SWAT Literature Database for Peer-Reviewed Journal Articles

Title:Uncertainty impacts of climate change and downscaling methods on future runoff projections in the Biliu River Basin 
Authors:Zhu, X., A. Zhang, P. Wu, W. Qi, G. Fu, G. Yue and X. Liu 
Volume (Issue):11(10) 
Article ID:2130 
URL (non-DOI journals): 
Broad Application Category:hydrologic only 
Primary Application Category:uncertainty analysis 
Secondary Application Category:climate change 
Watershed Description:2,085 km^2 Biliu River Reservoir drainage area, located in northeast China. 
Calibration Summary: 
Validation Summary: 
General Comments: 
Abstract:This paper assesses the uncertainties in the projected future runoff resulting from climate change and downscaling methods in the Biliu River basin (Liaoning province, Northeast China). One widely used hydrological model SWAT, 11 Global Climate Models (GCMs), two statistical downscaling methods, four dynamical downscaling datasets, and two Representative Concentration Pathways (RCP4.5 and RCP8.5) are applied to construct 22 scenarios to project runoff. Hydrology variables in historical and future periods are compared to investigate their variations, and the uncertainties associated with climate change and downscaling methods are also analyzed. The results show that future temperatures will increase under all scenarios and will increase more under RCP8.5 than RCP4.5, while future precipitation will increase under 16 scenarios. Future runoff tends to decrease under 13 out of the 22 scenarios. We also found that the mean runoff changes ranging from −38.38% to 33.98%. Future monthly runoff increases in May, June, September, and October and decreases in all the other months. Different downscaling methods have little impact on the lower envelope of runoff, and they mainly impact the upper envelope of the runoff. The impact of climate change can be regarded as the main source of the runoff uncertainty during the flood period (from May to September), while the impact of downscaling methods can be regarded as the main source during the non-flood season (from October to April). This study separated the uncertainty impact of different factors, and the results could provide very important information for water resource management. 
Keywords:uncertainty impact; climate change; downscaling; runoff