Abstract
Efficient irrigation technologies, which seem to promise reduced production costs and water consumption in heavily irrigated areas, may instead be driving increased irrigation use in areas that were not traditionally irrigated. As a result, the total dependence on supplemental irrigation for crop production and revenue is steadily increasing across the contiguous United States. Quantifying this dependence has been hampered by a lack of comprehensive irrigated and dryland yield and harvested area data outside of major irrigated regions, despite the importance and long history of irrigation applications in agriculture. This study used a linear regression model to disaggregate lumped agricultural statistics and estimate average irrigated and dryland yields at the state level for five major row crops: corn, cotton, hay, soybeans, and wheat. For 1945–2015, we quantified crop production, irrigation enhancement revenue, and irrigated and dryland areas in both intensively irrigated and marginally-dependent states, where both irrigated and dryland farming practices are implemented. In 2015, we found that irrigating just the five commodity crops enhanced revenue by ~$7 billion across all states with irrigation. In states with both irrigated and dryland practices, 23% of total produced area relied on irrigation, resulting in 7% more production than from dryland practices. There was a clear response to increasing biofuel demand, with the addition of more than 3.6 million ha of irrigated corn and soybeans in the last decade in marginally-dependent states. Since 1945, we estimate that yield enhancement due to irrigation has resulted in over $465 billion in increased revenue across the contiguous United States (CONUS). Example applications of this dataset include estimating historical water use, evaluating the effects of environmental policies, developing new resource management strategies, economic risk analyses, and developing tools for farmer decision making.
Highlights
IntroductionEfficient irrigation technologies designed to reduce water use per area may be leading to an overall increase in irrigation applications across the contiguous United States (CONUS); quantifying this relationship has been hampered by incomplete irrigated and dryland data at the national scale
Since 1945, we estimate that yield enhancement due to irrigation has resulted in over $465 billion in increased revenue across the contiguous United States (CONUS)
Efficient irrigation technologies designed to reduce water use per area may be leading to an overall increase in irrigation applications across the contiguous United States (CONUS); quantifying this relationship has been hampered by incomplete irrigated and dryland data at the national scale
Summary
Efficient irrigation technologies designed to reduce water use per area may be leading to an overall increase in irrigation applications across the contiguous United States (CONUS); quantifying this relationship has been hampered by incomplete irrigated and dryland data at the national scale. Many researchers have documented that efficient irrigation technologies have reduced water consumption per area relative to inefficient systems [1,2,3]. Others have shown that efficient irrigation technologies have led to more water extraction, as the cost of water use declines and new technologies are better suited to extract groundwater from areas with little saturated thickness [4,5,6]. Irrigated area and total water withdrawals increased by 24% and 8%, respectively, from 2000–2010 across the 25 least irrigated states [7]
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