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Kaweah River Watershed
Projects
Mountain System Recharge
Surface water-Groundwater Interaction using Integrated Groundwater-Land Surface Models
Ecohydrology
Computaionally Efficient Hydrologic Modeling
Facilities
LGR Water Vapor and Liquid Analyzer
High Performance Computing Facility
(Aldo)
Current Projects
Advanced Statistical-Dynamical Downscaling Methods and Products for California Electricity System Climate (Co-PI) - Completed.
INFEWS/T3l: Decision Support for Water Stressed FEW Nevus Decisions
(Co-PI): https://ucrtoday.ucr.edu/49539
USDA ARS/NRCS CEAP: A Modeling Assessment of Agricultural Land Groundwater Recharge in the Kaweah River Watershed, California (PI)
CAREER:Characterizing Mountain System Aquifer Recharge in the Sierra Nevada Mountains of California (PI)
USDA: Artificial Intelligence For Sustainable Water, Nutrient, Salinity, and Pest
Management in the Western U.S. (Co-PI)
NIH: Human Exposure and Vulnerability to Manganese Contaminated Groundwater Mountains of California, (S. Ying, K. Schwabe, B. Link, C. Guarino, M. Ramachandran, H. Ajami), (Co-PI)
USDA/NSF: Collaborative Research: Soils are signaling shifts in aggregate life-cycles: What does this mean for water, carbon, and climate feedbacks in the Anthropocene? (P. Sullivan, L. Li, S. Billings, A. Flores, D. Hirmas, H. Ajami) (Co-PI)
NSF: Collaborative Research: How roots, regolith, rock and climate interact over decades to centuries - the R3-C Frontier (P. Sullivan, L. Li, S. Billings, A. Flores, D. Hirmas, H. Ajami, K. Singha, J. Nippert) (Co-PI)
UCR OASIS: Improving Water Use Efficiency in Agriculture by Integrating In-Situ and Remotely Sensed Observations (H. Ajami, Ray Anderson) (PI)
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