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The mountainous and icy coastline of the Antarctic Peninsula. A marine terminating glacier in Antarctica. (Image credit: Professor Anna Hogg)
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This Antarctic glacier dramatically retreated. Then, its ice shelf totally collapsed

The mountainous and icy coastline of the Antarctic Peninsula. A marine terminating glacier in Antarctica. (Image credit: Professor Anna Hogg)
The mountainous and icy coastline of the Antarctic Peninsula. A marine terminating glacier in Antarctica.
(Image credit: Professor Anna Hogg)

In 2.5 years, Cadman Glacier retreated 5 miles before its ice shelf collapsed.


Another day, another retreating glacier. Today’s casualty is Antarctica’s Cadman Glacier, located on the western coast of the Antarctic Peninsula.

Using satellite images and in-situ oceanographic measurements to track Cadman Glacier for more than three decades, a team of scientists has reported a dramatic glacial retreat of 5 miles (8 kilometers). The change was quick, occurring over just 2.5 years between November 2018 and May 2021. Following that retreat, the tidewater glacier’s ice shelf — the part of the glacier that floats on the surface of the ocean, but still remains anchored to land — completely collapsed.

“We were surprised to see the speed at which Cadman went from being an apparently stable glacier to one where we see sudden deterioration and significant ice loss,” team lead Benjamin Wallis, a glaciologist at the University of Leeds, said in a statement.

Though Cadman Glacier has been thinning since the early 2000s — or possibly even as far back as the 1970s — the team suggests that warmer-than-normal ocean temperatures in 2018 and 2019 (exacerbated, in part, by human-driven global warming) likely accelerated the process, weakening the ice shelf to the point of collapse. Because ice shelves typically buttress the land-based part of a glacier, it’s now expected that Cadman Glacier will lose water more rapidly. Currently, it drains some 2.38 billion tons (2.16 billion tonnes) of ice into the ocean annually, and that rate of flow will likely increase. Such glacial draining directly contributes to sea level rise, which threatens coastal regions across the globe.


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And that’s only part of the story.

“What was also curious was that the neighboring glaciers on this part of the west Antarctic Peninsula did not react in the same way, which may hold important lessons for the way we can better project how climate change will continue to affect this important and sensitive polar region,” said Wallis.

The team hypothesizes that underwater ridges are acting as defensive barriers for nearby glaciers, protecting them from the warming sea — for now, anyway. But with ocean temperatures continuing to rise, subsea geology might not be able to protect the glaciers for much longer. As such, the team considers Cadman Glacier to be a “glaciological tipping point” that might indicate the future for its neighbors.

“What this new research shows is that apparently stable glaciers can switch very rapidly, becoming unstable almost without warning, and then thinning and retreating very strongly,” said Professor Michael Meredith, from the British Antarctic Survey and a co-author of the study. “This emphasizes the need for a comprehensive ocean observing network around Antarctica, especially in regions close to glaciers that are especially hard to make measurements.”

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Source:

Stefanie Waldek at Space.com



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