Deep glacial troughs and stabilizing ridges unveiled beneath the margins of the Antarctic ice sheet

The Antarctic ice sheet has been losing mass over past decades through the accelerated flow of its glaciers, conditioned by ocean temperature and bed topography. Glaciers retreating along retrograde slopes (that is, the bed elevation drops in the inland direction) are potentially unstable, while sub...

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Published in:	Nature Geoscience
Main Authors:	Morlighem, Mathieu, Rignot, Eric, Binder, Tobias, Blankenship, Donald, Drews, Reinhard, Eagles, Graeme, Eisen, Olaf, Ferraccioli, Fausto, Forsberg, René, Fretwell, Peter, Goel, Vikram, Greenbaum, Jamin S., Gudmundsson, Hilmar, Guo, Jingxue, Helm, Veit, Hofstede, Coen, Howat, Ian, Humbert, Angelika, Jokat, Wilfried, Karlsson, Nanna B., Lee, Won Sang, Matsuoka, Kenichi, Millan, Romain, Mouginot, Jeremie, Paden, John, Pattyn, Frank, Roberts, Jason, Rosier, Sebastian, Ruppel, Antonia, Seroussi, Helene, Smith, Emma C., Steinhage, Daniel, Sun, Bo, Broeke, Michiel R.van den, Ommen, Tas D.van, Wessem, Melchior van, Young, Duncan A.
Format:	Article in Journal/Newspaper
Language:	English
Published:	2020
Subjects:	/dk/atira/pure/sustainabledevelopmentgoals/climate_action name=SDG 13 - Climate Action /dk/atira/pure/sustainabledevelopmentgoals/life_below_water name=SDG 14 - Life Below Water /dk/atira/pure/sustainabledevelopmentgoals/life_on_land name=SDG 15 - Life on Land Antarc* Antarctic Antarctica East Antarctica Ice Sheet Lambert Glacier Wilkes Land
Online Access:	https://orbit.dtu.dk/en/publications/3e065ec2-83d8-4c76-92aa-450f3e9c635a https://doi.org/10.1038/s41561-019-0510-8 https://backend.orbit.dtu.dk/ws/files/256219675/BedMachinePaper.pdf

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spelling	ftdtupubl:oai:pure.atira.dk:publications/3e065ec2-83d8-4c76-92aa-450f3e9c635a 2024-09-15T17:45:06+00:00 Deep glacial troughs and stabilizing ridges unveiled beneath the margins of the Antarctic ice sheet Morlighem, Mathieu Rignot, Eric Binder, Tobias Blankenship, Donald Drews, Reinhard Eagles, Graeme Eisen, Olaf Ferraccioli, Fausto Forsberg, René Fretwell, Peter Goel, Vikram Greenbaum, Jamin S. Gudmundsson, Hilmar Guo, Jingxue Helm, Veit Hofstede, Coen Howat, Ian Humbert, Angelika Jokat, Wilfried Karlsson, Nanna B. Lee, Won Sang Matsuoka, Kenichi Millan, Romain Mouginot, Jeremie Paden, John Pattyn, Frank Roberts, Jason Rosier, Sebastian Ruppel, Antonia Seroussi, Helene Smith, Emma C. Steinhage, Daniel Sun, Bo Broeke, Michiel R.van den Ommen, Tas D.van Wessem, Melchior van Young, Duncan A. 2020 application/pdf https://orbit.dtu.dk/en/publications/3e065ec2-83d8-4c76-92aa-450f3e9c635a https://doi.org/10.1038/s41561-019-0510-8 https://backend.orbit.dtu.dk/ws/files/256219675/BedMachinePaper.pdf eng eng https://orbit.dtu.dk/en/publications/3e065ec2-83d8-4c76-92aa-450f3e9c635a info:eu-repo/semantics/openAccess Morlighem , M , Rignot , E , Binder , T , Blankenship , D , Drews , R , Eagles , G , Eisen , O , Ferraccioli , F , Forsberg , R , Fretwell , P , Goel , V , Greenbaum , J S , Gudmundsson , H , Guo , J , Helm , V , Hofstede , C , Howat , I , Humbert , A , Jokat , W , Karlsson , N B , Lee , W S , Matsuoka , K , Millan , R , Mouginot , J , Paden , J , Pattyn , F , Roberts , J , Rosier , S , Ruppel , A , Seroussi , H , Smith , E C , Steinhage , D , Sun , B , Broeke , M R V D , Ommen , T D V , Wessem , M V & Young , D A 2020 , ' Deep glacial troughs and stabilizing ridges unveiled beneath the margins of the Antarctic ice sheet ' , Nature Geoscience , vol. 13 , pp. 132–137 . https://doi.org/10.1038/s41561-019-0510-8 /dk/atira/pure/sustainabledevelopmentgoals/climate_action name=SDG 13 - Climate Action /dk/atira/pure/sustainabledevelopmentgoals/life_below_water name=SDG 14 - Life Below Water /dk/atira/pure/sustainabledevelopmentgoals/life_on_land name=SDG 15 - Life on Land article 2020 ftdtupubl https://doi.org/10.1038/s41561-019-0510-8 2024-08-13T00:03:06Z The Antarctic ice sheet has been losing mass over past decades through the accelerated flow of its glaciers, conditioned by ocean temperature and bed topography. Glaciers retreating along retrograde slopes (that is, the bed elevation drops in the inland direction) are potentially unstable, while subglacial ridges slow down the glacial retreat. Despite major advances in the mapping of subglacial bed topography, significant sectors of Antarctica remain poorly resolved and critical spatial details are missing. Here we present a novel, high-resolution and physically based description of Antarctic bed topography using mass conservation. Our results reveal previously unknown basal features with major implications for glacier response to climate change. For example, glaciers flowing across the Transantarctic Mountains are protected by broad, stabilizing ridges. Conversely, in the marine basin of Wilkes Land, East Antarctica, we find retrograde slopes along Ninnis and Denman glaciers, with stabilizing slopes beneath Moscow University, Totten and Lambert glacier system, despite corrections in bed elevation of up to 1 km for the latter. This transformative description of bed topography redefines the high- and lower-risk sectors for rapid sea level rise from Antarctica; it will also significantly impact model projections of sea level rise from Antarctica in the coming centuries. Article in Journal/Newspaper Antarc* Antarctic Antarctica East Antarctica Ice Sheet Lambert Glacier Wilkes Land Technical University of Denmark: DTU Orbit Nature Geoscience 13 2 132 137
institution	Open Polar
collection	Technical University of Denmark: DTU Orbit
op_collection_id	ftdtupubl
language	English
topic	/dk/atira/pure/sustainabledevelopmentgoals/climate_action name=SDG 13 - Climate Action /dk/atira/pure/sustainabledevelopmentgoals/life_below_water name=SDG 14 - Life Below Water /dk/atira/pure/sustainabledevelopmentgoals/life_on_land name=SDG 15 - Life on Land
spellingShingle	/dk/atira/pure/sustainabledevelopmentgoals/climate_action name=SDG 13 - Climate Action /dk/atira/pure/sustainabledevelopmentgoals/life_below_water name=SDG 14 - Life Below Water /dk/atira/pure/sustainabledevelopmentgoals/life_on_land name=SDG 15 - Life on Land Morlighem, Mathieu Rignot, Eric Binder, Tobias Blankenship, Donald Drews, Reinhard Eagles, Graeme Eisen, Olaf Ferraccioli, Fausto Forsberg, René Fretwell, Peter Goel, Vikram Greenbaum, Jamin S. Gudmundsson, Hilmar Guo, Jingxue Helm, Veit Hofstede, Coen Howat, Ian Humbert, Angelika Jokat, Wilfried Karlsson, Nanna B. Lee, Won Sang Matsuoka, Kenichi Millan, Romain Mouginot, Jeremie Paden, John Pattyn, Frank Roberts, Jason Rosier, Sebastian Ruppel, Antonia Seroussi, Helene Smith, Emma C. Steinhage, Daniel Sun, Bo Broeke, Michiel R.van den Ommen, Tas D.van Wessem, Melchior van Young, Duncan A. Deep glacial troughs and stabilizing ridges unveiled beneath the margins of the Antarctic ice sheet
topic_facet	/dk/atira/pure/sustainabledevelopmentgoals/climate_action name=SDG 13 - Climate Action /dk/atira/pure/sustainabledevelopmentgoals/life_below_water name=SDG 14 - Life Below Water /dk/atira/pure/sustainabledevelopmentgoals/life_on_land name=SDG 15 - Life on Land
description	The Antarctic ice sheet has been losing mass over past decades through the accelerated flow of its glaciers, conditioned by ocean temperature and bed topography. Glaciers retreating along retrograde slopes (that is, the bed elevation drops in the inland direction) are potentially unstable, while subglacial ridges slow down the glacial retreat. Despite major advances in the mapping of subglacial bed topography, significant sectors of Antarctica remain poorly resolved and critical spatial details are missing. Here we present a novel, high-resolution and physically based description of Antarctic bed topography using mass conservation. Our results reveal previously unknown basal features with major implications for glacier response to climate change. For example, glaciers flowing across the Transantarctic Mountains are protected by broad, stabilizing ridges. Conversely, in the marine basin of Wilkes Land, East Antarctica, we find retrograde slopes along Ninnis and Denman glaciers, with stabilizing slopes beneath Moscow University, Totten and Lambert glacier system, despite corrections in bed elevation of up to 1 km for the latter. This transformative description of bed topography redefines the high- and lower-risk sectors for rapid sea level rise from Antarctica; it will also significantly impact model projections of sea level rise from Antarctica in the coming centuries.
format	Article in Journal/Newspaper
author	Morlighem, Mathieu Rignot, Eric Binder, Tobias Blankenship, Donald Drews, Reinhard Eagles, Graeme Eisen, Olaf Ferraccioli, Fausto Forsberg, René Fretwell, Peter Goel, Vikram Greenbaum, Jamin S. Gudmundsson, Hilmar Guo, Jingxue Helm, Veit Hofstede, Coen Howat, Ian Humbert, Angelika Jokat, Wilfried Karlsson, Nanna B. Lee, Won Sang Matsuoka, Kenichi Millan, Romain Mouginot, Jeremie Paden, John Pattyn, Frank Roberts, Jason Rosier, Sebastian Ruppel, Antonia Seroussi, Helene Smith, Emma C. Steinhage, Daniel Sun, Bo Broeke, Michiel R.van den Ommen, Tas D.van Wessem, Melchior van Young, Duncan A.
author_facet	Morlighem, Mathieu Rignot, Eric Binder, Tobias Blankenship, Donald Drews, Reinhard Eagles, Graeme Eisen, Olaf Ferraccioli, Fausto Forsberg, René Fretwell, Peter Goel, Vikram Greenbaum, Jamin S. Gudmundsson, Hilmar Guo, Jingxue Helm, Veit Hofstede, Coen Howat, Ian Humbert, Angelika Jokat, Wilfried Karlsson, Nanna B. Lee, Won Sang Matsuoka, Kenichi Millan, Romain Mouginot, Jeremie Paden, John Pattyn, Frank Roberts, Jason Rosier, Sebastian Ruppel, Antonia Seroussi, Helene Smith, Emma C. Steinhage, Daniel Sun, Bo Broeke, Michiel R.van den Ommen, Tas D.van Wessem, Melchior van Young, Duncan A.
author_sort	Morlighem, Mathieu
title	Deep glacial troughs and stabilizing ridges unveiled beneath the margins of the Antarctic ice sheet
title_short	Deep glacial troughs and stabilizing ridges unveiled beneath the margins of the Antarctic ice sheet
title_full	Deep glacial troughs and stabilizing ridges unveiled beneath the margins of the Antarctic ice sheet
title_fullStr	Deep glacial troughs and stabilizing ridges unveiled beneath the margins of the Antarctic ice sheet
title_full_unstemmed	Deep glacial troughs and stabilizing ridges unveiled beneath the margins of the Antarctic ice sheet
title_sort	deep glacial troughs and stabilizing ridges unveiled beneath the margins of the antarctic ice sheet
publishDate	2020
url	https://orbit.dtu.dk/en/publications/3e065ec2-83d8-4c76-92aa-450f3e9c635a https://doi.org/10.1038/s41561-019-0510-8 https://backend.orbit.dtu.dk/ws/files/256219675/BedMachinePaper.pdf
genre	Antarc* Antarctic Antarctica East Antarctica Ice Sheet Lambert Glacier Wilkes Land
genre_facet	Antarc* Antarctic Antarctica East Antarctica Ice Sheet Lambert Glacier Wilkes Land
op_source	Morlighem , M , Rignot , E , Binder , T , Blankenship , D , Drews , R , Eagles , G , Eisen , O , Ferraccioli , F , Forsberg , R , Fretwell , P , Goel , V , Greenbaum , J S , Gudmundsson , H , Guo , J , Helm , V , Hofstede , C , Howat , I , Humbert , A , Jokat , W , Karlsson , N B , Lee , W S , Matsuoka , K , Millan , R , Mouginot , J , Paden , J , Pattyn , F , Roberts , J , Rosier , S , Ruppel , A , Seroussi , H , Smith , E C , Steinhage , D , Sun , B , Broeke , M R V D , Ommen , T D V , Wessem , M V & Young , D A 2020 , ' Deep glacial troughs and stabilizing ridges unveiled beneath the margins of the Antarctic ice sheet ' , Nature Geoscience , vol. 13 , pp. 132–137 . https://doi.org/10.1038/s41561-019-0510-8
op_relation	https://orbit.dtu.dk/en/publications/3e065ec2-83d8-4c76-92aa-450f3e9c635a
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op_doi	https://doi.org/10.1038/s41561-019-0510-8
container_title	Nature Geoscience
container_volume	13
container_issue	2
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Deep glacial troughs and stabilizing ridges unveiled beneath the margins of the Antarctic ice sheet

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