SWAT Literature Database for Peer-Reviewed Journal Articles

Title:The water implications of greenhouse gas mitigation: Effects on land use, land use change, and forestry 
Authors:Yu, C.-H. and B.A. McCarl 
Year:2018 
Journal:Sustainability 
Volume:10(7) 
Pages: 
Article ID:2367 
DOI:10.3390/su10072367 
URL (non-DOI journals): 
Model:SWAT 
Broad Application Category:hydrologic only 
Primary Application Category:model interface 
Secondary Application Category:climate change 
Watershed Description:Missouri river, which drains parts or all of 11 states in the Northern Great Plains and north central regions of the U.S. 
Calibration Summary: 
Validation Summary: 
General Comments: 
Abstract:This study addresses the water quantity and quality implications of greenhouse gas mitigation efforts in agriculture and forestry. This is done both through a literature review and a case study. The case study is set in the Missouri River Basin (MRB) and involves integration of a water hydrology model and a land use model with an econometric model estimated to make the link. The hydrology model (Soil and Water Assessment Tool, SWAT) is used to generate a multiyear, multilocation dataset that gives estimated water quantity and quality measures dependent on land use. In turn, those data are used in estimating a quantile regression model linking water quantity and quality with climate and land use. Additionally, a land use model (Forest and Agricultural Sector Optimization Model with Greenhouse Gases, FASOMGHG) is used to simulate the extent of mitigation strategy adoption and land use implications under alternative carbon prices. Then, the land use results and climate change forecasts are input to the econometric model and water quantity/quality projections developed. The econometric results show that land use patterns have significant influences on water quantity. Specifically, an increase in grassland significantly decreases water quantity, with forestry having mixed effects. At relatively high quantiles, land use changes from cropped land to grassland reduce water yield, while switching from cropping or grassland to forest yields more water. It also shows that an increase in cropped land use significantly degrades water quality at the 50% quantile and moving from cropped land to either forest or pasture slightly improves water quality at the 50% quantile but significantly worsens water quality at the 90% quantile. In turn, a simulation exercise shows that water quantity slightly increases under mitigation activity stimulated by lower carbon prices but significantly decreases under higher carbon prices. For water quality, when carbon prices are low, water quality is degraded under most mitigation alternatives but quality improves under higher carbon prices. 
Language:English 
Keywords:climate change; greenhouse gas mitigation; water quality; water quantity; Missouri River Basin; SWAT