Comprehensive drought characteristics analysis based on a nonlinear multivariate drought index

•A reliable nonlinear multivariate drought index (NMDI) was constructed.•Copulas can better reflect the nonlinear relationship among multiple single drought indices.•Drought event including three drought characteristics was redefined with the NMDI.•Multivariate drought risk was fully assessed.•Parti...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) 2018-02, Vol.557, p.651-667
Main Authors: Yang, Jie, Chang, Jianxia, Wang, Yimin, Li, Yunyun, Hu, Hui, Chen, Yutong, Huang, Qiang, Yao, Jun
Format: Article
Language:English
Subjects:
Drought events
Drought risk
Multidimensional copulas
Nonlinear multivariate drought index
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Summary:•A reliable nonlinear multivariate drought index (NMDI) was constructed.•Copulas can better reflect the nonlinear relationship among multiple single drought indices.•Drought event including three drought characteristics was redefined with the NMDI.•Multivariate drought risk was fully assessed.•Partitions where had higher drought risk were found. It is vital to identify drought events and to evaluate multivariate drought characteristics based on a composite drought index for better drought risk assessment and sustainable development of water resources. However, most composite drought indices are constructed by the linear combination, principal component analysis and entropy weight method assuming a linear relationship among different drought indices. In this study, the multidimensional copulas function was applied to construct a nonlinear multivariate drought index (NMDI) to solve the complicated and nonlinear relationship due to its dependence structure and flexibility. The NMDI was constructed by combining meteorological, hydrological, and agricultural variables (precipitation, runoff, and soil moisture) to better reflect the multivariate variables simultaneously. Based on the constructed NMDI and runs theory, drought events for a particular area regarding three drought characteristics: duration, peak, and severity were identified. Finally, multivariate drought risk was analyzed as a tool for providing reliable support in drought decision-making. The results indicate that: (1) multidimensional copulas can effectively solve the complicated and nonlinear relationship among multivariate variables; (2) compared with single and other composite drought indices, the NMDI is slightly more sensitive in capturing recorded drought events; and (3) drought risk shows a spatial variation; out of the five partitions studied, the Jing River Basin as well as the upstream and midstream of the Wei River Basin are characterized by a higher multivariate drought risk. In general, multidimensional copulas provides a reliable way to solve the nonlinear relationship when constructing a comprehensive drought index and evaluating multivariate drought characteristics.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2017.12.055