Non-monotonic changes in Asian Water Towers’ streamflow at increasing warming levels

Tong Cui; Yukun Li; Long Yang; Yi Nan; Kunbiao Li; Mahmut Tudaji; Hongchang Hu; Di Long; Muhammad Shahid; Ammara Mubeen; Zhihua He; Bin Yong; Hui Lu; Chao Li; Guangheng Ni; Chunhong Hu; Fuqiang Tian

doi:10.1038/s41467-023-36804-6

Non-monotonic changes in Asian Water Towers’ streamflow at increasing warming levels

Tong Cui, Yukun Li, Long Yang, Yi Nan, Kunbiao Li, Mahmut Tudaji, Hongchang Hu, Di Long, Muhammad Shahid, Ammara Mubeen, Zhihua He, Bin Yong, Hui Lu, Chao Li, Guangheng Ni, Chunhong Hu, Fuqiang Tian

School of Geographic Sciences

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

104 Scopus citations

Abstract

Previous projections show consistent increases in river flows of Asian Water Towers under future climate change. Here we find non-monotonic changes in river flows for seven major rivers originating from the Tibetan Plateau at the warming levels of 1.5 °C, 2.0 °C, and 3.0 °C based on an observation-constrained hydrological model. The annual mean streamflow for seven rivers at 1.5 °C warming level decreases by 0.1–3.2% relative to the present-day climate condition, and increases by 1.5–12% at 3.0 °C warming level. The shifting river flows for the Yellow, Yangtze, Brahmaputra, and Ganges are mostly influenced by projected increases in rainfall, but those for the Mekong, Salween, and Indus are dictated by the relative changes in rainfall, snowmelt and glacier melt. Reduced river flows in a moderately warmed climate threaten water security in riparian countries, while elevated flood risks are expected with further temperature increases over the Tibetan Plateau.

Original language	English
Article number	1176
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-36804-6
State	Published - Dec 2023

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title = "Non-monotonic changes in Asian Water Towers{\textquoteright} streamflow at increasing warming levels",

abstract = "Previous projections show consistent increases in river flows of Asian Water Towers under future climate change. Here we find non-monotonic changes in river flows for seven major rivers originating from the Tibetan Plateau at the warming levels of 1.5 °C, 2.0 °C, and 3.0 °C based on an observation-constrained hydrological model. The annual mean streamflow for seven rivers at 1.5 °C warming level decreases by 0.1–3.2\% relative to the present-day climate condition, and increases by 1.5–12\% at 3.0 °C warming level. The shifting river flows for the Yellow, Yangtze, Brahmaputra, and Ganges are mostly influenced by projected increases in rainfall, but those for the Mekong, Salween, and Indus are dictated by the relative changes in rainfall, snowmelt and glacier melt. Reduced river flows in a moderately warmed climate threaten water security in riparian countries, while elevated flood risks are expected with further temperature increases over the Tibetan Plateau.",

author = "Tong Cui and Yukun Li and Long Yang and Yi Nan and Kunbiao Li and Mahmut Tudaji and Hongchang Hu and Di Long and Muhammad Shahid and Ammara Mubeen and Zhihua He and Bin Yong and Hui Lu and Chao Li and Guangheng Ni and Chunhong Hu and Fuqiang Tian",

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AU - Cui, Tong

AU - Li, Yukun

AU - Yang, Long

AU - Nan, Yi

AU - Li, Kunbiao

AU - Tudaji, Mahmut

AU - Hu, Hongchang

AU - Long, Di

AU - Shahid, Muhammad

AU - Mubeen, Ammara

AU - He, Zhihua

AU - Yong, Bin

AU - Lu, Hui

AU - Li, Chao

AU - Ni, Guangheng

AU - Hu, Chunhong

AU - Tian, Fuqiang

PY - 2023/12

Y1 - 2023/12

N2 - Previous projections show consistent increases in river flows of Asian Water Towers under future climate change. Here we find non-monotonic changes in river flows for seven major rivers originating from the Tibetan Plateau at the warming levels of 1.5 °C, 2.0 °C, and 3.0 °C based on an observation-constrained hydrological model. The annual mean streamflow for seven rivers at 1.5 °C warming level decreases by 0.1–3.2% relative to the present-day climate condition, and increases by 1.5–12% at 3.0 °C warming level. The shifting river flows for the Yellow, Yangtze, Brahmaputra, and Ganges are mostly influenced by projected increases in rainfall, but those for the Mekong, Salween, and Indus are dictated by the relative changes in rainfall, snowmelt and glacier melt. Reduced river flows in a moderately warmed climate threaten water security in riparian countries, while elevated flood risks are expected with further temperature increases over the Tibetan Plateau.

AB - Previous projections show consistent increases in river flows of Asian Water Towers under future climate change. Here we find non-monotonic changes in river flows for seven major rivers originating from the Tibetan Plateau at the warming levels of 1.5 °C, 2.0 °C, and 3.0 °C based on an observation-constrained hydrological model. The annual mean streamflow for seven rivers at 1.5 °C warming level decreases by 0.1–3.2% relative to the present-day climate condition, and increases by 1.5–12% at 3.0 °C warming level. The shifting river flows for the Yellow, Yangtze, Brahmaputra, and Ganges are mostly influenced by projected increases in rainfall, but those for the Mekong, Salween, and Indus are dictated by the relative changes in rainfall, snowmelt and glacier melt. Reduced river flows in a moderately warmed climate threaten water security in riparian countries, while elevated flood risks are expected with further temperature increases over the Tibetan Plateau.

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DO - 10.1038/s41467-023-36804-6

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SN - 2041-1723

VL - 14

JO - Nature Communications

JF - Nature Communications

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ER -

Non-monotonic changes in Asian Water Towers’ streamflow at increasing warming levels

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