环境科学
土壤碳
产量(工程)
作物产量
农学
作物
弹性(材料科学)
用水
土壤水分
生长季节
总有机碳
气候变化
土壤有机质
农林复合经营
供水
含水量
用水效率
心理弹性
土壤健康
水文学(农业)
农业工程
作者
Alison E. King,Eunkyoung Choi,Jesse Burkhardt,Nathaniel D. Mueller
摘要
Increasing soil organic carbon (SOC) has been proposed as a strategy to promote crop yield resilience under extreme hydroclimatic stress, particularly drought, due to its positive effect on soil available water-holding capacity. We analyze how SOC mediates the relationship between US rainfed crop yields (1981-2020) and growing season hydroclimatic conditions-defined by soil water supply and atmospheric water demand-over 67,000 county-years across three major crops. We show that higher SOC is consistently associated with increased crop yields and yield resilience, evidenced through reduced interannual variability. Contrary to prevailing expectations, the largest yield gains from SOC occur during moderate water supply conditions-not drought. Under drought, water supply to crops may be more limited by water inputs to soil than by soil water-holding capacity, constraining the benefit provided by SOC regeneration. Furthermore, because moderate conditions are more frequent than drought or wet extremes, the largest production gains from SOC accumulate under moderate conditions. These findings indicate that SOC regeneration can enhance drought resilience to some degree but cannot compensate for extreme water scarcity; the services SOC provides to crops, including water storage, require water for their effective delivery.
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