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Authors
Yuanxing Zhang
Northwest A&F University, College of Resources and Environment, Institute of Soil and Water Conservation, Chinese
Academy of Sciences and Ministry of Water Resources, National Engineering Research Center for Water-Saving Irrigation
at Yangling, Yangling, China
Jianen Gao
Northwest A&F University, Institute of Soil and Water Conservation, CAS & MWR, College of Water Resources and Agricultural Engineering, Yangling-712100, China
Hui Shao
Northwest A&F University, College of Resources and Environment, Institute of Soil and Water Conservation, Chinese
Academy of Sciences and Ministry of Water Resources, National Engineering Research Center for Water-Saving Irrigation
at Yangling, Yangling, China
Hongjie Wang
Northwest A&F University, College of Resources and Environment, Institute of Soil and Water Conservation, Chinese
Academy of Sciences and Ministry of Water Resources, National Engineering Research Center for Water-Saving Irrigation
at Yangling, Yangling, China
Chunhong Zhao
Northwest A&F University, College of Resources and Environment, Institute of Soil and Water Conservation, Chinese
Academy of Sciences and Ministry of Water Resources, National Engineering Research Center for Water-Saving Irrigation
at Yangling, Yangling, China
Hong Wang
Northwest A&F University, College of Resources and Environment, Institute of Soil and Water Conservation, Chinese
Academy of Sciences and Ministry of Water Resources, National Engineering Research Center for Water-Saving Irrigation
at Yangling, Yangling, China
Xiuquan Xu
Northwest A&F University, College of Resources and Environment, Institute of Soil and Water Conservation, Chinese
Academy of Sciences and Ministry of Water Resources, National Engineering Research Center for Water-Saving Irrigation
at Yangling, Yangling, China
Abstract
The terraced field widely distributed in Loess Plateau where serious soil and water loss happens, has a significant influence on watershed hydrological environment. At present, for the deficiency of watershed scale terraced fields hydrological environment impact assessment model and lacking of measured data, the terraced fields environmental impact assessment has attracted many attentions of the researchers. This paper adopts the hydrologic analogy combined with a scale physical model method, to infer the runoff and sediments in data-scarce area. Using the embedded terraced module SWAT model to assessment of terraced fields environmental impact, the results show that was a new way to conjecture the hydrologic data in data-scarce area. And the terraced field module can meet the accuracy requirement, the NS sufficient were both above 0.5 in calibration and verifying period. The soil erosion modulus of terraced fields contained in and removed from the watershed, was respectively 5.3% and 16.2% greater than the real. This indicates that the embedded terraced module SWAT model could be used in terraced fields environmental impact assessment in Loess Plateau small watershed.
Keywords
Terraced Fields, SWAT Model, Loess Plateau, Soil Erosion, Run-Off.