Water Management and Systems Research
- Remote Sensing and Spatial Simulation of Agricultural Watersheds
- Improve Irrigation Management with Remote Sensing Technology
- Understanding Soil and Environmental Effects on Crop Species and Rangeland Ecosystems Under Water Limitation
- Improving Irrigated and Dryland Agriculture Via Xylem, Stomata, and Leaf Traits
- Developing Canopy Temperature Based Methodologies to Inform Irrigation Decisions
- Process Modeling, Machine Learning, and Computational Tools for Watershed Modeling from Fire to Field
- Evaluating the Agricultural Ecosystems Services (AgES) Watershed Versus Other Models in Snow-dominated Systems
- Improving Resiliency of Semi-Arid Agroecosystems and Watersheds to Change and Disturbance through Data-Driven Research, AI, and Integrated Models
- Integrating Field Measurements and Models to Evaluate Solar Induced Fluorescence as a Predictor of Dryland Crop Productivity
- Improving Crop Performance and Precision Irrigation Management in Semi-Arid Regions through Data-Driven Research, AI, and Integrated Models
- Improve the Usage of Remote Sensing and Advanced Machine Learning Algorithms for Crop Management
- Post-fire Runoff Response in Mulched Montane Catchments
- Colorado South Platte River Basin CEAP - Establishment of Monitoring and Modeling Foundation
- Using Landscape Features, Plot Measurements, and Remote Sensing Data to Improve Predictions of Fuels Treatment Longevity in the Colorado Front Range
- Improving Sustainability in Cropping Systems of Semi-arid Regions
- Geospatial Analysis and Modeling of Agrohydrological Variability in the Water-limited Great Plains
- Developing Ecophysiological Components for Post-Fire Hydrologic Models
- FY23 Conservation Effects Assessment Project - Colorado South Platte River Establishment
- Using Landscape Features, Plot Measurements, and Remote Sensing Data to Improve Predictions of Fuels Treatment Longevity in the Colorado Front Range