Acceleration of diverging runoff trends on the Third Pole

Lei Wang; Xiuping Li; Arthur Lutz; Santosh Nepal; Deliang Chen; Tandong Yao; Fengge Su; Lan Cuo; Zhijun Yao; Yinsheng Zhang; Zhidan Hu; Jingheng Huang; Mei Hou; Ruishun Liu; Junshui Long; Chenhao Chai; Zhaofei Liu; Ahmad Bashir; Sonu Khanal; He Sun; Yong Nie; Yongqiang Zhang; Tao Wang

doi:10.1038/s43247-025-02854-5

Acceleration of diverging runoff trends on the Third Pole

Lei Wang^*
, Xiuping Li^*
, Arthur Lutz
, Santosh Nepal
, Deliang Chen
, Tandong Yao
, Fengge Su
, Lan Cuo
, Zhijun Yao
, Yinsheng Zhang
, Zhidan Hu
, Jingheng Huang
, Mei Hou
, Ruishun Liu
, Junshui Long
, Chenhao Chai
, Zhaofei Liu
, Ahmad Bashir
, Sonu Khanal
, He Sun

Yong Nie, Yongqiang Zhang, Tao Wang

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Quantifying long-term historical changes in river runoff from the vulnerable high-mountain Third Pole is critical for Asia’s water resources planning, but still unresolved from a coherent, regional perspective in the climate change context. Here we show that the mountain-outlet runoff generally experienced significant increases for the westerlies-dominated rivers (Indus, Amu Darya, Syr Darya, Tarim, Heihe, and, Shule) and insignificant declines for the monsoon-dominated rivers (Ganges, Brahmaputra, Mekong, and Salween) in the past half-century, largely driven by the enhanced westerlies and weakened Indian summer monsoon. Although the changing rates of runoff can be mostly explained by the varying precipitation minus evapotranspiration, the total water storage changes (e.g., regional glacier melting, groundwater depletion) cannot be neglected. After the year 1997, the contrasting changes in the westerlies- and monsoon-dominated regions have been remarkably accelerated, necessitating proactive adaptations to sustain regional water, ecology, and food security.

Original language	English
Article number	907
Journal	Communications Earth and Environment
Volume	6
Issue number	1
DOIs	https://doi.org/10.1038/s43247-025-02854-5
Publication status	Published - Dec 2025

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Publisher Copyright:
© The Author(s) 2025.

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s43247-025-02854-5Final published version, 2.12 MBLicence: CC BY-NC-ND

Cite this

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title = "Acceleration of diverging runoff trends on the Third Pole",

abstract = "Quantifying long-term historical changes in river runoff from the vulnerable high-mountain Third Pole is critical for Asia{\textquoteright}s water resources planning, but still unresolved from a coherent, regional perspective in the climate change context. Here we show that the mountain-outlet runoff generally experienced significant increases for the westerlies-dominated rivers (Indus, Amu Darya, Syr Darya, Tarim, Heihe, and, Shule) and insignificant declines for the monsoon-dominated rivers (Ganges, Brahmaputra, Mekong, and Salween) in the past half-century, largely driven by the enhanced westerlies and weakened Indian summer monsoon. Although the changing rates of runoff can be mostly explained by the varying precipitation minus evapotranspiration, the total water storage changes (e.g., regional glacier melting, groundwater depletion) cannot be neglected. After the year 1997, the contrasting changes in the westerlies- and monsoon-dominated regions have been remarkably accelerated, necessitating proactive adaptations to sustain regional water, ecology, and food security.",

author = "Lei Wang and Xiuping Li and Arthur Lutz and Santosh Nepal and Deliang Chen and Tandong Yao and Fengge Su and Lan Cuo and Zhijun Yao and Yinsheng Zhang and Zhidan Hu and Jingheng Huang and Mei Hou and Ruishun Liu and Junshui Long and Chenhao Chai and Zhaofei Liu and Ahmad Bashir and Sonu Khanal and He Sun and Yong Nie and Yongqiang Zhang and Tao Wang",

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doi = "10.1038/s43247-025-02854-5",

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AU - Wang, Lei

AU - Li, Xiuping

AU - Lutz, Arthur

AU - Nepal, Santosh

AU - Chen, Deliang

AU - Yao, Tandong

AU - Su, Fengge

AU - Cuo, Lan

AU - Yao, Zhijun

AU - Zhang, Yinsheng

AU - Hu, Zhidan

AU - Huang, Jingheng

AU - Hou, Mei

AU - Liu, Ruishun

AU - Long, Junshui

AU - Chai, Chenhao

AU - Liu, Zhaofei

AU - Bashir, Ahmad

AU - Khanal, Sonu

AU - Sun, He

AU - Nie, Yong

AU - Zhang, Yongqiang

AU - Wang, Tao

PY - 2025/12

Y1 - 2025/12

N2 - Quantifying long-term historical changes in river runoff from the vulnerable high-mountain Third Pole is critical for Asia’s water resources planning, but still unresolved from a coherent, regional perspective in the climate change context. Here we show that the mountain-outlet runoff generally experienced significant increases for the westerlies-dominated rivers (Indus, Amu Darya, Syr Darya, Tarim, Heihe, and, Shule) and insignificant declines for the monsoon-dominated rivers (Ganges, Brahmaputra, Mekong, and Salween) in the past half-century, largely driven by the enhanced westerlies and weakened Indian summer monsoon. Although the changing rates of runoff can be mostly explained by the varying precipitation minus evapotranspiration, the total water storage changes (e.g., regional glacier melting, groundwater depletion) cannot be neglected. After the year 1997, the contrasting changes in the westerlies- and monsoon-dominated regions have been remarkably accelerated, necessitating proactive adaptations to sustain regional water, ecology, and food security.

AB - Quantifying long-term historical changes in river runoff from the vulnerable high-mountain Third Pole is critical for Asia’s water resources planning, but still unresolved from a coherent, regional perspective in the climate change context. Here we show that the mountain-outlet runoff generally experienced significant increases for the westerlies-dominated rivers (Indus, Amu Darya, Syr Darya, Tarim, Heihe, and, Shule) and insignificant declines for the monsoon-dominated rivers (Ganges, Brahmaputra, Mekong, and Salween) in the past half-century, largely driven by the enhanced westerlies and weakened Indian summer monsoon. Although the changing rates of runoff can be mostly explained by the varying precipitation minus evapotranspiration, the total water storage changes (e.g., regional glacier melting, groundwater depletion) cannot be neglected. After the year 1997, the contrasting changes in the westerlies- and monsoon-dominated regions have been remarkably accelerated, necessitating proactive adaptations to sustain regional water, ecology, and food security.

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DO - 10.1038/s43247-025-02854-5

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SN - 2662-4435

VL - 6

JO - Communications Earth and Environment

JF - Communications Earth and Environment

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ER -

Acceleration of diverging runoff trends on the Third Pole

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