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Global agricultural responses to interannual climate and biophysical variability

Xin Zhao, Katherine Calvin, Marshall Wise, Pralit Patel, Abigail Snyder, Stephanie Waldhoff, Mohamad Hejazi, Jae Edmonds

2021Environmental Research Letters25 citationsDOIOpen Access PDF

Abstract

Agricultural production is highly sensitive to changes in climate and weather patterns. The focus of the great majority of studies assessing climate impacts on agriculture has been on mean changes in agricultural responses. However, the manner in which global agricultural markets respond to the interannual variability of the climate and biophysical shocks is poorly understood. Here we show a strong transmission of interannual variations in climate-induced biophysical yield shocks to agriculture markets, which is magnified further by endogenous market fluctuations. We demonstrate the importance of imperfect versus perfect expectations of market and weather in generating the market fluctuations that play a key role in transferring the interannual variations to markets. We find that the volatility of market prices and consumption could be potentially reduced on average by 55% and 41%, respectively, with improved expectations, where agricultural producers make better decisions to adapt to climate and biophysical variability. We also find much heterogeneity in interannual variability across crops and regions, which is considerably mediated by trade as part of the economic response. Our study provides new insights on climate impacts on agricultural market variability and lays a foundation for further investigating the full range of climate impacts on biophysical and human systems.

Topics & Concepts

EconomicsNatural resource economicsAgricultureFutures studiesClimate changeEnvironmental scienceConsumption (sociology)EcologyBiologyComputer scienceArtificial intelligenceSociologySocial scienceClimate change impacts on agricultureAgricultural risk and resilienceAgriculture Sustainability and Environmental Impact
Global agricultural responses to interannual climate and biophysical variability | Litcius