Sea level as a stabilizing factor for marine-ice-sheet grounding lines

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Abstract
Climate change could potentially destabilize marine ice sheets, which would affect projections of future sea-level rise. Specifically, an instability mechanism has been predicted for marine ice sheets such as the West Antarctic ice sheet that rest on reversed bed slopes, whereby ice-sheet thinning or rising sea level leads to irreversible retreat of the grounding line. However, existing analyses of this instability mechanism have not accounted for deformational and gravitational effects that lead to a sea-level fall at the margin of a rapidly shrinking ice sheet. Here we present a suite of predictions of gravitationally self-consistent sea-level change following grounding-line migration. Our predictions vary the initial ice-sheet size and also consider the contribution to sea-level change from various subregions of the simulated ice sheet. Using these results, we revisit a canonical analysis of marine-ice-sheet stability and demonstrate that gravity and deformation-induced sea-level changes local to the grounding line contribute a stabilizing influence on ice sheets grounded on reversed bed slopes. We conclude that accurate treatments of sea-level change should be incorporated into analyses of past and future marine-ice-sheet dynamics.
Year of Publication
2010
Journal
Nature Geoscience
Volume
3
Number of Pages
850-853
Date Published
12/2010
URL
http://adsabs.harvard.edu/abs/2010NatGe...3..850G
DOI
10.1038/ngeo1012
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