Journal of Water and Climate Change (Apr 2022)

Evaluation and projection of the annual maximum streamflow in response to anthropogenic and climatic effects under nonstationary conditions in the Hanjiang River Basin, China

  • Wenlong Hao,
  • Quanxi Shao,
  • Peng Wei,
  • Changjun Zhu,
  • Xi Chen,
  • Rongbo Chen

DOI
https://doi.org/10.2166/wcc.2022.376
Journal volume & issue
Vol. 13, no. 4
pp. 1855 – 1877

Abstract

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The flood regimes have been changing due to the climate change and human activities. Evaluating the flood risk under nonstationarity is critical to water resource management authorities in disaster reduction. In this study, the annual maximum streamflow (AMS) was used to analyze the nonstationarity in flood frequency in the Hanjiang River (HJR) Basin. A Generalized Additive Model for Location, Scale and Shape (GAMLSS) is employed to characterize nonstationarity in the AMS with time, as well as climatic and anthropogenic factors. Additionally, changes of the AMS in response to future climate change and human activity are also investigated. Results indicate that flood behavior can be better described by the nonstationary model with physically based covariates than that with time and the stationary model, implying that flood regimes of the HJR Basin are mainly influenced by anthropogenic and climatic factors including reservoir, precipitation and temperature. The precipitation and temperature projected by the Statistical Downscaling Model (SDSM) under two climate scenarios (RCP2.6 and RCP4.5) in the HJR Basin are characterized by an increasing trend over the period of 2006–2100. Furthermore, an increasing trend was found in the AMS during 2051–2100, indicating that flood risk is likely to increase in the future in the HJR Basin due to the climate change alone without further changes in hydrological engineering and flood management. The results quantified the flood frequency under nonstationarity conditions with physically based covariates and provided information to the decision-makers to address the potential risks posed to the HJR Basin. HIGHLIGHTS The nonstationary model with physically based explanatory covariates can better describe the flood regime.; The model analyzes the changes in the annual maximum streamflow over time and association with climatic and reservoir indices.; Flood risk is likely to increase in the future in the Hanjiang River Basin due to climate change alone without further changes in hydrological engineering and flood management.;

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