Global warming due to loss of large ice masses and Arctic summer sea ice

Several large-scale cryosphere elements such as the Arctic summer sea ice, the mountain glaciers, the Greenland and West Antarctic Ice Sheet have changed substantially during the last century due to anthropogenic global warming. However, the impacts of their possible future disintegration on global...

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Main Authors: Wunderling, Nico, Willeit, Matteo, Donges, Jonathan F., Winkelmann, Ricarda
Format: Article in Journal/Newspaper
Language:English
Published: [London] : Nature Publishing Group UK 2020
Subjects:
500
Online Access:https://oa.tib.eu/renate/handle/123456789/10321
https://doi.org/10.34657/9357
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spelling ftleibnizopen:oai:oai.leibnizopen.de:dC_SeYsBBwLIz6xGofVz 2023-11-12T04:00:03+01:00 Global warming due to loss of large ice masses and Arctic summer sea ice Wunderling, Nico Willeit, Matteo Donges, Jonathan F. Winkelmann, Ricarda 2020 application/pdf https://oa.tib.eu/renate/handle/123456789/10321 https://doi.org/10.34657/9357 eng eng [London] : Nature Publishing Group UK CC BY 4.0 Unported https://creativecommons.org/licenses/by/4.0/ Nature Communications 11 (2020) carbon dioxide albedo anthropogenic effect arctic environment climate feedback climate modeling cryosphere glacier mass balance global warming ice sheet mountain environment sea ice summer timescale twenty first century cloud greenhouse effect temperature water vapor Antarctic Antarctica Arctic Greenland West Antarctica 500 article Text 2020 ftleibnizopen https://doi.org/10.34657/9357 2023-10-30T00:36:52Z Several large-scale cryosphere elements such as the Arctic summer sea ice, the mountain glaciers, the Greenland and West Antarctic Ice Sheet have changed substantially during the last century due to anthropogenic global warming. However, the impacts of their possible future disintegration on global mean temperature (GMT) and climate feedbacks have not yet been comprehensively evaluated. Here, we quantify this response using an Earth system model of intermediate complexity. Overall, we find a median additional global warming of 0.43 °C (interquartile range: 0.39−0.46 °C) at a CO2 concentration of 400 ppm. Most of this response (55%) is caused by albedo changes, but lapse rate together with water vapour (30%) and cloud feedbacks (15%) also contribute significantly. While a decay of the ice sheets would occur on centennial to millennial time scales, the Arctic might become ice-free during summer within the 21st century. Our findings imply an additional increase of the GMT on intermediate to long time scales. publishedVersion Article in Journal/Newspaper albedo Antarc* Antarctic Antarctica Arctic glacier Global warming Greenland Ice Sheet Sea ice West Antarctica Unknown
institution Open Polar
collection Unknown
op_collection_id ftleibnizopen
language English
topic carbon dioxide
albedo
anthropogenic effect
arctic environment
climate feedback
climate modeling
cryosphere
glacier mass balance
global warming
ice sheet
mountain environment
sea ice
summer
timescale
twenty first century
cloud
greenhouse effect
temperature
water vapor
Antarctic
Antarctica
Arctic
Greenland
West Antarctica
500
spellingShingle carbon dioxide
albedo
anthropogenic effect
arctic environment
climate feedback
climate modeling
cryosphere
glacier mass balance
global warming
ice sheet
mountain environment
sea ice
summer
timescale
twenty first century
cloud
greenhouse effect
temperature
water vapor
Antarctic
Antarctica
Arctic
Greenland
West Antarctica
500
Wunderling, Nico
Willeit, Matteo
Donges, Jonathan F.
Winkelmann, Ricarda
Global warming due to loss of large ice masses and Arctic summer sea ice
topic_facet carbon dioxide
albedo
anthropogenic effect
arctic environment
climate feedback
climate modeling
cryosphere
glacier mass balance
global warming
ice sheet
mountain environment
sea ice
summer
timescale
twenty first century
cloud
greenhouse effect
temperature
water vapor
Antarctic
Antarctica
Arctic
Greenland
West Antarctica
500
description Several large-scale cryosphere elements such as the Arctic summer sea ice, the mountain glaciers, the Greenland and West Antarctic Ice Sheet have changed substantially during the last century due to anthropogenic global warming. However, the impacts of their possible future disintegration on global mean temperature (GMT) and climate feedbacks have not yet been comprehensively evaluated. Here, we quantify this response using an Earth system model of intermediate complexity. Overall, we find a median additional global warming of 0.43 °C (interquartile range: 0.39−0.46 °C) at a CO2 concentration of 400 ppm. Most of this response (55%) is caused by albedo changes, but lapse rate together with water vapour (30%) and cloud feedbacks (15%) also contribute significantly. While a decay of the ice sheets would occur on centennial to millennial time scales, the Arctic might become ice-free during summer within the 21st century. Our findings imply an additional increase of the GMT on intermediate to long time scales. publishedVersion
format Article in Journal/Newspaper
author Wunderling, Nico
Willeit, Matteo
Donges, Jonathan F.
Winkelmann, Ricarda
author_facet Wunderling, Nico
Willeit, Matteo
Donges, Jonathan F.
Winkelmann, Ricarda
author_sort Wunderling, Nico
title Global warming due to loss of large ice masses and Arctic summer sea ice
title_short Global warming due to loss of large ice masses and Arctic summer sea ice
title_full Global warming due to loss of large ice masses and Arctic summer sea ice
title_fullStr Global warming due to loss of large ice masses and Arctic summer sea ice
title_full_unstemmed Global warming due to loss of large ice masses and Arctic summer sea ice
title_sort global warming due to loss of large ice masses and arctic summer sea ice
publisher [London] : Nature Publishing Group UK
publishDate 2020
url https://oa.tib.eu/renate/handle/123456789/10321
https://doi.org/10.34657/9357
genre albedo
Antarc*
Antarctic
Antarctica
Arctic
glacier
Global warming
Greenland
Ice Sheet
Sea ice
West Antarctica
genre_facet albedo
Antarc*
Antarctic
Antarctica
Arctic
glacier
Global warming
Greenland
Ice Sheet
Sea ice
West Antarctica
op_source Nature Communications 11 (2020)
op_rights CC BY 4.0 Unported
https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.34657/9357
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