16 hours Ago
April 30, 2025 This article has been reviewed according to Science X's editorial process and policies . Editors have highlightedthe following attributes while ensuring the content's credibility: fact-checked peer-reviewed publication trusted source proofread by Zhang Nannan, Chinese Academy of Sciences A new study led by Prof. Li Zhi from the Xinjiang Institute of Ecology and Geography of the Chinese Academy of Sciences has revealed a troubling global increase in snow droughts under different climate scenarios.
The findings were recently published in Geophysical Research Letters . Snow droughts occur when there is an abnormally low snowpack for the season, classified as either "dry"—resulting from below-normal winter precipitation, or "warm"—caused by warmer temperatures that lead to rain rather than snow or early snowmelt despite normal precipitation levels. Using ERA5-Land data and CMIP6 multi-model climate projections, the researchers analyzed long-term trends in snow drought frequency under various emissions scenarios.
Their results show a marked increase in snow drought events through the end of the century. By 2100, snow drought frequency could triple under the intermediate SSP2-4.5 scenario and quadruple under the high-emission SSP5-8.
5 scenario, compared to the 1981 baseline. Notably, warm snow droughts are expected to dominate future trends. By 2050, they could comprise about 65% of all snow drought events.
Under the SSP5-8.5 pathway, the frequency of warm snow droughts could rise 6.6 times, while compound dry-warm events—posing the greatest risk to ecosystems and water infrastructure —may become 3.
7 times more common. Moreover, snow droughts are shifting from dry to warm or a dry-warm compound. Spatially, mid- and high-latitude regions are projected to experience more frequent and intense snow droughts.
These findings provide critical scientific insights to inform water security strategies and climate adaptation efforts worldwide. More information: Chuan Wang et al, Patterns of Snow Drought Under Climate Change: From Dry to Warm Dominance, Geophysical Research Letters (2025). DOI: 10.
1029/2025GL114641 Journal information: Geophysical Research Letters Provided by Chinese Academy of Sciences.
