Spatiotemporal changes and interconnections between meteorological and hydrological droughts in China over past 34 years

Understanding the evolution and lag effects of droughts is critical to effective drought warning and water resources management. However, due to limited hydrological data, few studies have examined hydrological droughts and their lag time from meteorological droughts at a daily scale. In this study,...

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Published inWater Science and Engineering Vol. 18; no. 3; pp. 274 - 287
Main Authors Zhang, Ke, Li, Zhi-lin, Shi, Wu-zhi, Tao, Ran, Yang, Xu, Huang, Yi-ming
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.09.2025
Elsevier
Subjects
atmospheric precipitation
autumn
China
drought
Drought characteristic
evolution
hydrologic data
Hydrological drought
Lag time
Meteorological drought
rivers
runoff
VIC
watersheds
winter
Yangtze River
Yellow River
China
Yangtze River
Yellow River
Hydrological drought
Drought characteristic
VIC
Lag time
Meteorological drought
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Abstract Understanding the evolution and lag effects of droughts is critical to effective drought warning and water resources management. However, due to limited hydrological data, few studies have examined hydrological droughts and their lag time from meteorological droughts at a daily scale. In this study, precipitation data were collected to calculate the standardized precipitation index (SPI), and runoff data simulated by the variable infiltration capacity (VIC) model were utilized to compute the standardized runoff index (SRI). The three-threshold run theory was used to identify drought characteristics in China. These drought characteristics were utilized to investigate spatiotemporal variations, seasonal trends, and temporal changes in areas affected by meteorological and hydrological droughts. Additionally, the interconnections and lag effects between meteorological and hydrological droughts were explored. The results indicated that (1) drought occurred during approximately 28% of the past 34 years in China; (2) drought conditions tended to worsen in autumn and weaken in winter; (3) drought-affected areas shifted from northwest to northeast and finally to southern China; and (4) the correlation between meteorological and hydrological droughts was lower in the northwest and higher in the southeast, with all correlation coefficients exceeding 0.7. The lag times between meteorological and hydrological droughts were longest (5 d) in the Yangtze River, Yellow River, and Hai River basins, and shortest (0 d) in the Tarim River Basin. This study provides a scientific basis for effective early warning of droughts.
AbstractList Understanding the evolution and lag effects of droughts is critical to effective drought warning and water resources management. However, due to limited hydrological data, few studies have examined hydrological droughts and their lag time from meteorological droughts at a daily scale. In this study, precipitation data were collected to calculate the standardized precipitation index (SPI), and runoff data simulated by the variable infiltration capacity (VIC) model were utilized to compute the standardized runoff index (SRI). The three-threshold run theory was used to identify drought characteristics in China. These drought characteristics were utilized to investigate spatiotemporal variations, seasonal trends, and temporal changes in areas affected by meteorological and hydrological droughts. Additionally, the interconnections and lag effects between meteorological and hydrological droughts were explored. The results indicated that (1) drought occurred during approximately 28% of the past 34 years in China; (2) drought conditions tended to worsen in autumn and weaken in winter; (3) drought-affected areas shifted from northwest to northeast and finally to southern China; and (4) the correlation between meteorological and hydrological droughts was lower in the northwest and higher in the southeast, with all correlation coefficients exceeding 0.7. The lag times between meteorological and hydrological droughts were longest (5 d) in the Yangtze River, Yellow River, and Hai River basins, and shortest (0 d) in the Tarim River Basin. This study provides a scientific basis for effective early warning of droughts.
Author Zhang, Ke
Huang, Yi-ming
Yang, Xu
Shi, Wu-zhi
Li, Zhi-lin
Tao, Ran
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Drought characteristic
VIC
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Snippet Understanding the evolution and lag effects of droughts is critical to effective drought warning and water resources management. However, due to limited...
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SourceType Open Website
Aggregation Database
Index Database
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StartPage 274
SubjectTerms atmospheric precipitation
autumn
China
drought
Drought characteristic
evolution
hydrologic data
Hydrological drought
Lag time
Meteorological drought
rivers
runoff
VIC
watersheds
winter
Yangtze River
Yellow River
Title Spatiotemporal changes and interconnections between meteorological and hydrological droughts in China over past 34 years
URI https://dx.doi.org/10.1016/j.wse.2025.04.007
https://www.proquest.com/docview/3242064506
https://doaj.org/article/b42ac340842846e5bd72e0f58937225b
Volume 18
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