Surface Melt and Runoff on Antarctic Ice Shelves at 1.5°C, 2°C, and 4°C of Future Warming
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In this article, the authors used the Modele Atmospherique Regional (MAR) with future simulations from four CMIP models to evaluate the likely effects on the surface mass balance (SMB) of Antarctic ice shelves.Abstract:
The future surface mass balance (SMB) of Antarctic ice shelves has not been constrained with models of sufficient resolution and complexity. Here, we force the high‐resolution Modele Atmospherique Regional (MAR) with future simulations from four CMIP models to evaluate the likely effects on the SMB of warming of 1.5°C, 2°C and 4°C above pre‐industrial temperatures. We find non‐linear growth in melt and runoff which causes SMB to become less positive with more pronounced warming. Consequently, Antarctic ice shelves may be more likely to contribute indirectly to sea level rise via hydrofracturing‐induced collapse, which facilitates accelerated glacial discharge. Using runoff and melt as indicators of ice shelf stability, we find that several Antarctic ice shelves (Larsen C, Wilkins, Pine Island and Shackleton) are vulnerable to disintegration at 4°C. Limiting 21st century warming to 2°C will halve the ice shelf area susceptible to hydrofracturing‐induced collapse compared to 4°C.read more
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Intense atmospheric rivers can weaken ice shelf stability at the Antarctic Peninsula
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References
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Journal ArticleDOI
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TL;DR: Satellite laser altimetry and modelling of the surface firn layer are used to reveal the circum-Antarctic pattern of ice-shelf thinning through increased basal melt, which implies that climate forcing through changing winds influences Antarctic ice-sheet mass balance, and hence global sea level, on annual to decadal timescales.
Journal ArticleDOI
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Journal ArticleDOI
Accelerated ice discharge from the Antarctic Peninsula following the collapse of Larsen B ice shelf
Eric Rignot,Eric Rignot,Gino Casassa,Prasad Gogineni,William B. Krabill,Andrés Rivera,Robert H. Thomas,Robert H. Thomas +7 more
TL;DR: Rignot et al. as mentioned in this paper attributed the abrupt evolution of the glaciers to the removal of the buttressing ice shelf, and demonstrated the importance of ice shelves on ice sheet mass balance and contribution to sea level change.
Journal ArticleDOI
The Link Between Climate Warming and Break-Up of Ice Shelves in the Antarctic Peninsula
TL;DR: In this article, a review of in situ and remote-sensing data covering the ice shelves of the Antarctic Peninsula provides a series of characteristics closely associated with rapid shelf retreat: deeply embayed ice fronts, calving of myriad small elongate bergs in punctuated events, increasing flow speed, and the presence of melt ponds on the ice-shelf surface in the vicinity of the breakups.