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Statistically bias-corrected and downscaled climate models underestimate the adverse effects of extreme heat on U.S. maize yields

David C. Lafferty, Ryan L. Sriver, Iman Haqiqi, Thomas W. Hertel, Klaus Keller, Robert E. Nicholas

2021Communications Earth & Environment35 citationsDOIOpen Access PDF

Abstract

Abstract Efforts to understand and quantify how a changing climate can impact agriculture often rely on bias-corrected and downscaled climate information, making it important to quantify potential biases of this approach. Here, we use a multi-model ensemble of statistically bias-corrected and downscaled climate models, as well as the corresponding parent models from the Coupled Model Intercomparison Project Phase 5 (CMIP5), to drive a statistical panel model of U.S. maize yields that incorporates season-wide measures of temperature and precipitation. We analyze uncertainty in annual yield hindcasts, finding that the CMIP5 models considerably overestimate historical yield variability while the bias-corrected and downscaled versions underestimate the largest weather-induced yield declines. We also find large differences in projected yields and other decision-relevant metrics throughout this century, leaving stakeholders with modeling choices that require navigating trade-offs in resolution, historical accuracy, and projection confidence.

Topics & Concepts

Coupled model intercomparison projectEnvironmental scienceClimate modelClimatologyYield (engineering)Climate changePrecipitationClimate extremesEconometricsAgricultureMeteorologyMathematicsGeographyEcologyBiologyMaterials scienceGeologyMetallurgyArchaeologyClimate change impacts on agricultureClimate variability and modelsAgricultural risk and resilience
Statistically bias-corrected and downscaled climate models underestimate the adverse effects of extreme heat on U.S. maize yields | Litcius