Buoyant flexure and basal crevassing in dynamic mass loss at Helheim Glacier
Autor: | Kilian Scharrer, N. Selmes, Tavi Murray, Martin O'Leary, T. D. James |
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Rok vydání: | 2014 |
Předmět: | |
Zdroj: | Nature Geoscience. 7:593-596 |
ISSN: | 1752-0908 1752-0894 |
DOI: | 10.1038/ngeo2204 |
Popis: | Despite the role that calving plays in Greenland mass loss, the mechanisms of calving are poorly constrained. Observations of Greenland’s Helheim Glacier suggest that buoyant flexure at the glacier terminus leads to the propagation of basal crevasses and iceberg calving. Iceberg calving accounts for a significant proportion of annual mass loss from marine-terminating glaciers1,2 and may have been a factor in the rapid demise of ancient ice sheets3. The largest contributions from the main outlet glaciers of the Greenland ice sheet to sea-level rise over the next two centuries have been projected to be dynamic in origin, that is, driven by glacier flow and calving4. However, present physical models remain a coarse approximation of real calving mechanisms because models are poorly constrained by sparse glacier geometry observations5. Here we present a record of daily digital elevation models from the calving margin of Greenland’s Helheim Glacier at a high spatial resolution. Our digital elevation models are derived from stereo terrestrial photography taken over the summers of 2010 and 2011. We find that during these two summers dynamic mass loss at Helheim Glacier was dominated by calving events exceeding 1 km3 that were the result of buoyant flexure and the propagation of basal crevasses. We suggest that this buoyancy-driven mechanism for calving may be common elsewhere in Greenland and could be a first-order control on the ice sheet’s future contribution to sea-level rise. |
Databáze: | OpenAIRE |
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