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Unstable East Antarctic Glacier Has Contributed To Sea Level Rise in the Past

New research in Nature reveals that a massive unstable glacier in East Antarctica has contributed significantly to rising seas in the past.

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AUSTIN, Texas — Research published in the journal Nature on May 19 has revealed that vast regions of the Totten Glacier in East Antarctica are fundamentally unstable and have contributed significantly to rising sea levels several times in the past.

Totten Glacier is the most rapidly thinning glacier in East Antarctica, and this study raises concerns that a repeat transition between stable and unstable states could be underway as the climate warms.

An international consortium led by The University of Texas at Austin’s Institute for Geophysics (UTIG), a unit at the university’s Jackson School of Geosciences, led the research and data collection for the study. Alan Aitken of the University of Western Australia’s School of Earth and Environment is the lead author.

Totten Glacier is East Antarctica’s largest outlet of ice and a key region for understanding the large-scale and long-term vulnerabilities of the Antarctic Ice Sheet. Until now, knowledge of the region’s glacial history has been very limited. Whereas other studies have indicated that this region of the ice sheet may have retreated in the past, this study reveals direct linkages between the modern Totten Glacier and the eroded landscape currently buried in ice hundreds of kilometers inland.

“We now know how the ice sheet evolves over the landscape in East Antarctica and where it is susceptible to rapid retreat, which gives us insight into what is likely to happen in the years ahead,” said Donald D. Blankenship, lead principal investigator of ICECAP (International Collaboration for Exploration of the Cryosphere through Aerogeophysical Profiling) and a senior research scientist at UTIG.

Totten Glacier’s catchment is a collection basin for ice and snow that flows through the glacier.  

“Totten Glacier’s catchment is covered by nearly 2½ miles of ice, filling a California-sized sub-ice basin that reaches depths of over one mile below sea level,” Blankenship said. “This study shows that this system could have a large impact on sea level in a short period of time.”

The UTIG-led ICECAP project collected the data during five Antarctic field campaigns using an aircraft equipped with instruments to assess the ice and measure the shape of the landscape and rocks beneath it. The airplane was outfitted with radar that can measure ice several miles thick, lasers to measure the shape and elevation of the ice surface, and equipment that senses Earth’s gravity and magnetic field strengths, which are used to infer the sub-ice geology.

The study used ice-penetrating radar, magnetic and gravity data to determine the thickness of the ice sheet and the sediment thickness under the ice sheet. These were used to map glacial erosion beneath the ice and find two unstable zones where the ice sheet is prone to rapid collapse.

“By examining the characteristic patterns of erosion left by past ice sheet advance and retreat, revealed through mapping the topographic surface and the thickness of sedimentary rocks beneath, this paper demonstrates direct evidence of past changes in the ice sheet in the Totten region,” Aitken said.

The study found the transition between the stable and unstable states has occurred repeatedly during the life of the ice sheet.

Totten

Totten Glacier, East Antarctica’s largest outlet of ice, is unstable and has contributed significantly to rising seas levels in the past, according to new research. The University of Texas at Austin

“If this was to happen again, with a warmer climate than today, it could lead to a rapid rise in sea level of over a meter,” Aitken said.

ICECAP is a long-term international collaboration among the United States, Australia, the United Kingdom and France. The data for this study were gathered with the support of the U.K.’s Natural Environment Research Council, the U.S. National Science Foundation and the Australian Antarctic Division, as well as NASA’s Operation IceBridge, the G. Unger Vetlesen Foundation, and UT Austin’s Jackson School of Geosciences. The ICECAP aircraft was operated under contract to UTIG by Kenn Borek Air Ltd., Calgary, Alberta, Canada.