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Thursday, April 14, 2022

Why Did Two Antarctic Ice Shelves Fail? Scientists Say They Now Know.

The collapse of the two huge ice shelves was most likely triggered by vast plumes of warm air from the Pacific, researchers have found.

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Satellite images showed the Larsen B Ice Shelf splintering and collapsing from Jan. 31 to April 13, 2002.NASA Earth Observatory

The rapid collapses of two ice shelves on the Antarctic Peninsula over the last quarter-century were most likely triggered by the arrival of huge plumes of warm, moisture-laden air that created extreme conditions and destabilized the ice, researchers said Thursday.

The disintegration of the Larsen A shelf in 1995 and the Larsen B shelf in 2002 were preceded by landfall of these plumes, called atmospheric rivers, from the Pacific Ocean. They generated extremely warm temperatures over several days that caused surface melting of the ice that led to fracturing, and reduced sea ice cover, allowing ocean swells to flex the ice shelves and further weaken them.

“We identify atmospheric rivers as a mechanism that can create extreme conditions over the ice shelves of the Antarctic Peninsula and potentially lead to their destabilization,” said Jonathan Wille, a climatologist and meteorologist at the Université Grenoble Alpes in France and the lead author of a study describing the research in the journal Communications Earth and Environment.

While there have been no collapses on the peninsula since 2002, Dr. Wille and his colleagues found that atmospheric rivers also triggered 13 of 21 large iceberg-calving events from 2000 to 2020.

Dr. Wille said the larger Larsen C shelf, which is still mostly intact and, at about 17,000 square miles, is the fourth-largest ice shelf in Antarctica, could eventually suffer the same fate as A and B.

“The only reason why melting has not been significant so far is because it’s just farther south compared to the others, therefore colder,” he said. But as the world continues to warm, atmospheric rivers are expected to become more intense. “The Larsen C will now be at risk from the same processes,” he said.

A rift in the Larsen C Ice Shelf in February 2017. Scientists say the C ice shelf could meet the same fate as A and B.
British Antarctic Survey, via Agence France-Presse — Getty Images

Kyle R. Clem, a researcher at Victoria University of Wellington in New Zealand who was not involved in the study, said the work also showed that other parts of Antarctica that are not warming as fast as the peninsula could eventually be susceptible as well, since the mechanism that the researchers documented is more dependent on warming where the atmospheric river originates.

“The amount of heat and moisture that atmospheric rivers transport is higher than it would be without global warming,” Dr. Clem said. “So the air mass that slams into Antarctica is much, much warmer. And it’s these episodes of extreme events that lead to ice shelf collapse.”

“You could get this anywhere in Antarctica,” he said.

Shelves are floating tongues of ice that serve to hold back most of the ice that covers Antarctica to depths up to nearly 3 miles. When a shelf collapses, the flow of this land ice to the ocean accelerates, increasing the rate of sea level rise.

While the Antarctic Peninsula ice sheet is relatively small (if it all melted, seas would rise by less than a foot) the collapse of ice shelves elsewhere on the continent could lead to much greater sea level rise over centuries.

Last month, a small ice shelf collapsed in East Antarctica, which is considered the most stable part of the continent. In the days before, an intense atmospheric river arrived in the region. It led to record high temperatures, but researchers are not yet certain how much of a role it played, if any, in the shelf’s disintegration.

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