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Scientists calculate over 3,000 billion tons of ice lost from Antarctic ice sheet over 25 years

  • Scientists calculate over 3,000 billion tons of ice lost from Antarctic ice sheet over 25 years

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University of Leeds
University of Leeds. The University, established in 1904, is one of the largest higher education institutions in the UK. We are renowned globally for the quality of our teaching and research.

Scientists have calculated that the fastest changing Antarctic region—the Amundsen Sea Embayment—has lost more than 3,000 billion tons of ice over a 25-year period.

If all the lost ice was piled on London, it would stand more than 2 km tall—or 7.4 times the height of the Shard. If it were to cover Manhattan, it would stand at 61 km—or 137 Empire State Buildings placed on top of one another.

Twenty major glaciers form the Amundsen Sea Embayment in West Antarctica, which is more than four times the size of the U.K., and they play a key role in contributing to the level of the world's oceans.

So much water is held in the snow and ice, that if it were to all to drain into the sea, global sea levels could increase by more than one meter.

The research, led by Dr. Benjamin Davison at the University of Leeds, calculated the "mass balance" of the Amundsen Sea Embayment. This describes the balance between mass of snow and ice gain due to snowfall and mass lost through calving, where icebergs form at the end of a glacier and drift out to sea.

When calving happens faster than the ice is replaced by snowfall, then the Embayment loses mass overall and contributes to global sea level rise. Similarly, when snowfall supply drops, the Embayment can lose mass overall and contribute to sea level rise.

The results show that West Antarctica saw a net decline of 3,331 billion tons of ice between 1996 and 2021, contributing more than nine millimeters to global sea levels. Changes in ocean temperature and currents are thought to have been the most important factors driving the loss of ice.

The research has been published in the scientific journal Nature Communications


Iceberg floating from the Amundsen Sea Embayment

Extreme snowfall events  

Using climate models that show how air currents move around the world, the scientists identified that the Amundsen Sea Embayment had experienced several extreme snowfall events over the 25-year study period.  

These would have resulted in periods of heavy snowfall and periods of very little snowfall or a “snow drought”.  

The researchers factored these extreme events into their calculations. Surprisingly, they found that these events contributed up to half of the ice change at certain times, and therefore played a key role in the contribution the Amundsen Sea Embayment was making to sea level rise during certain time periods.   

For example, between 2009 and 2013, the models revealed a period of a persistant snow drought. The lack of snowfall starved the ice sheet and caused it to lose ice, therefore contributing about 25% more to sea level rise than in years of average snowfall.  

In contrast, during the winters of 2019 and 2020 there was very heavy snowfall. The scientists estimated that this heavy snowfall mitigated the sea level contribution from the Amundsen Sea Embayment, reducing it to about half of what it would have been in an average year.   

Dr Davison said: “Changes in ocean temperature and circulation appear to be driving the long-term, large-scale changes in West Antarctica ice sheet mass.  We absolutely need to research those more because they are likely to control the overall sea level contribution from West Antarctica.   

“However, we were really surprised to see just how much periods of extremely low or high snowfall could affect the ice sheet over two to five-year periods – so much so that we think they could play an important, albeit secondary role, in controlling rates of West Antarctic ice loss.”  

Dr Pierre Dutrieux, a scientist at the British Antarctic Survey and co-author of the study, added: “Ocean temperature changes and glacial dynamics appear strongly connected in this part of the world, but this work highlights the large variability and unexpected processes by which snowfall also plays a direct role in modulating glacier mass.”

New glacier named

The ice loss from the region over the past 25 years has seen the retreat of the Pine Island Glacier,  also known as PIG.

As it retreated, one of its tributary glaciers became detached from the main glacier and rapidly accelerated. As a result, the tributary glacier has now been named by the UK Antarctic Place-names Committee, Piglet Glacier, so that it can be unambiguously located and identified by future studies.   

Dr Anna Hogg, one of the authors of the paper and Associate Professor at the Institute of Climate and Atmospheric Science at Leeds, said: “As well as shedding new light on the role of extreme snowfall variability on ice sheet mass changes, this research also provides new estimates of how quickly this important region of Antarctica is contributing to sea level rise.   

“Satellite observations have showed that the newly named Piglet Glacier accelerated its ice speed by 40%, as the larger PIG retreated to its smallest extent since records began.”   

Satellites such as the Copernicus Sentinel-1 satellite, which uses sensors that ‘see’ through cloud even during the long Polar night, have transformed our ability to monitor remote regions. It is essential to have frequent measurements of change in ice speed and iceberg calving, so that we can monitor the incredibly rapid change taking place in Antarctica.  

The paper - Sea level rise from West Antarctic mass loss significantly modified by large snowfall anomalies - has been published by nature Communications. 

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