Health & Environmental Research Online (HERO)


Print Feedback Export to File
8028377 
Journal Article 
Development of a SWAT extension module to simulate riparian wetland hydrologic processes at a watershed scale 
Liu, Y; Yang, W; Wang, X 
2008 
Yes 
Hydrological Processes
ISSN: 0885-6087
EISSN: 1099-1085 
22 
16 
2901-2915 
WOS:000258244500002 
Using a mass balance algorithm, this study develops an extension module that can be embedded in the commonly used Soil and Water Assessment Tool (SWAT). This module makes it possible to assess effects of riparian wetlands on runoff and sediment yields at a watershed scale, which is very important for aquatic ecosystem management but rarely documented in the literature. In addition to delineating boundaries of a watershed and its subwatersheds, the module groups riparian wetlands within a subwatershed into an equivalent wetland for modelling purposes. Further, the module has functions to compute upland drainage area and other parameters (e.g. maximum volume) for the equivalent wetland based on digital elevation model, stream network, land use, soil and Welland distribution GIS datasets. SWAT is used to estimate and route runoff and sediment generated from upland drainage area. The lateral exchange processes between riparian wetlands and their hydraulically connected streams are simulated by the extension module. The developed module is empirically applied to the 53 km(2) Upper Canagagigue Creek watershed located in Southern Ontario of Canada. The simulation results indicate that the module can make SWAT more reasonably predict flow and sediment loads at the outlet of the watershed and better represent the hydrologic processes within it. The simulation is sensitive to errors of wetland parameters and channel geometry. The approach of embedding the module into SWAT enables simulation of hydrologic processes in riparian wetlands, evaluation of Welland effects on regulating stream flow and sediment loading and assessment of various wetland restoration scenarios. Copyright (C) 2008 John Wiley & Sons, Ltd. 
riparian wetlands; runoff; sediment yield; GIS; SWAT; extension module