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Predicting stream discharge, groundwater flow, and sediment/nutrient transport in the Lower Mississippi River Alluvial Valley (LMRAV) as affected by agricultural/forest managements and climate change using watershed models such as HSPF and MODFLOW. Performing real-time monitoring of tree sap flux, soil water movement, stream discharge, groundwater flow, and water quantity in the soil-tree-stream-groundwater continuum. Analyzing the long-term meteorological, hydrological, and water quality data using HYDSTRA model and multi-variant statistical methods such as copula, flow/load duration curve, Mann-Kendall test, principal component analysis, and wavelet analysis. Developing and applying STELLA-based models to predict woody biomass production and CO2 emission from bioenergy plantations as affected by soil nutrient and water availability as well as by hydrological and climatic conditions. Developing and applying a STELLA-based model to simultaneously evaluate farm pond water availability and crop irrigation demand in the LMRAV.
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AGRICULTURAL WATER MANAGEMENT (2024): 108606
Gary Feng,Ying Ouyang
Soil Erosion Research Under a Changing Climate, January 8-13, 2023, Aguadilla, Puerto Rico, USA (2023)
Gang Feng,Ying Ouyang
Soil Erosion Research Under a Changing Climate, January 8-13, 2023, Aguadilla, Puerto Rico, USA (2023)
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JOURNAL OF HYDROLOGY (2023): 129253-129253
HYDROLOGYno. 8 (2023)
Soil Erosion Research Under a Changing Climate, January 8-13, 2023, Aguadilla, Puerto Rico, USA (2023)
Remote Sensingno. 4020 (2023): 4020-4020
Soil Erosion Research Under a Changing Climate, January 8-13, 2023, Aguadilla, Puerto Rico, USA (2023)
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