On the development and recovery of soil moisture deficit drought events

•A comprehensive evaluation of the global soil moisture drought development and recovery characteristics is conducted.•Drought development speed statistically increased and drought duration statistically decreased from 1960 to 2020.•The timing of the occurrence of extreme meteorological conditions s...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) Vol. 632; p. 130920
Main Authors: Deng, Simin, Tan, Xuezhi, Tan, Xuejin, Wu, Xinxin, Huang, Zeqin, Liu, Yaxin, Liu, Bingjun
Format: Journal Article
Language:English
Published: Elsevier B.V 01-03-2024
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Summary:•A comprehensive evaluation of the global soil moisture drought development and recovery characteristics is conducted.•Drought development speed statistically increased and drought duration statistically decreased from 1960 to 2020.•The timing of the occurrence of extreme meteorological conditions shows more significant effects on the propagation of drought than average meteorological conditions. Soil moisture drought is one of the driving forces behind agricultural drought and disastrousness for food production, but the understanding of internal drought propagation is limited, making it difficult to track and predict drought propagation. Based on the trend analysis, Spearman correlation analyses, and the random forest model simulations, we analyzed the spatial and temporal distribution characteristics of soil moisture drought propagation globally from 1960 to 2020 and evaluated the contributions of various meteorological factors on soil moisture drought propagation. The results show that the mean drought instantaneous recovery speed (IRS) is 1.52 times greater than the instantaneous development speed (IDS) globally from 1960 to 2020. IDS (IRS) in arid region is lower (higher) by 24.9 % (11.7 %) than in humid areas. The drought IDS statistically increased 0.012 % pentad−1 year−1 and drought duration statistically decreased 0.020 pentad year−1 from 1960 to 2020, especially in the mid- and high-latitudes of the Northern Hemisphere (45–67.5°N). The timing of the occurrence of extreme meteorological conditions shows more significant effects on the propagation of drought than average meteorological conditions within the drought period. Since evapotranspiration (precipitation) exerts greater influences on drought development (recovery) than other meteorological variables, intensified hydrological cycle under a warming climate could possibly accelerate the drought development and recovery.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2024.130920