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Comparison of daily and sub-daily SWAT models for daily streamflow simulation in the Upper Huai River Basin of China
Authors:Xiaoying Yang  Qun Liu  Yi He  Xingzhang Luo  Xiaoxiang Zhang
Affiliation:1.Department of Environmental Science and Engineering,Fudan University,Shanghai,China;2.Zhumadian City Bureau of Environmental Protection,Zhumadian,China;3.Tyndall Centre for Climate Change Research, School of Environmental Sciences,University of East Anglia,Norwich,UK;4.Institute of Geographical Information Science & Engineering,Hohai University,Nanjing,China
Abstract:
Despite the significant role of precipitation in the hydrological cycle, few studies have been conducted to evaluate the impacts of the temporal resolution of rainfall inputs on the performance of SWAT (soil and water assessment tool) models in large-sized river basins. In this study, both daily and hourly rainfall observations at 28 rainfall stations were used as inputs to SWAT for daily streamflow simulation in the Upper Huai River Basin. Study results have demonstrated that the SWAT model with hourly rainfall inputs performed better than the model with daily rainfall inputs in daily streamflow simulation, primarily due to its better capability of simulating peak flows during the flood season. The sub-daily SWAT model estimated that 58 % of streamflow was contributed by baseflow compared to 34 % estimated by the daily model. Using the future daily and 3-h precipitation projections under the RCP (Representative Concentration Pathways) 4.5 scenario as inputs, the sub-daily SWAT model predicted a larger amount of monthly maximum daily flow during the wet years than the daily model. The differences between the daily and sub-daily SWAT model simulation results indicated that temporal rainfall resolution could have much impact on the simulation of hydrological process, streamflow, and consequently pollutant transport by SWAT models. There is an imperative need for more studies to examine the effects of temporal rainfall resolution on the simulation of hydrological and water pollutant transport processes by SWAT in river basins of different environmental conditions.
Keywords:
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