冰期
冰川
融水
自然地理学
气候变化
冰川湖
全球变暖
环境科学
地质学
海洋学
水文学(农业)
地理
地貌学
岩土工程
作者
Dan H. Shugar,Aaron Burr,Umesh K. Haritashya,Jeffrey S. Kargel,C. Scott Watson,Maureen C. Kennedy,Alexandre Bevington,Richard Betts,Stephan Harrison,Katherine Strattman
标识
DOI:10.1038/s41558-020-0855-4
摘要
Glacial lakes are rapidly growing in response to climate change and glacier retreat. The role of these lakes as terrestrial storage for glacial meltwater is currently unknown and not accounted for in global sea level assessments. Here, we map glacier lakes around the world using 254,795 satellite images and use scaling relations to estimate that global glacier lake volume increased by around 48%, to 156.5 km3, between 1990 and 2018. This methodology provides a near-global database and analysis of glacial lake extent, volume and change. Over the study period, lake numbers and total area increased by 53 and 51%, respectively. Median lake size has increased 3%; however, the 95th percentile has increased by around 9%. Currently, glacial lakes hold about 0.43 mm of sea level equivalent. As glaciers continue to retreat and feed glacial lakes, the implications for glacial lake outburst floods and water resources are of considerable societal and ecological importance. Warming is increasing glacial lakes, and scaling relations show a 48% increase in volume for 1990 to 2018. All measures—area, volume, number—increased, providing water storage but also representing a potential hazard with the risk of outburst floods.
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