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The accuracy of multisource evapotranspiration products and their applicability in streamflow simulation over a large catchment of Southern China

Jie Ding, Qian Zhu

2022Journal of Hydrology Regional Studies33 citationsDOIOpen Access PDF

Abstract

Xiang River Basin, Southern China. Multisource ET products, namely MOD16, GLEAM and GLDAS, are evaluated for their accuracy. Furthermore, to investigate the applicability of multisource ET products in streamflow simulation, the SWAT model is calibrated with three strategies: calibration using streamflow observations (Strategy I), calibration using multisource ET (Strategy II) and calibration by incorporating them (Strategy III). Moreover, the impact of using multisource ET products at subbasin level on streamflow simulation is also investigated. GLEAM tends to have the least relative uncertainty in the basin and perform the best in the comparison with CR-ET and water-balance derived ET as benchmark. Overall, Multisource ET products are alternative variables for streamflow simulation in this basin. The NSE of the simulated streamflow can reach 0.73, 0.70, 0.68 in the validation period based on calibration Strategy II with MOD16, GLEAM and GLDAS, respectively, which are slightly poorer than that based on Strategy I but still good. And the collocation of streamflow observations and GLEAM performs relatively better in Strategy III according to the three selected evaluation indices (NSE, BIAS and KGE). It should be noted that when taking the spatial information of ET products into parameter calibration, the differences of the streamflow simulation performances in the calibration and validation periods can be effectively reduced, indicating its robust performance.

Topics & Concepts

StreamflowCalibrationEnvironmental scienceEvapotranspirationBenchmark (surveying)Soil and Water Assessment ToolSWAT modelStructural basinDrainage basinClimatologyMeteorologyStatisticsMathematicsGeographyGeologyCartographyBiologyPaleontologyEcologyHydrology and Watershed Management StudiesPlant Water Relations and Carbon DynamicsHydrology and Drought Analysis