Journal of Water and Climate Change (Feb 2022)
Relationship between meteorological and hydrological droughts in the upstream regions of the Lancang–Mekong River
Abstract
Information on the relationship between meteorological drought (MD) and hydrological drought (HD) can serve as the basis for early warning and mitigation of HD. In this study, the standardized precipitation index and standardized streamflow index were applied to characterize MD and HD, respectively, and the evolution characteristics of MD and HD were assessed in the upstream regions of the Lancang–Mekong River (ULMR) from 1961 to 2015. Furthermore, the relationship between MD and HD was investigated using the Pearson correlation and wavelet analysis. The results revealed that (1) there was no significant change in the annual precipitation and streamflow; however, the ULMR experienced successive alternations of wet and dry episodes; (2) the average duration and magnitude of MD and HD increased with an increase in the time scale, while the duration and magnitude of MD lengthened and amplified in HD; (3) MD more likely propagated to HD as the time scale increased, and the propagation time exhibited marked seasonality, which was shorter in the wet season and longer in the dry season; and (4) there was a positive correlation between MD and HD; these two types of drought exhibited similar resonance frequency and phase-shift characteristics, and HD lagged behind MD. HIGHLIGHTS Duration and magnitude of meteorological drought lengthened and amplified in hydrological drought.; Longer time scales of meteorological drought more likely propagated to hydrological drought.; Propagation time from meteorological to hydrological drought exhibited marked seasonality.; Hydrological and meteorological drought presented similar patterns in terms of resonance frequency and phase shift.;
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