More than five miles of glacial ice in Antarctica vanished in only two months, retreating 10 times faster than the previous record, with possible implications for the stability of other glaciers and the pace of sea-level rise on a warming planet.
The research on the ice retreat was published this week in the journal Nature Geoscience. Hektoria Glacier, on the eastern side of the Antarctic Peninsula, is tiny by Antarctic standards. But its rapid retreat - the fastest ever recorded for a glacier tethered to the ground - may be a preview of what is possible for the continent's other, much larger glaciers.
If some of those crumble as quickly as Hektoria did, their disintegration could accelerate sea-level rise and spell trouble for island nations and coastal cities.
The research was led by Naomi Ochwat, a glaciologist who had been studying other ice formations in the region when she noticed in satellite photos just how quickly Hektoria seemed to be vanishing. She told Scambos they needed to investigate what was happening.
Ochwat and her colleagues found that Hektoria shrank by about 16 miles between January 2022 and March 2023.
Ochwat said she got goose bumps thinking back to her last visit, when she flew over the site in February 2024 and saw what had happened to the river of ice once the size of Philadelphia. "What was left was just this mushed-up mélange of all these icebergs," she recalled. "It was Hektoria's remains."
The chain of events leading to Hektoria's demise started in the ocean. Hektoria is a tidewater glacier, meaning it flows across land before ending in the sea. After rising temperatures reduced the amount of sea ice in the bay abutting the glacier, waves broke down ice fastened to the coastline that had protected Hektoria. And, without that buffer, the floating end of the glacier began cracking and shedding icebergs.
After the glacier lost its floating portion, the rest began to thin. A gently sloping plain under the glacier allowed the ocean to seep in, causing the glacier to bob and break up quickly, Ochwat added. But Christine Batchelor, an ice sheet scientist who was not involved in the paper, said there is disagreement in the glaciological community about the glacier's grounding zone - that is, the spot under the ice where the ground ends and the ice begins floating. If the grounding zone is more inland than the paper suggests, that would mean most of Hektoria's ice was already bobbing in the water.
But Ochwat said the fact that seismic sensors picked up on a series of earthquakes while Hektoria was in retreat suggests the ice had been resting on bedrock. "Because that ice is touching the Earth, we get earthquakes."
The research team's next goal is to see if any other Antarctic glaciers are also sitting on slick, shallow beds - and are also vulnerable to runaway retreat. -- The Washington Post