大湖水位的灾难性变化

IF 6.3 3区综合性期刊 Q1 Multidisciplinary

Fundamental Research Pub Date : 2025-09-01 DOI:10.1016/j.fmre.2023.07.004

Yuanbo Liu , Jiquan Chen , Ge Sun , Ganlin Zhang , Jinchao Feng , Xingwang Fan

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引用次数: 0

摘要

大型湖泊对于缓冲全球气候变化对当地水资源的潜在影响至关重要，而当地水资源是数百万人赖以生存的。然而，最近已经观察到水位在短时间内从一个极端到另一个极端（如洪水到干旱）的突然变化，威胁着全球的水生生态系统和社会经济。我们认为，看似罕见的戏剧性极端变化不再是偶然的，而是正在成为一种新的常态。在世界许多地区，持续的气候变化和人为加剧的共同力量可能是根本原因。湖泊比退缩的冰川更普遍，更容易受到人类活动的影响，这是全球环境变化的一个新方面。我们呼吁对主要湖泊的气候-流域-人类的相互作用进行机械理解。这种国际合作努力对于制定有效的解决办法以减轻全球大湖地区干旱和洪水的影响至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Catastrophic shifts in large lake levels

Large lakes are important to buffering the potential impacts of global climate change on local water resources that millions of people's livelihoods depend on. However, abrupt changes in water level from one extreme to another (e.g., flood to drought) over short periods of time have been observed recently, threatening aquatic ecosystems and socio-economics in globe. We argue that the seemingly rare dramatic extreme changes are no longer incidental, but are becoming a new norm. The combined forces of ongoing climate change and anthropogenic intensification in many parts of the world are presumably the root causes. More prevalent than the retreating glaciers, lakes are more vulnerable to human modification, an emerging dimension of global changing environment. We call for mechanistic understanding of the interactions of climate-watershed-human across major lakes. Such international collaborative efforts are essential to developing effective solutions to mitigate the impacts of drought and floods in global large-lake regions.

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来源期刊