Combining Physical and Behavioral Response to Salinity. Water Economics and Policy. 02(1), 1650010.(2016).
Integrating Complex Economic and Hydrologic Planning Models: An Application for Drought Under Climate Change Analysis. Water Resources and Economics.(2016).
Agricultural Irrigation in This Drought: Where Is the Water and Where Is It Going?. Agricultural and Resources Economics Update. 18(5), 6-8.(2015).
Economic Analysis of the 2014 California Drought on Agriculture. Post-Assessment and Prospects for 2015. California Water and Environmental Modeling Forum.(2015).
Economic Analysis of the 2014 Drought for California Agriculture: A Post-Assessment Using Remote Sensing.(2015).
Economics of the Drought for California Food and Agriculture . Agricultural and Resources Economics Update. 15p.(2015).
Hydro-economic analysis of groundwater pumping for irrigated agriculture in California’s Central Valley, USA. Hydrogeology Journal. 23(6), 1205-1216.(2015).
Response of California Agriculture to Water Reduction. Workshop on Migration of Agriculture.(2015).
Agricultural and Food Costs During Drought.. San Gabriel Valley Water Forum.(2014).
Agricultural Losses from Salinity in California's Sacramento-San Joaquin Delta. San Francisco Estuary and Watershed Science. 12(1), 1-16.(2014).
Economic Gains from Groundwater Management in California and Use of Remote Sensing. American Geophysical Union Meeting.(2014).
Agro-Economic Analysis of Nitrate Crop Source Reductions. Journal of Water Resources Management and Planning ASCE. 139(5), 11.(2013).
Modeling Economic-Engineering Responses to Drought: The California Case. (Schwabe, K., Albiac J., Connor J. D., Hassan R. M., & González L. Meza, Ed.).Drought in Arid and Semi-Arid Regions. 341-356.(2013).
Addressing Nitrate in California’s Drinking Water: Executive Summary. (Darby, J., Fogg G., Howitt R., Jessoe K., Pettygrove S. G., Quinn J. F., et al., Ed.).Addressing Nitrates in California's Drinking Water.(2012).
Addressing Nitrate in California’s Drinking Water: Technical Report 3 - Reducing Sources of Nitrate in Groundwater.(2012).
Addressing Nitrate in California’s Drinking Water with a Focus on Tulare Lake Basin and Salinas Valley Groundwater. Report for the State Water Resources Control Board Report to the Legislature. 80.(2012).
Calibrating dissaggregate economic models of agricultural production and water management. Environmental Modeling and Software. 38,(2012).
An Economic Analysis Guidance Document for Water Recycling Documents in California. WateReuse California Annual Water Recycling Conference: A Capital Opportunity WateReuse Foundation.(2012).
Economic Analysis of Climate-Related Agricultural Yield Losses in California. Climate Change Adaptation Consortium.(2012).
Economic Analysis of Crop Nitrate Source Reductions. International Water Resources: Challenges for the 2151 Century and Water Resources Education.(2012).
Economic Impacts of Climate-Related Changes to California Agriculture. Climatic Change. 109(S1),(2012).
Predicting farmer responses to water pricing, rationing and subsidies assuming profit maximizing investment in irrigation technology. Agricultural Water Management. 108,(2012).
Transitions for the California Delta Economy. California Water and Environmental Modeling Forum.(2012).
Yolo Bypass and Floodplains: Land Use and Economic Value. Flood Risk Assessment Group.(2012).
Agricultural Water Use Modeling and Remote Sensing. California Water and Environmental Modeling Forum.(2011).
Agro-Economic Analysis of Management of Nitrogen Load of Groundwater in California. Fall Conference American Geophysical Union.(2011).
Drought, jobs, and controversy: Revisiting 2009. Agricultural and Resource Economics Update. 14(6), 1–4.(2011).
Comparing Futures for the Sacramento-San Joaquin Delta. Freshwater ecology series. 230.(2010).
Comparing Futures for the Sacramento-San Joaquin Delta. Freshwater Ecology Series. 3, 231.(2010).
Economic Modeling of Agriculture and Water in California Using the Statewide Agricultural Production Model. A Report for the California Department of Water Resources.(2010).
Estimating economic value of agricultural water under changing conditions and the effects of spatial aggregation. Science of the Total Environment. 408,(2010).