Internal tsunamigenesis and ocean mixing driven by glacier calving in Antarctica

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

doi:10.1126/sciadv.add0720

Internal tsunamigenesis and ocean mixing driven by glacier calving in Antarctica

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

SAMS UHI

Publikation: Article › Begutachtung

15 Zitate (Scopus)

103 Downloads (Pure)

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.

Originalsprache	English
Aufsatznummer	eadd0720
Seitenumfang	11
Fachzeitschrift	Science Advances
Jahrgang	8
Ausgabenummer	47
DOIs	https://doi.org/10.1126/sciadv.add0720
Publikationsstatus	Published - 23 Nov. 2022

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10.1126/sciadv.add0720Lizenz: CC BY

sciadv.add0720Final published version, 2,98 MBLizenz: CC BY

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Meredith, M. P., Inall, M. E., Brearley, J. A., Ehmen, T., Sheen, K., Munday, D., Cook, A., Retallick, K., Van Landeghem, K., Gerrish, L., Annett, A., Carvalho, F., Jones, R., Naveira Garabato, A. C., Bull, C. Y. S., Wallis, B. J., Hogg, A. E., & Scourse, J. (2022). Internal tsunamigenesis and ocean mixing driven by glacier calving in Antarctica. Science Advances, 8(47), Artikel eadd0720. https://doi.org/10.1126/sciadv.add0720

@article{240ffd38ddd44963a25e0d8284604d3d,

title = "Internal tsunamigenesis and ocean mixing driven by glacier calving in Antarctica",

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.",

author = "Meredith, \{Michael P.\} and Inall, \{Mark E.\} and Brearley, \{J. Alexander\} and Tobias Ehmen and Katy Sheen and David Munday and Alison Cook and Katherine Retallick and \{Van Landeghem\}, Katrien and Laura Gerrish and Amber Annett and Filipa Carvalho and Rhiannon Jones and \{Naveira Garabato\}, \{Alberto C.\} and Bull, \{Christopher Y.S.\} and Wallis, \{Benjamin J.\} and Hogg, \{Anna E.\} and James Scourse",

note = "Copyright {\textcopyright} 2022 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution License 4.0 (CC BY).",

year = "2022",

month = nov,

day = "23",

doi = "10.1126/sciadv.add0720",

language = "English",

volume = "8",

journal = "Science Advances",

issn = "2375-2548",

publisher = "American Association for the Advancement of Science",

number = "47",

}

Meredith, MP, Inall, ME, Brearley, JA, Ehmen, T, Sheen, K, Munday, D, Cook, A, Retallick, K, Van Landeghem, K, Gerrish, L, Annett, A, Carvalho, F, Jones, R, Naveira Garabato, AC, Bull, CYS, Wallis, BJ, Hogg, AE & Scourse, J 2022, 'Internal tsunamigenesis and ocean mixing driven by glacier calving in Antarctica', Science Advances, Jg. 8, Nr. 47, eadd0720. https://doi.org/10.1126/sciadv.add0720

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T1 - Internal tsunamigenesis and ocean mixing driven by glacier calving in Antarctica

AU - Meredith, Michael P.

AU - Inall, Mark E.

AU - Brearley, J. Alexander

AU - Ehmen, Tobias

AU - Sheen, Katy

AU - Munday, David

AU - Cook, Alison

AU - Retallick, Katherine

AU - Van Landeghem, Katrien

AU - Gerrish, Laura

AU - Annett, Amber

AU - Carvalho, Filipa

AU - Jones, Rhiannon

AU - Naveira Garabato, Alberto C.

AU - Bull, Christopher Y.S.

AU - Wallis, Benjamin J.

AU - Hogg, Anna E.

AU - Scourse, James

N1 - Copyright © 2022 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution License 4.0 (CC BY).

PY - 2022/11/23

Y1 - 2022/11/23

N2 - 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.

AB - 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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JO - Science Advances

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Internal tsunamigenesis and ocean mixing driven by glacier calving in Antarctica

Abstract

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