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The Fenhe River Basin, China The hydrological parameters remained constant in a changing environment may no longer be applicable. The split-sample calibration method based on sliding window division (SWD-SSC) was proposed as a time-varying method, which confronts a challenge in the past due to the small number of samples and discontinuity. The annual LULC input and 11-year-block sliding scheme in distributed SWAT model were used to calibrate parameters. Sensitive parameters related to runoff, vegetation canopy and soil moisture demonstrated how characteristics change over time. Non-linear relationships for parameter variations were constructed by multiple algorithms combined with vegetation indexes, land use, human activity such as social economy factors. SWD-SSC method performed well during the whole periods. When the same parameters sets were applied to all periods, the accuracy will be inferior to SWD-SSC with a decrease by 12–200% in NSE. Random Forests and Back-Propagation neural network show best performance in describing the relationship between hydrological parameters and environmental factors. The impact of climate change and human activities on runoff account for 33.2% and 66.8%. The impact of land use changes on runoff are 10.9% (-2.53 mm) and 8.7% (-1.35 mm) by time-varying parameters fixed parameters, respectively. These findings aid in the comprehension of hydrological processes and enhance simulation accuracy under changing environment, ensuring future regional water safety.
Wang et al. (Mon,) studied this question.
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