Scourse, James
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Meredith, Michael, Inall, Mark, Brearley, J. Alexander, Ehmen, Tobias, Sheen, Katy, Munday, David, Cook, Alison, Retallick, Kate, Landeghem, Katrien Van, Gerrish, Laura, Annett, Amber, Carvalho, Filipa, Jones, Rhiannon, Garabato, Alberto Naveira, Bull, Christopher Y.S., Wallis, Benjamin J., Hogg, Anna and Scourse, James (2022) Internal tsunamigenesis and ocean mixing driven by glacier calving in Antarctica. Science Advances, 8 (47), [eadd0720]. (doi:10.1126/sciadv.add0720).

Record type: Article

Abstract

Ocean mixing around Antarctica exerts key influences on glacier dynamics and ice shelf retreats, sea ice, and marine productivity, thus affecting global sea level and climate. The conventional paradigm is that this is dominated by winds, tides, and buoyancy forcing. Direct observations from the Antarctic Peninsula demonstrate that glacier calving triggers internal tsunamis, the breaking of which drives vigorous mixing. Being widespread and frequent, these internal tsunamis are at least comparable to winds, and much more important than tides, in driving regional shelf mixing. They are likely relevant everywhere that marine-terminating glaciers calve, including Greenland and across the Arctic. Calving frequency may change with higher ocean temperatures, suggesting possible shifts to internal tsunamigenesis and mixing in a warming climate.

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sciadv.add0720 - Version of Record
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Accepted/In Press date: 29 September 2022
Published date: 25 November 2022
Learn more about School of Ocean and Earth Science research

Identifiers

Local EPrints ID: 478840
URI: http://eprints.soton.ac.uk/id/eprint/478840
DOI: doi:10.1126/sciadv.add0720
ISSN: 2375-2548
PURE UUID: 04a9b5ef-761a-4d1e-8f6d-b8dc73719403
ORCID for Amber Annett: ORCID iD orcid.org/0000-0002-3730-2438
ORCID for Rhiannon Jones: ORCID iD orcid.org/0000-0002-3182-9685
ORCID for Alberto Naveira Garabato: ORCID iD orcid.org/0000-0001-6071-605X

Catalogue record

Date deposited: 11 Jul 2023 17:03
Last modified: 18 Mar 2024 03:03

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Contributors

Author: Michael Meredith
Author: Mark Inall
Author: J. Alexander Brearley
Author: Tobias Ehmen
Author: Katy Sheen
Author: David Munday
Author: Alison Cook
Author: Kate Retallick
Author: Katrien Van Landeghem
Author: Laura Gerrish
Author: Amber Annett ORCID iD
Author: Filipa Carvalho
Author: Rhiannon Jones ORCID iD
Author: Alberto Naveira Garabato ORCID iD
Author: Christopher Y.S. Bull
Author: Benjamin J. Wallis
Author: Anna Hogg
Author: James Scourse

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