Nature Geoscience 3 (2010) 468-472; published online 20 June 2010; doi: 10.1038/ngeo890
Observations beneath Pine Island Glacier in West Antarctica and implications for its retreat
Adrian Jenkins*,1, Pierre Dutrieux1, Stanley S. Jacobs2, Stephen D. McPhail3, James R. Perrett3, Andrew T. Webb3 and David White3
Abstract
Thinning ice in West Antarctica, resulting from acceleration in the flow of outlet glaciers, is at present contributing about 10% of the observed rise in global sea level1. Pine Island Glacier in particular has shown nearly continuous acceleration2, 3 and thinning4, 5, throughout the short observational record. The floating ice shelf that forms where the glacier reaches the coast has been thinning rapidly6, driven by changes in ocean heat transport beneath it. As a result, the line that separates grounded and floating ice has retreated inland7. These events have been postulated as the cause for the inland thinning and acceleration8, 9. Here we report evidence gathered by an autonomous underwater vehicle operating beneath the ice shelf that Pine Island Glacier was recently grounded on a transverse ridge in the sea floor. Warm sea water now flows through a widening gap above the submarine ridge, rapidly melting the thick ice of the newly formed upstream half of the ice shelf. The present evolution of Pine Island Glacier is thus part of a longer-term trend that has moved the downstream limit of grounded ice inland by 30 km, into water that is 300 m deeper than over the ridge crest. The pace and ultimate extent of such potentially unstable retreat10 are central to the debate over the possibility of widespread ice-sheet collapse triggered by climate change11, 12.
- British Antarctic Survey, Natural Environment Research Council, Cambridge CB3 0ET, UK
- Lamont-Doherty Earth Observatory of Columbia University, New York, New York 10964, USA
- National Oceanography Centre, Southampton SO14 3ZH, UK
*Correspondence e-mail: ajen@bas.ac.uk
Link: http://www.nature.com/ngeo/journal/v3/n7/abs/ngeo890.html
Comment from glacierchange:
This is an excellent ongoing study that will yield more results in the near future particularly when combined with the surface observations of NASA's Operation Ice Bridge. A few PIG figures from the early work indicate the problem of the grounding line retreat.
2 comments:
This is an excellent ongoing study that will yield more results in the near future particularly when combined with the surface observations of NASA's Operation Ice Bridge. A few PIG figures from the early work indicate the problem of the grounding line retreat.
Thanks for the links. It is very useful for the general readers to see your post on the PIG.
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