{"title":"Attribution discernment of climate change and human interventions to runoff decline in Huangshui River Basin, China","authors":"Pengquan Wang, Runjie Li, Shengkui Cao","doi":"10.2166/nh.2024.130","DOIUrl":null,"url":null,"abstract":"<div><div data- reveal-group-><div><img alt=\"graphic\" data-src=\"https://iwa.silverchair-cdn.com/iwa/content_public/journal/hr/55/3/10.2166_nh.2024.130/1/m_hydrology-d-23-00130gf01.png?Expires=1714741965&Signature=2~jEh2ompjDKicSXxMpZoxcT5~rO~4MXvu922ogjevsibIjx-B8GfOrChC68JfBfrb6BD6ON3n69mAcR~9Ym6in0MMreeVve6RAEe1bYyQ57bicNCdGf0mH~S3im8VpwUj1cUfsMBPazCmVk4V4pxfRumEN6wEoK1yxWxs7chTa2dm3wvOCBnrfRSGIFMUO6cF9hsqkdIoe5oS5HvARQs0y4PXDJakWYOjcx-HBBisTQ06ZTaXqiFg8I2BLJWFqgIiqkGXUXdCTTC~Nymn5z4GDGN979oPKwDkTf1sK2YrllJlzGlpqdsEvrQY7W7Yp5gJx0cmeFslRZOUH5eJqGMA__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA\" path-from-xml=\"hydrology-d-23-00130gf01.tif\" src=\"https://iwa.silverchair-cdn.com/iwa/content_public/journal/hr/55/3/10.2166_nh.2024.130/1/m_hydrology-d-23-00130gf01.png?Expires=1714741965&Signature=2~jEh2ompjDKicSXxMpZoxcT5~rO~4MXvu922ogjevsibIjx-B8GfOrChC68JfBfrb6BD6ON3n69mAcR~9Ym6in0MMreeVve6RAEe1bYyQ57bicNCdGf0mH~S3im8VpwUj1cUfsMBPazCmVk4V4pxfRumEN6wEoK1yxWxs7chTa2dm3wvOCBnrfRSGIFMUO6cF9hsqkdIoe5oS5HvARQs0y4PXDJakWYOjcx-HBBisTQ06ZTaXqiFg8I2BLJWFqgIiqkGXUXdCTTC~Nymn5z4GDGN979oPKwDkTf1sK2YrllJlzGlpqdsEvrQY7W7Yp5gJx0cmeFslRZOUH5eJqGMA__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA\"/><div>View largeDownload slide</div></div></div><div content- data-reveal=\"data-reveal\"><div><img alt=\"graphic\" data-src=\"https://iwa.silverchair-cdn.com/iwa/content_public/journal/hr/55/3/10.2166_nh.2024.130/1/m_hydrology-d-23-00130gf01.png?Expires=1714741965&Signature=2~jEh2ompjDKicSXxMpZoxcT5~rO~4MXvu922ogjevsibIjx-B8GfOrChC68JfBfrb6BD6ON3n69mAcR~9Ym6in0MMreeVve6RAEe1bYyQ57bicNCdGf0mH~S3im8VpwUj1cUfsMBPazCmVk4V4pxfRumEN6wEoK1yxWxs7chTa2dm3wvOCBnrfRSGIFMUO6cF9hsqkdIoe5oS5HvARQs0y4PXDJakWYOjcx-HBBisTQ06ZTaXqiFg8I2BLJWFqgIiqkGXUXdCTTC~Nymn5z4GDGN979oPKwDkTf1sK2YrllJlzGlpqdsEvrQY7W7Yp5gJx0cmeFslRZOUH5eJqGMA__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA\" path-from-xml=\"hydrology-d-23-00130gf01.tif\" src=\"https://iwa.silverchair-cdn.com/iwa/content_public/journal/hr/55/3/10.2166_nh.2024.130/1/m_hydrology-d-23-00130gf01.png?Expires=1714741965&Signature=2~jEh2ompjDKicSXxMpZoxcT5~rO~4MXvu922ogjevsibIjx-B8GfOrChC68JfBfrb6BD6ON3n69mAcR~9Ym6in0MMreeVve6RAEe1bYyQ57bicNCdGf0mH~S3im8VpwUj1cUfsMBPazCmVk4V4pxfRumEN6wEoK1yxWxs7chTa2dm3wvOCBnrfRSGIFMUO6cF9hsqkdIoe5oS5HvARQs0y4PXDJakWYOjcx-HBBisTQ06ZTaXqiFg8I2BLJWFqgIiqkGXUXdCTTC~Nymn5z4GDGN979oPKwDkTf1sK2YrllJlzGlpqdsEvrQY7W7Yp5gJx0cmeFslRZOUH5eJqGMA__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA\"/><div>View largeDownload slide</div></div><i> </i><span>Close modal</span></div></div><p>To achieve sustainable development goals in Huangshui River Basin (HRB), strengthening adaptive water resources management under the dual impact of climate change (CC) and human interventions (HI) is of great significance. Multiple mathematical and statistical methods were employed to determine the runoff trend and breakpoint in HRB. The elasticity of CC and HI on the runoff decline and their contributions were quantitatively discerned based on the Budyko hypothesis, complementary method, and SWAT hydrological model. The results show that (1) the runoff showed a decreasing trend, with a runoff breakpoint in 1990; (2) the elasticity coefficients indicated a 1% increase in <em>P</em>, ET<sub>0</sub>, and <em>n</em>, leading to a 2.19% increase, a 1.19% decrease, and a 1.52% decrease in the runoff, respectively; (3) the Budyko framework determined the contribution of CC and HI to runoff decline in HRB to be 37.98–41.86% and 58.14–62.02%, respectively, and that estimated by SWAT hydrological model to be 38.72 and 61.28%, respectively; (4) HI were the primary factor for runoff decline in HRB, where direct anthropogenic disturbances such as water withdrawals and water conservancy project construction were the main drivers. The findings have important scientific significance for water resources planning and management in HRB.</p>","PeriodicalId":13096,"journal":{"name":"Hydrology Research","volume":"284 1","pages":""},"PeriodicalIF":2.6000,"publicationDate":"2024-03-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Hydrology Research","FirstCategoryId":"93","ListUrlMain":"https://doi.org/10.2166/nh.2024.130","RegionNum":4,"RegionCategory":"环境科学与生态学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"WATER RESOURCES","Score":null,"Total":0}
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To achieve sustainable development goals in Huangshui River Basin (HRB), strengthening adaptive water resources management under the dual impact of climate change (CC) and human interventions (HI) is of great significance. Multiple mathematical and statistical methods were employed to determine the runoff trend and breakpoint in HRB. The elasticity of CC and HI on the runoff decline and their contributions were quantitatively discerned based on the Budyko hypothesis, complementary method, and SWAT hydrological model. The results show that (1) the runoff showed a decreasing trend, with a runoff breakpoint in 1990; (2) the elasticity coefficients indicated a 1% increase in P, ET0, and n, leading to a 2.19% increase, a 1.19% decrease, and a 1.52% decrease in the runoff, respectively; (3) the Budyko framework determined the contribution of CC and HI to runoff decline in HRB to be 37.98–41.86% and 58.14–62.02%, respectively, and that estimated by SWAT hydrological model to be 38.72 and 61.28%, respectively; (4) HI were the primary factor for runoff decline in HRB, where direct anthropogenic disturbances such as water withdrawals and water conservancy project construction were the main drivers. The findings have important scientific significance for water resources planning and management in HRB.
期刊介绍:
Hydrology Research provides international coverage on all aspects of hydrology in its widest sense, and welcomes the submission of papers from across the subject. While emphasis is placed on studies of the hydrological cycle, the Journal also covers the physics and chemistry of water. Hydrology Research is intended to be a link between basic hydrological research and the practical application of scientific results within the broad field of water management.
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