Comparing continuous-corn and soybean-corn rotation cropping systems in the U.S. central Midwest: Trade-offs among crop yield, nutrient losses, and change in soil organic carbon

Li, Ziyi; Guan, Kaiyu; Zhou, Wang; Peng, Bin; Nafziger, Emerson D; Grant, Robert F; Jin, Zhenong; Tang, Jinyun; Margenot, Andrew J; Lee, DoKyoung; Bernacchi, Carl J; DeLucia, Evan H; Ciampitti, Ignacio; Hu, Tongxi; Ye, Lexuan; Till, Jessica; Jia, Mengqi

doi:10.1016/j.agee.2025.109739

Excess agricultural nitrogen (N) in the environment is a persistent problem in the United States and other regions of the world, contributing to water and air pollution, as well as to climate change. Efforts to reduce N from agricultural sources largely rely on voluntary efforts by farmers to reduce inputs and improve uptake by crops. However, research has failed to comprehensively depict farmers' N decision-making processes, particularly when engaging with uncertainty. Through analysis of in-depth interviews with US corn (Zea mays L.) growers, this study reveals how farmers experience and process numerous uncertainties associated with N management, such as weather variability, crop and input price volatility, lack of knowledge about biophysical systems, and the possibility of underapplying or overapplying. Farmers used one of two general decision-making management strategies to address these uncertainties: heuristic-based or data-intensive decision-making. Heuristic-based decision-making involves minimizing sources of uncertainty and reliance on heuristics and personal previous experiences, while data-intensive decision-making is the increased use of field- and farm-scale data collection and management, as well as increased management effort within a given growing season.

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