Abstract
The concept that the Antarctic ice sheet changes with eternal slowness has been challenged by recent observations from satellites. Pronounced regional warming in the Antarctic Peninsula triggered ice shelf collapse, which led to a 10-fold increase in glacier flow and rapid ice sheet retreat. This chain of events illustrated the vulnerability of ice shelves to climate warming and their buffering role on the mass balance of Antarctica. In West Antarctica, the Pine Island Bay sector is draining far more ice into the ocean than is stored upstream from snow accumulation. This sector could raise sea level by 1m and trigger widespread retreat of ice in West Antarctica. Pine Island Glacier accelerated 38% since 1975, and most of the speed up took place over the last decade. Its neighbour Thwaites Glacier is widening up and may double its width when its weakened eastern ice shelf breaks up. Widespread acceleration in this sector may be caused by glacier ungrounding from ice shelf melting by an ocean that has recently warmed by 0.3 degrees C. In contrast, glaciers buffered from oceanic change by large ice shelves have only small contributions to sea level. In East Antarctica, many glaciers are close to a state of mass balance, but sectors grounded well below sea level, such as Cook Ice Shelf, Ninnis/Mertz, Frost and Totten glaciers, are thinning and losing mass. Hence, East Antarctica is not immune to changes.
Highlights
The evolution of the Antarctic ice sheet is a problem of considerable societal importance because of its influence on global climate and sea level (Church et al 2001)
Changes in the Antarctic Peninsula caused by regional warming are large and illustrate the important role of ice shelves in controlling the mass balance of an ice sheet
Predictive models of the evolution of Antarctica in a warmer climate dismissed the importance of ice shelves because direct evidence of their mechanical importance on ice stream flow had been missing
Summary
Jet Propulsion Laboratory, 4800 Oak Grove Drive MS 300-319, Pasadena, CA 91109-8099, USA. Pronounced regional warming in the Antarctic Peninsula triggered ice shelf collapse, which led to a 10-fold increase in glacier flow and rapid ice sheet retreat This chain of events illustrated the vulnerability of ice shelves to climate warming and their buffering role on the mass balance of Antarctica. In West Antarctica, the Pine Island Bay sector is draining far more ice into the ocean than is stored upstream from snow accumulation This sector could raise sea level by 1 m and trigger widespread retreat of ice in West Antarctica. Its neighbour Thwaites Glacier is widening up and may double its width when its weakened eastern ice shelf breaks up Widespread acceleration in this sector may be caused by glacier ungrounding from ice shelf melting by an ocean that has recently warmed by 0.3 8C.
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