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Feedback loop in Greenland amplified ice melt from warm weather

Last August, rain fell for the first time at the peak of Greenland鈥檚 ice sheet, but this had little impact on ice melt compared with other effects
For the first time ever recorded, in the late summer of 2021, rain fell on the high central region of the Greenland ice sheet. This extraordinary event was followed by the surface snow and ice rapidly melting. Researchers discovered that it wasn?t the rain that caused the melt, it was unusually warm ?atmospheric rivers? that swept along Greenland, bringing potent melt conditions when the melt season would normally be drawing to a close. Thanks to detailed measurements from the network of automatic weather stations on the ice set up by the Department of Glaciology and Climate at the Geological Survey of Denmark and Greenland coupled with measurements from the Copernicus Sentinel-3 satellites in space helped researchers understand the exact processes and dynamics of how the ice melts.
A weather station on the Greenland ice sheet
GEUS/ESA

When rain fell for the first time at the highest point of Greenland鈥檚 ice sheet , it marked a significant climate change milestone. But researchers have now revealed in unprecedented detail how an accompanying plume of hot air had a far bigger impact by melting snow, with the rain only playing a minor role.

The snow melt created a feedback loop by exposing darker ice, which absorbs more heat and causes more snow to melt in turn. Events like this will also play a small role in causing more global warming, a 鈥渃limate feedback鈥 like聽 and the darker water that is exposed absorbs more of the sun鈥檚 energy rather than reflecting it.

The rain, which fell more than 3000 metres up at the Arctic鈥檚 only year-round research station, was triggered by an 鈥渁tmospheric river鈥 of unusually warm air. Together, the heat from the air and rain pushed the area鈥檚 snow line 鈥 the boundary of the area covered by snow at the peak 鈥 more than 700 metres uphill and swelled a river to record volumes.

The episode extended the ice sheet鈥檚 melt season just when it would have otherwise been drawing to a close. Greenland鈥檚 ice sheet loss has been accelerating in recent years and has the potential to raise sea level by 6 metres.

鈥淭he rain really got our attention. [But] it was ironic that it was the heat associated with the atmospheric river, the heat surrounding the rain, if you will, that was the bigger impact,鈥 says Jason Box at the Geological Survey of Denmark and Greenland, who led the research combing through weather instrument and satellite data.

He had expected most of the heat to come from the rain, so he was surprised to find it only accounted for about 2 per cent of the heat, most of which was delivered by condensation and other mechanisms, including the darkening effect of the meltwater.聽A huge area of ice, effectively the whole southern ice sheet of Greenland, had its reflectivity reduced by about 10 per cent. 鈥淚n that regard, it was quite impactful,鈥 says Box.

Future rainfall events at the sheet鈥檚 peak could have an even more severe impact. If there were enough rain to percolate deep through the snow before refreezing, that would deliver a lot of heat, says Box. Fortunately, in this case, there was relatively little rain and that didn鈥檛 come to pass.

Box says the study shows that investigating the changing frequency of atmospheric rivers 鈥 which were also responsible for extreme heat in Antarctica three months ago 鈥 is 鈥渁rguably a more important research question than how much rain is falling鈥.

Geophysical Research Letters

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Topics: ice