[an error occurred while processing this directive]
Skip to Main Content

Latest News

January 21, 2008
Volume 86, Number 03
p. 9

Global Warming

West Antarctica Ice Decreases

Region considered stable appears to be losing ice faster than thought, thanks to climate change

Bette Hileman

West Antarctica and the Antarctic Peninsula appear to be losing vast amounts of ice, and that loss is accelerating, researchers reported on Jan. 13 in an article published online in Nature Geoscience (DOI: 10.1038/ngeo102). Their findings contrast sharply with estimates in the latest report of the United Nations Intergovernmental Panel on Climate Change (IPCC), which predicted that the ice in Antarctica is likely to remain stable or increase over the course of the 21st century.

Jonathan Bamber/University of Bristol
Satellite-derived image of the surface topography of Antarctica shows the flow speeds of glaciers draining ice into the oceans from the West Antarctic Ice Sheet (WAIS) and the East Antarctic Ice Sheet (EAIS).

Eric Rignot, professor of earth system science at the University of California, Irvine, and his colleagues analyzed satellite data and computer simulations of snow accumulation during the decade from 1996 to 2006. They found that West Antarctica lost about 132 billion metric tons of ice in 2006, compared with about 83 billion metric tons in 1996, and that the Antarctic Peninsula lost 60 billion metric tons in 2006.

"To put these figures in perspective, 4 billion metric tons of ice is enough to provide drinking water for the whole of the U.K. population for one year," says Jonathan L. Bamber, a professor at the University of Bristol, in England, and one coauthor of the article.

The total loss of ice from Antarctica in 2006 was enough to raise global sea level 0.5 mm, Rignot says. In contrast, snow accumulation in East Antarctica roughly balanced the ice loss there.

For the latest estimate, Rignot and his colleagues used data from European, Japanese, and Canadian weather satellites. NASA has no satellites that can measure ice loss in Antarctica.

The reason IPCC estimates for ice loss in Antarctica are so different, Rignot says, is that the panel looked only at trends in precipitation, predicting that it would increase in a warmer world and that air temperatures would not rise enough to melt ice. But in fact, the warm Antarctic Circumpolar Current that circles Antarctica is coming closer to land and has destabilized some of the glaciers based deep underwater, Rignot says. And because many glaciers in West Antarctica are grounded below sea level, they are being impacted, he explains. The only logical reason for the changes in the current is global warming, he adds.

Frederique Olivier/AFP/Getty Images

According to Rignot, the yearly ice loss from Antarctica is approaching that from Greenland. However, he says, "I am more worried about Antarctica than Greenland, because many of Antarctica's glaciers are grounded below sea level and can be destabilized by warm ocean water, in contrast to most of Greenland's glaciers, which are based above sea level." Antarctica has 90% of the world's ice and 70% of its freshwater.

Last week, Rajendra K. Pachauri, the head of IPCC, traveled to Antarctica with Norwegian Prime Minister Jens Stoltenberg to observe the ice loss firsthand. The IPCC report published last year predicts that sea level will rise only 8 inches to 2 feet by 2100. The next IPCC report will look into the "frightening" possibility that the ice sheets in Greenland and Antarctica could melt quickly at the same time, raising sea level by several meters, Pachuri has told various newspapers.

"It will take some time for the research community to accept that there is a massive ice loss from Antarctica," Rignot says. In 2005 when ice loss data were first published about Greenland, hardly anyone accepted the findings. Now, very few researchers would dispute the idea that Greenland is losing large amounts of ice, he notes.

Save/Share »

Chemical & Engineering News
ISSN 0009-2347
Copyright © 2009 American Chemical Society

Tools

Save/Share »

Login

Note

Our log-in process has changed. You need an ACS ID to access member-only content.


Username:

Password:

Questions or Problems?

Adjust text size:

A- A+

Articles By Topic

Related Stories