4.7 Article

Diagnostic Framework for Evaluating How Parametric Uncertainty Influences Agro-Hydrologic Model Projections of Crop Yields Under Climate Change

期刊

WATER RESOURCES RESEARCH
卷 58, 期 6, 页码 -

出版社

AMER GEOPHYSICAL UNION
DOI: 10.1029/2021WR031249

关键词

parametric uncertainty; global sensitivity analysis; model diagnostic; yield projection; agro-hydrologic coupled model; climate change

资金

  1. U.S. Department of Energy, Office of Science, as part of research in Multi-Sector Dynamics, Earth and Environmental System Modeling Program

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This study clarifies how parametric uncertainty in agro-hydrologic models influences yield projections under changing future climate. It also highlights the potential bias introduced by using stationarity assumptions in calibrating model parameters and making future yield projections.
Despite the prevalence of climate change assessments of crop yields, there are significant limits to our understanding of how parametric uncertainty in the underlying agro-hydrologic models as well as the stationarity assumptions tacit to their commonly employed calibration procedures are influencing projections. This study addresses this knowledge gap by clarifying how parametric uncertainty in agro-hydrologic models influences yield projections under changing future climate. We focus on rain-fed winter wheat systems in the drylands of United States Pacific Northwest. We use a tightly coupled agro-hydrologic model, VIC-CropSyst, as a representative of this class of models. Our contributed diagnostic global sensitivity analysis framework identifies differences in how influential factors (e.g., temperature during early growth stages or the growing degree-day required to reach peak leaf area index) vary across zones during historical and future periods. Our results show that the dominant parametric controls for yield projection and their sensitivities change subject to agro-climatic zones and differences in the specific temperature-precipitation trends in future climate scenarios. Our results also indicate that the stationarity assumptions tacit to using historical observations to calibrate agro-hydrologic model parameters and their subsequent use in future yield projections may introduce significant bias. Employing the stationarity assumption in future projections problematically ignores how shifts in climate influence the relative dominance of underlying agro-hydrologic processes in the model. This study's contributed diagnostic exploratory modeling framework has promise for advancing our understanding of how calibration, parametric uncertainties, and climate induced changes in the dominance of model biophysical processes shape crop yield projections.

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