JGR Atmospheres, 2 March 2026
Rain-on-snow events in Greenland have dramatically increased in frequency, size and intensity since the 1940s, with particularly rapid growth over the past four decades. In summer, an increasing proportion of precipitation falls as rain, which melts snow and leaves ice unprotected, leading to further melt. Rising global temperatures also impact weather circulation patterns. The largest and most intense rain-on-snow events occur when unusually strong southerly winds transport moisture and heat polewards. 10-20% of these wind anomalies are categorized as atmospheric rivers – corridors of particularly intense moisture transport. Atmospheric rivers making landfall in Greenland increase the likelihood of rainfall by roughly tenfold on its east coast, and thirtyfold on the western coast. These results give a clearer picture of how warming and increased rainfall change the surface of the Greenland Ice Sheet by reducing snow accumulation, increasing melt, and skewing the balance needed to sustain a healthy ice sheet.
Philosophical Transactions of the Royal Society, 23 April 2026 Observations suggest we are currently tracking…
NPJ Natural Hazards, 16 April 2026) Rising temperatures and shifting regional precipitation patterns are reducing…
Nature Communications, 18 March 2026 This study identified a marked increase in both flood frequency…
The Cryosphere, 7 April 2026 Projections of Antarctica’s response to temporary but extreme ocean warming…
The Cryosphere, 1 April 2026 Antarctic sea ice stayed fairly steady from 2010-2014, but began…
Changes in Antarctica can trigger fast and cascading impacts, often with global consequences. Multiple abrupt…