Linking crop- and soil-based approaches to evaluate system nitrogen-use efficiency and tradeoffs
Date
2018-03-15
Authors
Martinez-Feria, Rafael A.
Dietzel, Ranae N.
Liebman, Matt
Huber, Isaiah
Archontoulis, Sotirios V.
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Abstract
Increasing nitrogen (N)-use efficiency (NUE) is key to improving crop production while mitigating ecologically-damaging environmental N losses. Traditional approaches to assess NUE are principally focused on evaluating crop responses to N inputs, often consider only what happens during the growing season, and ignore other means to improve system efficiency, such as by tightening the cycling of soil N (e.g. with N scavenging cover crops). As the goals of improving production and environmental quality converge, new metrics that can simultaneously capture multiple aspects of system performance are needed. To fill this gap, we developed a theoretical framework that links both crop- and soil-based approaches to derive a system N-use efficiency (sNUE) index. This easily interpretable metric succinctly characterizes N cycling and facilitates comparison of systems that differ in biophysical controls on N dynamics. We demonstrated the application of this new approach and compared it to traditional NUE metrics using data generated with a process-based model (APSIM), trained and tested with experimental datasets (Iowa, USA). Modeling of maize-soybean rotations indicated that despite their high crop NUE, only 45% of N losses could be attributed to the inefficient use of N inputs, whereas the rest originated from the release of native soil N into the environment, due to the asynchrony between soil mineralization and crop uptake. Additionally, sNUE produced estimates of system efficiency that were more stable across weather years and less correlated to other metrics across distinct crop sequences and N fertilizer input levels. We also showed how sNUE allows for the examination of tradeoffs between N cycling and production performance, and thus has the potential to aid in the design of systems that better balance production and environmental outcomes.
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This is a manuscript of an article published as Martinez-Feria, Rafael A., Michael J. Castellano, Ranae N. Dietzel, Matt J. Helmers, Matt Liebman, Isaiah Huber, and Sotirios V. Archontoulis. "Linking crop-and soil-based approaches to evaluate system nitrogen-use efficiency and tradeoffs." Agriculture, Ecosystems & Environment 256 (2018): 131-143. doi:10.1016/j.agee.2018.01.002. Posted with permission.
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.