SWAT Literature Database for Peer-Reviewed Journal Articles

Title:Hydrologic response of a small watershed model to generated precipitation 
Authors:Harmel, R. D., C.W. Richardson and K.W. King 
Journal:Transactions of the ASAE 
Volume (Issue):43(6) 
Article ID: 
URL (non-DOI journals): 
Broad Application Category:hydrologic only 
Primary Application Category:weather generator effects/processes 
Secondary Application Category:climate data effects 
Watershed Description:53.2 km^2 experimental watershed, located near Riesel, Texas, U.S. 
Calibration Summary: 
Validation Summary: 
General Comments:The WGEN, WXGEN, and USCLIMATE weather generators were evaluated over a 60-year period with SWAT 
Abstract:Watershed models such as SWAT (Soil and Water Assessment Tool) simulate water quality impacts of land and water resource management alternatives. To simulate these impacts, long-term daily rainfall data are necessary. In the absence of measured rainfall data, watershed models use weather generators to simulate rainfall events. The objective of this study is to examine several daily precipitation generators in terms of the hydrologic response of SWAT. SWAT is generally applied to large river basins but has been validated and applied on the small watershed scale as well. Daily rainfall inputs included a 60-year measured rainfall record from 1939 to 1998 for Riesel, Texas, in the heart of the Blackland Prairie, and data generated with the precipitation components of three weather generation programs: WGEN, WXGEN, and USCLIMATE. Measured and generated rainfall were input into SWAT and run for a 53 ha watershed near Riesel, Texas. Rainfall totals, extreme rainfall events, and the resulting hydrologic responses of runoff volume and peak flows were then examined. For this study scenario, WXGEN was able to more closely match observed rainfall than WGEN and USCLIMATE. In terms of resulting SWAT hydrologic response, WXGEN rainfall best reproduced runoff volumes simulated with measured rainfall, and USCLIMATE performed better in reproducing peak runoff rates. These are important results as probabilities of exceeding runoff volume or peak flow thresholds are often questions of interest in watershed projects. 
Keywords:Weather generation, Watershed modeling, Hydrology