High Mountain Asia hydropower systems threatened by climate-driven landscape instability

水力发电 气候变化 冰期 永久冻土 地球科学 冰川 全球变暖 濒危物种 地质学 碎片 环境科学 山崩 自然地理学 水文学(农业) 地貌学 地理 栖息地 海洋学 生态学 生物 岩土工程
作者
Dongfeng Li,Xixi Lu,Desmond E. Walling,Ting Zhang,Jakob Steiner,Robert Wasson,Stephan Harrison,Santosh Nepal,Yong Nie,Walter W. Immerzeel,Dan H. Shugar,Michèle Koppes,Stuart N. Lane,Zhenzhong Zeng,Xiaofei Sun,Alexandr Yegorov,Tobias Bolch
出处
期刊:Nature Geoscience [Nature Portfolio]
卷期号:15 (7): 520-530 被引量:249
标识
DOI:10.1038/s41561-022-00953-y
摘要

Global warming-induced melting and thawing of the cryosphere are severely altering the volume and timing of water supplied from High Mountain Asia, adversely affecting downstream food and energy systems that are relied on by billions of people. The construction of more reservoirs designed to regulate streamflow and produce hydropower is a critical part of strategies for adapting to these changes. However, these projects are vulnerable to a complex set of interacting processes that are destabilizing landscapes throughout the region. Ranging in severity and the pace of change, these processes include glacial retreat and detachments, permafrost thaw and associated landslides, rock–ice avalanches, debris flows and outburst floods from glacial lakes and landslide-dammed lakes. The result is large amounts of sediment being mobilized that can fill up reservoirs, cause dam failure and degrade power turbines. Here we recommend forward-looking design and maintenance measures and sustainable sediment management solutions that can help transition towards climate change-resilient dams and reservoirs in High Mountain Asia, in large part based on improved monitoring and prediction of compound and cascading hazards. Climate change is exacerbating geohazards in High Mountain Asia that pose a growing risk to hydropower and water infrastructure across the region.
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