Modeling framework examines how irrigation efficiency investments affect agriculture, hydropower, and ecosystems under climate change.
Efforts to improve irrigation efficiency are often promoted as a way to reduce agricultural water withdrawals and increase water availability for other uses such as municipal supply, hydropower generation, and fish habitat. However, the impacts of irrigation efficiency investments can vary widely depending on regional hydrology, infrastructure, and institutional factors. This article highlights an interdisciplinary study led by Cornell and Washington State University researchers that developed a modeling framework to evaluate irrigation efficiency outcomes in Washington state’s Yakima River Basin.
Using an integrated modeling platform, the study evaluated how shifts from less efficient irrigation systems to sprinkler or drip technologies could affect water supply and demand, crop production, return flows, streamflow, hydropower generation, and ecological indicators under future climate scenarios. Results suggest that efficiency improvements can increase agricultural productivity but may also redistribute water in ways that affect other sectors, including hydropower production and instream flows that support fish. The research demonstrates that irrigation efficiency policies must be evaluated within specific regional contexts where water rights, infrastructure, and institutional constraints shape outcomes.
This work was supported by the USDA National Institute of Food and Agriculture, project #1016467.
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Authors
Boone, K.
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Year Published
2024
Area of Focus
Water Resources & Policy
Topics
Climate Change, Production Systems, and Water Resources
