TY - JOUR
T1 - Antarctic ice sheet response to sudden and sustained ice-shelf collapse (ABUMIP)
AU - Sun, Sainan
AU - Pattyn, Frank
AU - Simon, Erika G.
AU - Albrecht, Torsten
AU - Cornford, Stephen
AU - Calov, Reinhard
AU - Dumas, Christophe
AU - Gillet-Chaulet, Fabien
AU - Goelzer, Heiko
AU - Golledge, Nicholas R.
AU - Greve, Ralf
AU - Hoffman, Matthew J.
AU - Humbert, Angelika
AU - Kazmierczak, Elise
AU - Kleiner, Thomas
AU - Leguy, Gunter R.
AU - Lipscomb, William H.
AU - Martin, Daniel
AU - Morlighem, Mathieu
AU - Nowicki, Sophie
AU - Pollard, David
AU - Price, Stephen
AU - Quiquet, Aurélien
AU - Seroussi, Hélène
AU - Schlemm, Tanja
AU - Sutter, Johannes
AU - Van De Wal, Roderik S.W.
AU - Winkelmann, Ricarda
AU - Zhang, Tong
N1 - Publisher Copyright:
Copyright © The Author(s) 2020.
PY - 2020/12
Y1 - 2020/12
N2 - Antarctica's ice shelves modulate the grounded ice flow, and weakening of ice shelves due to climate forcing will decrease their 'buttressing' effect, causing a response in the grounded ice. While the processes governing ice-shelf weakening are complex, uncertainties in the response of the grounded ice sheet are also difficult to assess. The Antarctic BUttressing Model Intercomparison Project (ABUMIP) compares ice-sheet model responses to decrease in buttressing by investigating the 'end-member' scenario of total and sustained loss of ice shelves. Although unrealistic, this scenario enables gauging the sensitivity of an ensemble of 15 ice-sheet models to a total loss of buttressing, hence exhibiting the full potential of marine ice-sheet instability. All models predict that this scenario leads to multi-metre (1-12 m) sea-level rise over 500 years from present day. West Antarctic ice sheet collapse alone leads to a 1.91-5.08 m sea-level rise due to the marine ice-sheet instability. Mass loss rates are a strong function of the sliding/friction law, with plastic laws cause a further destabilization of the Aurora and Wilkes Subglacial Basins, East Antarctica. Improvements to marine ice-sheet models have greatly reduced variability between modelled ice-sheet responses to extreme ice-shelf loss, e.g. compared to the SeaRISE assessments.
AB - Antarctica's ice shelves modulate the grounded ice flow, and weakening of ice shelves due to climate forcing will decrease their 'buttressing' effect, causing a response in the grounded ice. While the processes governing ice-shelf weakening are complex, uncertainties in the response of the grounded ice sheet are also difficult to assess. The Antarctic BUttressing Model Intercomparison Project (ABUMIP) compares ice-sheet model responses to decrease in buttressing by investigating the 'end-member' scenario of total and sustained loss of ice shelves. Although unrealistic, this scenario enables gauging the sensitivity of an ensemble of 15 ice-sheet models to a total loss of buttressing, hence exhibiting the full potential of marine ice-sheet instability. All models predict that this scenario leads to multi-metre (1-12 m) sea-level rise over 500 years from present day. West Antarctic ice sheet collapse alone leads to a 1.91-5.08 m sea-level rise due to the marine ice-sheet instability. Mass loss rates are a strong function of the sliding/friction law, with plastic laws cause a further destabilization of the Aurora and Wilkes Subglacial Basins, East Antarctica. Improvements to marine ice-sheet models have greatly reduced variability between modelled ice-sheet responses to extreme ice-shelf loss, e.g. compared to the SeaRISE assessments.
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U2 - 10.1017/jog.2020.67
DO - 10.1017/jog.2020.67
M3 - Article
AN - SCOPUS:85091781611
SN - 0022-1430
VL - 66
SP - 891
EP - 904
JO - Journal of Glaciology
JF - Journal of Glaciology
IS - 260
ER -