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In a First, an Ice Shelf Collapses in East Antarctica

Scientists say a period of unusual weather, combined with record-low sea ice, led to the disintegration of the Conger ice shelf.

A satellite image taken over East Antarctica on March 17 shows the largest fragment of the collapsed Conger ice shelf, an iceberg named C-38.Credit...U.S. National Ice Center, via Agence France-Presse —Getty Images

For the first time since satellites began observing Antarctica nearly half a century ago, an ice shelf has collapsed on the eastern part of the continent, scientists said.

The collapse of the 450-square-mile Conger ice shelf in a part of the continent called Wilkes Land occurred in mid-March. It was first spotted by scientists with the Australian Bureau of Meteorology and appeared in satellite images taken on March 17, according to the National Ice Center in the United States.

Ice shelves are floating tongues of ice at the end of glaciers that in Antarctica serve as outlets for the continent’s massive ice sheets. Stresses cause cracks in the floating ice, and meltwater and other factors can cause the fissures to erode and grow to a point where the shelf disintegrates rapidly.

According to the National Ice Center, the largest fragment of the Conger shelf after the collapse was an iceberg, named C-38, that was about 200 square miles in size.

The loss of a shelf can allow faster movement of the glaciers behind it, which can lead to more rapid ice-sheet loss and thus greater sea-level rise. Ice-shelf loss is a major concern in West Antarctica, where warming related to climate change is having a greater effect than in the east.

Several very large glaciers in West Antarctica are already flowing faster and if their ice shelves were to collapse completely, sea levels could rise on the order of 10 feet over centuries.

But the two glaciers behind the Conger sheet are small, and even if they were to accelerate, would have minimal effect on sea level, on the order of fractions of an inch over a century or two, said Ted Scambos, a senior researcher at the Earth Science and Observation Center at the University of Colorado Boulder.

While some ice shelves have collapsed in West Antarctica — notably the much larger Larsen B, in 2002 — the Conger collapse is the first observed in East Antarctica since the era of satellite imagery began in 1979, said Catherine Walker, a glaciologist at Woods Hole Oceanographic Institution in Massachusetts.

Dr. Walker, who had been monitoring the ice shelf for a few months, said it had been retreating for several years. “It was an unhealthy little ice shelf to begin with,” she said. But it had appeared to become stabilized, she said, between the mainland and a small island.

So while the collapse was not a complete surprise, it occurred sooner than expected, she said. She and Dr. Scambos agreed that recent weather in that part of Antarctica may have played a role.

In mid-March an atmospheric river, a plume of air heavy with water vapor, swept into East Antarctica from the ocean to the north. It resulted in record-setting warmth in some locations, with temperatures as much as 70 degrees Fahrenheit higher than normal for this time of year.

The warmth could have led to more surface melting of the Conger ice shelf, helping to further erode its fissures and hastening its collapse. But Dr. Scambos said it was likely that the windy conditions resulting from the atmospheric river, combined with record-low sea ice around Antarctica this season, played a larger role.

Sea ice serves as a buffer, damping the swells that roll in to the coast from the Southern Ocean. With little ice, and with the wind stirring the ocean even more, the floating shelf flexed more than it normally would. “The flexing probably weakened the more fixed parts of the ice that held the shelf together,” Dr. Scambos said.

“The warm pulse probably didn’t do a lot,” he said, “but wind events and warm temperatures in the air and in the ocean certainly don’t help with ice-shelf stability.”

East Antarctica has been considered to be the more stable region of Antarctica, with less warming and even ice gains in some areas. The collapse of the Conger ice shelf doesn’t really change that view, Dr. Walker said. “We don’t see any indication that this is going to happen in the rest of East Antarctica anytime soon,” she said.

Dr. Scambos, who studies the more at-risk ice shelves and glaciers in West Antarctica, said it will be interesting to see what happens with the glaciers behind Conger. “Every time one of these things happens,” he said, “it tells us a little bit more about how bigger parts of Antarctica are going to respond when bigger events occur.”

Henry Fountain specializes in the science of climate change and its impacts. He has been writing about science for The Times for more than 20 years and has traveled to the Arctic and Antarctica. More about Henry Fountain

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