Initiation and long-term instability of the East Antarctic Ice Sheet

© 2017 Macmillan Publishers Limited, part of Springer Nature. All rights reserved. Antarctica's continental-scale ice sheets have evolved over the past 50 million years. However, the dearth of ice-proximal geological records limits our understanding of past East Antarctic Ice Sheet (EAIS) behav...

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Published in:Nature
Main Authors: Gulick, Sean P.S., Shevenell, Amelia E., Montelli, Aleksandr, Fernandez, Rodrigo, Smith, Catherine, Warny, Sophie, Bohaty, Steven M., Sjunneskog, Charlotte, Leventer, Amy, Frederick, Bruce, Blankenship, Donald D.
Format: Text
Language:unknown
Published: LSU Digital Commons 2017
Subjects:
Antarctic
East Antarctic Ice Sheet
Sabrina Coast
Antarc*
Ice Sheet
Online Access:https://digitalcommons.lsu.edu/geo_pubs/1043
https://doi.org/10.1038/nature25026
https://digitalcommons.lsu.edu/context/geo_pubs/article/2042/viewcontent/1043.pdf
id ftlouisianastuir:oai:digitalcommons.lsu.edu:geo_pubs-2042
record_format openpolar
spelling ftlouisianastuir:oai:digitalcommons.lsu.edu:geo_pubs-2042 2023-06-11T04:06:48+02:00 Initiation and long-term instability of the East Antarctic Ice Sheet Gulick, Sean P.S. Shevenell, Amelia E. Montelli, Aleksandr Fernandez, Rodrigo Smith, Catherine Warny, Sophie Bohaty, Steven M. Sjunneskog, Charlotte Leventer, Amy Frederick, Bruce Blankenship, Donald D. 2017-12-13T08:00:00Z application/pdf https://digitalcommons.lsu.edu/geo_pubs/1043 https://doi.org/10.1038/nature25026 https://digitalcommons.lsu.edu/context/geo_pubs/article/2042/viewcontent/1043.pdf unknown LSU Digital Commons https://digitalcommons.lsu.edu/geo_pubs/1043 doi:10.1038/nature25026 https://digitalcommons.lsu.edu/context/geo_pubs/article/2042/viewcontent/1043.pdf Faculty Publications text 2017 ftlouisianastuir https://doi.org/10.1038/nature25026 2023-05-28T18:25:11Z © 2017 Macmillan Publishers Limited, part of Springer Nature. All rights reserved. Antarctica's continental-scale ice sheets have evolved over the past 50 million years. However, the dearth of ice-proximal geological records limits our understanding of past East Antarctic Ice Sheet (EAIS) behaviour and thus our ability to evaluate its response to ongoing environmental change. The EAIS is marine-terminating and grounded below sea level within the Aurora subglacial basin, indicating that this catchment, which drains ice to the Sabrina Coast, may be sensitive to climate perturbations. Here we show, using marine geological and geophysical data from the continental shelf seaward of the Aurora subglacial basin, that marine-terminating glaciers existed at the Sabrina Coast by the early to middle Eocene epoch. This finding implies the existence of substantial ice volume in the Aurora subglacial basin before continental-scale ice sheets were established about 34 million years ago. Subsequently, ice advanced across and retreated from the Sabrina Coast continental shelf at least 11 times during the Oligocene and Miocene epochs. Tunnel valleys associated with half of these glaciations indicate that a surface-meltwater-rich sub-polar glacial system existed under climate conditions similar to those anticipated with continued anthropogenic warming. Cooling since the late Miocene resulted in an expanded polar EAIS and a limited glacial response to Pliocene warmth in the Aurora subglacial basin catchment. Geological records from the Sabrina Coast shelf indicate that, in addition to ocean temperature, atmospheric temperature and surface-derived meltwater influenced East Antarctic ice mass balance under warmer-than-present climate conditions. Our results imply a dynamic EAIS response with continued anthropogenic warming and suggest that the EAIS contribution to future global sea-level projections may be under-estimated. Text Antarc* Antarctic Ice Sheet LSU Digital Commons (Louisiana State University) Antarctic East Antarctic Ice Sheet Sabrina Coast ENVELOPE(118.550,118.550,-67.000,-67.000) Nature 552 7684 225 229
institution Open Polar
collection LSU Digital Commons (Louisiana State University)
op_collection_id ftlouisianastuir
language unknown
description © 2017 Macmillan Publishers Limited, part of Springer Nature. All rights reserved. Antarctica's continental-scale ice sheets have evolved over the past 50 million years. However, the dearth of ice-proximal geological records limits our understanding of past East Antarctic Ice Sheet (EAIS) behaviour and thus our ability to evaluate its response to ongoing environmental change. The EAIS is marine-terminating and grounded below sea level within the Aurora subglacial basin, indicating that this catchment, which drains ice to the Sabrina Coast, may be sensitive to climate perturbations. Here we show, using marine geological and geophysical data from the continental shelf seaward of the Aurora subglacial basin, that marine-terminating glaciers existed at the Sabrina Coast by the early to middle Eocene epoch. This finding implies the existence of substantial ice volume in the Aurora subglacial basin before continental-scale ice sheets were established about 34 million years ago. Subsequently, ice advanced across and retreated from the Sabrina Coast continental shelf at least 11 times during the Oligocene and Miocene epochs. Tunnel valleys associated with half of these glaciations indicate that a surface-meltwater-rich sub-polar glacial system existed under climate conditions similar to those anticipated with continued anthropogenic warming. Cooling since the late Miocene resulted in an expanded polar EAIS and a limited glacial response to Pliocene warmth in the Aurora subglacial basin catchment. Geological records from the Sabrina Coast shelf indicate that, in addition to ocean temperature, atmospheric temperature and surface-derived meltwater influenced East Antarctic ice mass balance under warmer-than-present climate conditions. Our results imply a dynamic EAIS response with continued anthropogenic warming and suggest that the EAIS contribution to future global sea-level projections may be under-estimated.
format Text
author Gulick, Sean P.S.
Shevenell, Amelia E.
Montelli, Aleksandr
Fernandez, Rodrigo
Smith, Catherine
Warny, Sophie
Bohaty, Steven M.
Sjunneskog, Charlotte
Leventer, Amy
Frederick, Bruce
Blankenship, Donald D.
spellingShingle Gulick, Sean P.S.
Shevenell, Amelia E.
Montelli, Aleksandr
Fernandez, Rodrigo
Smith, Catherine
Warny, Sophie
Bohaty, Steven M.
Sjunneskog, Charlotte
Leventer, Amy
Frederick, Bruce
Blankenship, Donald D.
Initiation and long-term instability of the East Antarctic Ice Sheet
author_facet Gulick, Sean P.S.
Shevenell, Amelia E.
Montelli, Aleksandr
Fernandez, Rodrigo
Smith, Catherine
Warny, Sophie
Bohaty, Steven M.
Sjunneskog, Charlotte
Leventer, Amy
Frederick, Bruce
Blankenship, Donald D.
author_sort Gulick, Sean P.S.
title Initiation and long-term instability of the East Antarctic Ice Sheet
title_short Initiation and long-term instability of the East Antarctic Ice Sheet
title_full Initiation and long-term instability of the East Antarctic Ice Sheet
title_fullStr Initiation and long-term instability of the East Antarctic Ice Sheet
title_full_unstemmed Initiation and long-term instability of the East Antarctic Ice Sheet
title_sort initiation and long-term instability of the east antarctic ice sheet
publisher LSU Digital Commons
publishDate 2017
url https://digitalcommons.lsu.edu/geo_pubs/1043
https://doi.org/10.1038/nature25026
https://digitalcommons.lsu.edu/context/geo_pubs/article/2042/viewcontent/1043.pdf
long_lat ENVELOPE(118.550,118.550,-67.000,-67.000)
geographic Antarctic
East Antarctic Ice Sheet
Sabrina Coast
geographic_facet Antarctic
East Antarctic Ice Sheet
Sabrina Coast
genre Antarc*
Antarctic
Ice Sheet
genre_facet Antarc*
Antarctic
Ice Sheet
op_source Faculty Publications
op_relation https://digitalcommons.lsu.edu/geo_pubs/1043
doi:10.1038/nature25026
https://digitalcommons.lsu.edu/context/geo_pubs/article/2042/viewcontent/1043.pdf
op_doi https://doi.org/10.1038/nature25026
container_title Nature
container_volume 552
container_issue 7684
container_start_page 225
op_container_end_page 229
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