Global assessment and hotspots of lake drought

Xing Cheng; Shuo Wang; Jianli Chen; Amir AghaKouchak

doi:10.1038/s43247-025-02285-2

Global assessment and hotspots of lake drought

Xing Cheng, Shuo Wang, Jianli Chen, Amir AghaKouchak

Research output: Journal article publication › Journal article › Academic research › peer-review

4 Citations (Scopus)

Abstract

Many lakes have exhibited substantial variability in recent years, making “lake drought” a growing concern. However, there is no established framework for identifying and studying lake droughts. Here, we propose a reliable definition for it and provide a global assessment of over 160,000 lakes (≥1 km²) using monthly area data from 1985 to 2018. Our findings show that 15.7% of lakes have experienced statistically significant increasing trends in drought frequency (p < 0.05), with hotspots in the Southern United States at 52.7% and Southeast Australia at 70.4%. Furthermore, we identify two severe lake drought events in the Southern United States (2012–2014) and Southeast Australia (2007–2010), posing dramatic threats to water supplies, biodiversity, and ecological health. Rising trends in lake drought are driven by increasing temperature, vapor pressure deficit, and factors associated with the lake water cycle, such as precipitation deficit, increased evaporation, and excessive water withdrawal.

Original language	English
Article number	308
Journal	Communications Earth and Environment
Volume	6
Issue number	1
DOIs	https://doi.org/10.1038/s43247-025-02285-2
Publication status	Published - 21 Apr 2025

ASJC Scopus subject areas

General Environmental Science
General Earth and Planetary Sciences

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10.1038/s43247-025-02285-2

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title = "Global assessment and hotspots of lake drought",

abstract = "Many lakes have exhibited substantial variability in recent years, making “lake drought” a growing concern. However, there is no established framework for identifying and studying lake droughts. Here, we propose a reliable definition for it and provide a global assessment of over 160,000 lakes (≥1 km2) using monthly area data from 1985 to 2018. Our findings show that 15.7\% of lakes have experienced statistically significant increasing trends in drought frequency (p < 0.05), with hotspots in the Southern United States at 52.7\% and Southeast Australia at 70.4\%. Furthermore, we identify two severe lake drought events in the Southern United States (2012–2014) and Southeast Australia (2007–2010), posing dramatic threats to water supplies, biodiversity, and ecological health. Rising trends in lake drought are driven by increasing temperature, vapor pressure deficit, and factors associated with the lake water cycle, such as precipitation deficit, increased evaporation, and excessive water withdrawal.",

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AU - Cheng, Xing

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AU - Chen, Jianli

AU - AghaKouchak, Amir

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AB - Many lakes have exhibited substantial variability in recent years, making “lake drought” a growing concern. However, there is no established framework for identifying and studying lake droughts. Here, we propose a reliable definition for it and provide a global assessment of over 160,000 lakes (≥1 km2) using monthly area data from 1985 to 2018. Our findings show that 15.7% of lakes have experienced statistically significant increasing trends in drought frequency (p < 0.05), with hotspots in the Southern United States at 52.7% and Southeast Australia at 70.4%. Furthermore, we identify two severe lake drought events in the Southern United States (2012–2014) and Southeast Australia (2007–2010), posing dramatic threats to water supplies, biodiversity, and ecological health. Rising trends in lake drought are driven by increasing temperature, vapor pressure deficit, and factors associated with the lake water cycle, such as precipitation deficit, increased evaporation, and excessive water withdrawal.

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Global assessment and hotspots of lake drought

Abstract

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