Thursday, 29 August 2013

Global Warming

Spy Satellite Data Reveals Antarctic Ice Vulnerability

Declassified spy satellite imagery of Antarctica dating back to the 1960s has revealed that the world's largest ice sheet may be more susceptible to climate change than once thought.

East Antarctica reaches higher elevations than elsewhere on the continent and experiences some of the coldest temperatures on Earth, hitting well below zero degrees Fahrenheit throughout much of the year. As a result, a massive ice sheet has accumulated, measuring more than 2.5 miles (4 kilometers) thick in some regions, holding enough water to raise global sea level by more than 160 feet (50 meters) if it were to completely melt.

Due to its thickness and high elevation, researchers have regarded the East Antarctic Ice Sheet as relatively stable and more resilient against climate change than the West Antarctic Ice Sheet, which sits much closer to sea level and experiences warmer average temperatures.

Now, researchers from Durham University in the United Kingdom have used declassified spy satellite imagery covering the years from 1963 to 2012 to study changes in the outer margin of the East Antarctic Ice Sheet, and have compared these patterns with climate data from the region. The team has found that periods of expansion and retreat of the ice sheet's glaciers, essentially rivers of ice, appear to correspond with periods of warming and cooling in the atmosphere within the past 50 years.

"We've shown for the first time that these glaciers are in concert with climate," Chris Stokes, a professor of geography at Durham University and an author of the paper, told LiveScience. "So the concern would be that if it does start to get warmer, then we would expect to see the glacier retreat."

While the researchers did note periods of growth and retreat, they did not detect a notable net change in the size of the ice sheet during the study period. Future warming could, however, push the region into a more significant retreat phase that could potentially cause net reduction in ice thickness in the region, Stokes said.

Glacier

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