California Agriculture

In an increasingly unstable climate, it is critical to optimize water needed for crop irrigation to secure food production and livelihoods while reducing environmental impacts. Here, we focus on water use for almonds — a crop that occupies roughly 20% of the irrigated agricultural land in California and has long been the focus of scrutiny. Regenerative agriculture, a term used to describe system designs that increase soil health, biodiversity, resilience to climate, and profitability while reducing greenhouse gas emissions, water use, and pollution, offers a potential way forward. We used eddy covariance, micrometeorological, and soil moisture measurements from 2022 and 2023 to quantify the evapotranspiration of California almond orchards under different soil and plant management practices and produce comprehensive estimates of the water footprint of different management systems. In five almond orchards, we find that there is little difference between evapotranspiration at regenerative and conventional sites in winter months, and that regenerative sites have similar or slightly lower evapotranspiration during the growing season. Orchards with cover crops had higher infiltration rates of winter precipitation than those without; however, soil moisture did not differ between management types. This case study demonstrates that regenerative management in almond orchards leads to improvements in soil moisture retention without guaranteeing increased evapotranspiration.