Abstract
An integrated assessment of crop-energy-water (CEW) nexus is critical to understand the tradeoffs and synergies for better management of sustainable agricultural systems. In this study, we evaluate the historic evolution of CEW interactions in the Central Valley, California, a critical agricultural region that produces approximately 50% of US fruits, nuts and vegetables. Specifically, we consider three nexus elements, including water use for irrigation (blue water), energy use for groundwater pumping, and crop yield (for all crops aggregated, almond and cotton). To quantify the interactions between CEW elements, we estimate the water use for cropping (water footprint) and energy use for cropping (energy footprint). We conduct the analyses for four historical periods, i.e., 2007–2009 (Drought 1), 2010–2011 (Post-drought 1), 2012–2015 (Drought 2) and 2016–2018 (Post-drought 2). We find that the southern regions (San Joaquin and Tulare) are susceptible to greater stress on energy and water, especially during droughts. The groundwater footprint (GWF) has been continuously increasing due to greater crop water use and a shift from row crops to profitable water-intensive tree crops. The GWF in Tulare during Drought 2 was around 60% higher than Drought 1, where the GWF in Tulare was almost twice that of Sacramento. The energy and water uses for almond production have increased during the recent periods, whereas their uses have mostly decreased for cotton. On average, energy and water footprints under almond crop scenario are around 3–3.5 times as much as the footprints under all crops scenario.
Highlights
IntroductionThere is a growing interest towards better understanding the interactions (nexus) between crops, energy and water (CEW) due to the limitation of available resources and growing demand (as population increases and climate changes) [1]
There is a growing interest towards better understanding the interactions between crops, energy and water (CEW) due to the limitation of available resources and growing demand [1]
The study focuses on the Central Valley of California, which is one of the most agriculturally intensive regions in US
Summary
There is a growing interest towards better understanding the interactions (nexus) between crops, energy and water (CEW) due to the limitation of available resources and growing demand (as population increases and climate changes) [1]. The reduction in surface water supply contributes to agricultural and economic loss in California. We focus on three subregions (one from each hydrologic region) for analyzing the nexus interaction, i.e., subregion 5, subregion 13 and subregion 18 (hereafter, referred as Sub-5, Sub-13 and Sub-18 respectively) These subregions are selected from different parts of CV to represent the diversity in climate (wetter north and drier south), water/energy supply and demand, cropping patterns, and irrigation practices
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