Ice mass loss sensitivity to the Antarctic ice sheet basal thermal state

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作者
Eliza J. Dawson
Dustin M. Schroeder
Winnie Chu
Elisa Mantelli
Hélène Seroussi
机构
[1] Stanford University,Department of Geophysics
[2] Stanford University,Department of Electrical Engineering
[3] Georgia Institute of Technology,School of Earth and Atmospheric Science
[4] University of Tasmania,Institute for Marine and Antarctic Studies
[5] University of Tasmania,The Australian Centre for Excellence in Antarctic Science
[6] Dartmouth College,Thayer School of Engineering
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Nature Communications | / 13卷
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摘要
Sea-level rise projections rely on accurate predictions of ice mass loss from Antarctica. Climate change promotes greater mass loss by destabilizing ice shelves and accelerating the discharge of upstream grounded ice. Mass loss is further exacerbated by mechanisms such as the Marine Ice Sheet Instability and the Marine Ice Cliff Instability. However, the effect of basal thermal state changes of grounded ice remains largely unexplored. Here, we use numerical ice sheet modeling to investigate how warmer basal temperatures could affect the Antarctic ice sheet mass balance. We find increased mass loss in response to idealized basal thawing experiments run over 100 years. Most notably, frozen-bed patches could be tenuously sustaining the current ice configuration in parts of George V, Adélie, Enderby, and Kemp Land regions of East Antarctica. With less than 5 degrees of basal warming, these frozen patches may begin to thaw, producing new loci of mass loss.
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