Ice dynamics will remain a primary driver of Greenland ice sheet mass loss over the next century

Abstract The mass loss of the Greenland Ice Sheet is nearly equally partitioned between a decrease in surface mass balance from enhanced surface melt and an increase in ice dynamics from the acceleration and retreat of its marine-terminating glaciers. Much uncertainty remains in the future mass loss...

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Bibliographic Details
Published in:Communications Earth & Environment
Main Authors: Choi, Youngmin, Morlighem, Mathieu, Rignot, Eric, Wood, Michael
Other Authors: National Science Foundation, National Aeronautics and Space Administration, NASA | Jet Propulsion Laboratory
Format: Article in Journal/Newspaper
Language:English
Published: Springer Science and Business Media LLC 2021
Subjects:
General Earth and Planetary Sciences
General Environmental Science
Greenland
Ice Sheet
Online Access:http://dx.doi.org/10.1038/s43247-021-00092-z
http://www.nature.com/articles/s43247-021-00092-z.pdf
http://www.nature.com/articles/s43247-021-00092-z
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Summary:Abstract The mass loss of the Greenland Ice Sheet is nearly equally partitioned between a decrease in surface mass balance from enhanced surface melt and an increase in ice dynamics from the acceleration and retreat of its marine-terminating glaciers. Much uncertainty remains in the future mass loss of the Greenland Ice Sheet due to the challenges of capturing the ice dynamic response to climate change in numerical models. Here, we estimate the sea level contribution of the Greenland Ice Sheet over the 21st century using an ice-sheet wide, high-resolution, ice-ocean numerical model that includes surface mass balance forcing, thermal forcing from the ocean, and iceberg calving dynamics. The model is calibrated with ice front observations from the past eleven years to capture the recent evolution of marine-terminating glaciers. Under a business as usual scenario, we find that northwest and central west Greenland glaciers will contribute more mass loss than other regions due to ice front retreat and ice flow acceleration. By the end of century, ice discharge from marine-terminating glaciers will contribute 50 ± 20% of the total mass loss, or twice as much as previously estimated although the contribution from the surface mass balance increases towards the end of the century.

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