Distribution and seasonal evolution of supraglacial lakes on Shackleton Ice Shelf, East Antarctica

Supraglacial lakes (SGLs) enhance surface melting and can flex and fracture ice shelves when they grow and subsequently drain, potentially leading to ice shelf disintegration. However, the seasonal evolution of SGLs and their influence on ice shelf stability in East Antarctica remains poorly underst...

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Published in:The Cryosphere
Main Authors: J. F. Arthur, C. R. Stokes, S. S. R. Jamieson, J. R. Carr, A. A. Leeson
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2020
Subjects:
Environmental sciences
GE1-350
Geology
QE1-996.5
Antarctic
East Antarctica
East Antarctic Ice Sheet
Shackleton
Shackleton Ice Shelf
Denman Glacier
Antarc*
Antarctica
Ice Sheet
Ice Shelf
Ice Shelves
The Cryosphere
Online Access:https://doi.org/10.5194/tc-14-4103-2020
https://doaj.org/article/d34b377caa59459c9dbbe1f53dcfedbb
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spelling ftdoajarticles:oai:doaj.org/article:d34b377caa59459c9dbbe1f53dcfedbb 2023-05-15T13:54:39+02:00 Distribution and seasonal evolution of supraglacial lakes on Shackleton Ice Shelf, East Antarctica J. F. Arthur C. R. Stokes S. S. R. Jamieson J. R. Carr A. A. Leeson 2020-11-01T00:00:00Z https://doi.org/10.5194/tc-14-4103-2020 https://doaj.org/article/d34b377caa59459c9dbbe1f53dcfedbb EN eng Copernicus Publications https://tc.copernicus.org/articles/14/4103/2020/tc-14-4103-2020.pdf https://doaj.org/toc/1994-0416 https://doaj.org/toc/1994-0424 doi:10.5194/tc-14-4103-2020 1994-0416 1994-0424 https://doaj.org/article/d34b377caa59459c9dbbe1f53dcfedbb The Cryosphere, Vol 14, Pp 4103-4120 (2020) Environmental sciences GE1-350 Geology QE1-996.5 article 2020 ftdoajarticles https://doi.org/10.5194/tc-14-4103-2020 2022-12-31T13:36:52Z Supraglacial lakes (SGLs) enhance surface melting and can flex and fracture ice shelves when they grow and subsequently drain, potentially leading to ice shelf disintegration. However, the seasonal evolution of SGLs and their influence on ice shelf stability in East Antarctica remains poorly understood, despite some potentially vulnerable ice shelves having high densities of SGLs. Using optical satellite imagery, air temperature data from climate reanalysis products and surface melt predicted by a regional climate model, we present the first long-term record (2000–2020) of seasonal SGL evolution on Shackleton Ice Shelf, which is Antarctica's northernmost remaining ice shelf and buttresses Denman Glacier, a major outlet of the East Antarctic Ice Sheet. In a typical melt season, we find hundreds of SGLs with a mean area of 0.02 km 2 , a mean depth of 0.96 m and a mean total meltwater volume of 7.45×10 6 m 3 . At their most extensive, SGLs cover a cumulative area of 50.7 km 2 and are clustered near to the grounding line, where densities approach 0.27 km 2 km −2 . Here, SGL development is linked to an albedo-lowering feedback associated with katabatic winds, together with the presence of blue ice and exposed rock. Although below-average seasonal (December–January–February, DJF) temperatures are associated with below-average peaks in total SGL area and volume, warmer seasonal temperatures do not necessarily result in higher SGL areas and volumes. Rather, peaks in total SGL area and volume show a much closer correspondence with short-lived high-magnitude snowmelt events. We therefore suggest seasonal lake evolution on this ice shelf is instead more sensitive to snowmelt intensity associated with katabatic-wind-driven melting. Our analysis provides important constraints on the boundary conditions of supraglacial hydrology models and numerical simulations of ice shelf stability. Article in Journal/Newspaper Antarc* Antarctic Antarctica Denman Glacier East Antarctica Ice Sheet Ice Shelf Ice Shelves Shackleton Ice Shelf The Cryosphere Directory of Open Access Journals: DOAJ Articles Antarctic East Antarctica East Antarctic Ice Sheet Shackleton Shackleton Ice Shelf ENVELOPE(100.504,100.504,-65.996,-65.996) Denman Glacier ENVELOPE(99.417,99.417,-66.750,-66.750) The Cryosphere 14 11 4103 4120
institution Open Polar
collection Directory of Open Access Journals: DOAJ Articles
op_collection_id ftdoajarticles
language English
topic Environmental sciences
GE1-350
Geology
QE1-996.5
spellingShingle Environmental sciences
GE1-350
Geology
QE1-996.5
J. F. Arthur
C. R. Stokes
S. S. R. Jamieson
J. R. Carr
A. A. Leeson
Distribution and seasonal evolution of supraglacial lakes on Shackleton Ice Shelf, East Antarctica
topic_facet Environmental sciences
GE1-350
Geology
QE1-996.5
description Supraglacial lakes (SGLs) enhance surface melting and can flex and fracture ice shelves when they grow and subsequently drain, potentially leading to ice shelf disintegration. However, the seasonal evolution of SGLs and their influence on ice shelf stability in East Antarctica remains poorly understood, despite some potentially vulnerable ice shelves having high densities of SGLs. Using optical satellite imagery, air temperature data from climate reanalysis products and surface melt predicted by a regional climate model, we present the first long-term record (2000–2020) of seasonal SGL evolution on Shackleton Ice Shelf, which is Antarctica's northernmost remaining ice shelf and buttresses Denman Glacier, a major outlet of the East Antarctic Ice Sheet. In a typical melt season, we find hundreds of SGLs with a mean area of 0.02 km 2 , a mean depth of 0.96 m and a mean total meltwater volume of 7.45×10 6 m 3 . At their most extensive, SGLs cover a cumulative area of 50.7 km 2 and are clustered near to the grounding line, where densities approach 0.27 km 2 km −2 . Here, SGL development is linked to an albedo-lowering feedback associated with katabatic winds, together with the presence of blue ice and exposed rock. Although below-average seasonal (December–January–February, DJF) temperatures are associated with below-average peaks in total SGL area and volume, warmer seasonal temperatures do not necessarily result in higher SGL areas and volumes. Rather, peaks in total SGL area and volume show a much closer correspondence with short-lived high-magnitude snowmelt events. We therefore suggest seasonal lake evolution on this ice shelf is instead more sensitive to snowmelt intensity associated with katabatic-wind-driven melting. Our analysis provides important constraints on the boundary conditions of supraglacial hydrology models and numerical simulations of ice shelf stability.
format Article in Journal/Newspaper
author J. F. Arthur
C. R. Stokes
S. S. R. Jamieson
J. R. Carr
A. A. Leeson
author_facet J. F. Arthur
C. R. Stokes
S. S. R. Jamieson
J. R. Carr
A. A. Leeson
author_sort J. F. Arthur
title Distribution and seasonal evolution of supraglacial lakes on Shackleton Ice Shelf, East Antarctica
title_short Distribution and seasonal evolution of supraglacial lakes on Shackleton Ice Shelf, East Antarctica
title_full Distribution and seasonal evolution of supraglacial lakes on Shackleton Ice Shelf, East Antarctica
title_fullStr Distribution and seasonal evolution of supraglacial lakes on Shackleton Ice Shelf, East Antarctica
title_full_unstemmed Distribution and seasonal evolution of supraglacial lakes on Shackleton Ice Shelf, East Antarctica
title_sort distribution and seasonal evolution of supraglacial lakes on shackleton ice shelf, east antarctica
publisher Copernicus Publications
publishDate 2020
url https://doi.org/10.5194/tc-14-4103-2020
https://doaj.org/article/d34b377caa59459c9dbbe1f53dcfedbb
long_lat ENVELOPE(100.504,100.504,-65.996,-65.996)
ENVELOPE(99.417,99.417,-66.750,-66.750)
geographic Antarctic
East Antarctica
East Antarctic Ice Sheet
Shackleton
Shackleton Ice Shelf
Denman Glacier
geographic_facet Antarctic
East Antarctica
East Antarctic Ice Sheet
Shackleton
Shackleton Ice Shelf
Denman Glacier
genre Antarc*
Antarctic
Antarctica
Denman Glacier
East Antarctica
Ice Sheet
Ice Shelf
Ice Shelves
Shackleton Ice Shelf
The Cryosphere
genre_facet Antarc*
Antarctic
Antarctica
Denman Glacier
East Antarctica
Ice Sheet
Ice Shelf
Ice Shelves
Shackleton Ice Shelf
The Cryosphere
op_source The Cryosphere, Vol 14, Pp 4103-4120 (2020)
op_relation https://tc.copernicus.org/articles/14/4103/2020/tc-14-4103-2020.pdf
https://doaj.org/toc/1994-0416
https://doaj.org/toc/1994-0424
doi:10.5194/tc-14-4103-2020
1994-0416
1994-0424
https://doaj.org/article/d34b377caa59459c9dbbe1f53dcfedbb
op_doi https://doi.org/10.5194/tc-14-4103-2020
container_title The Cryosphere
container_volume 14
container_issue 11
container_start_page 4103
op_container_end_page 4120
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