Grounding line stability in a regime of low driving and basal stresses

The dynamics of a marine ice sheet's grounding lines determine the rate of ice discharge from the grounded part of ice sheet into surrounding oceans. In many locations in West Antarctica ice flows into ice shelves through ice streams experiencing low driving stress. However, existing simple the...

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Bibliographic Details
Published in:Journal of Glaciology
Main Authors: O. V. Sergienko, D. J. Wingham
Format: Article in Journal/Newspaper
Language:English
Published: Cambridge University Press 2019
Subjects:
Ice dynamics
ice-sheet modeling
ice streams
Environmental sciences
GE1-350
Meteorology. Climatology
QC851-999
West Antarctica
Antarc*
Antarctica
Ice Sheet
Ice Shelves
Journal of Glaciology
Online Access:https://doi.org/10.1017/jog.2019.53
https://doaj.org/article/091b22302d5d4cad8180bbf4c372245f
Description
Summary:The dynamics of a marine ice sheet's grounding lines determine the rate of ice discharge from the grounded part of ice sheet into surrounding oceans. In many locations in West Antarctica ice flows into ice shelves through ice streams experiencing low driving stress. However, existing simple theories of marine ice sheets are developed under the assumption of high basal and driving stress. Here we analyze the grounding line behavior of marine ice streams experiencing low basal shear and driving stress. We find that in this regime, the ice flux at the grounding line is a complex function of the geometry of the ice-stream bed, net accumulation rate and gradient of the net accumulation rate. Our analysis shows that the stability of distinct steady states is determined by the same parameters, suggesting a more complex (in)stability criterion than what is commonly referred to within the context of the ‘marine ice-sheet instability hypothesis’. We also determine characteristic timescales (e-folding time) of ice-sheet configurations perturbed from their steady states. These timescales can be used to determine whether particular configurations can be considered in isolation from other components of the climate system or whether their effects and feedbacks between the ice sheet and the rest of the climate system have to be taken into account.

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