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The Impacts of Warming Temperatures on US Sorghum Yields and the Potential for Adaptation

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  • Noah Miller
  • Jesse Tack
  • Jason Bergtold

Abstract

Growing evidence suggests that climate change will have significant negative effects on agricultural productivity across many highly concentrated production regions. Much empirical analysis has begun to focus on both short‐ and long‐run adaptation within these regions. US sorghum production has received relatively less attention than other commonly grown grains, such as corn and wheat, despite that it is one of the top five grains grown in the US and ranks in the top ten of all crops grown globally. We match farm‐level yield outcomes with fine‐scale gridded weather data to generate a panel of Kansas sorghum producers totaling 45,971 observations spread across 7,298 farms and thirty‐eight years. Fixed effects regressions leverage substantial cross‐sectional and temporal variation in yields and weather to estimate the effect of warming temperatures on yields. Results suggest that sorghum is quite sensitive to warming temperatures—as moderate increases of 2°C in growing season temperatures lead to an average 24% reduction in yields—thereby raising doubts about its potential for offsetting climate change impacts relative to other crops. We also consider whether warming impacts can be lessened through growing season adjustments and find very little support for this form of adaptation. A cross‐sectional identification approach that encapsulates additional forms of adaptation also finds limited adaptation potential for sorghum producers. As a possible upside, we find evidence that sorghum's ability to withstand extreme heat has decreased by 70% over time, suggesting that there might exist currently outdated production practices and/or seed varieties that could help offset warming impacts.

Suggested Citation

  • Noah Miller & Jesse Tack & Jason Bergtold, 2021. "The Impacts of Warming Temperatures on US Sorghum Yields and the Potential for Adaptation," American Journal of Agricultural Economics, John Wiley & Sons, vol. 103(5), pages 1742-1758, October.
    • Handle: RePEc:wly:ajagec:v:103:y:2021:i:5:p:1742-1758
    DOI: 10.1111/ajae.12223
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    3. Kuangyu Wen, 2023. "A semiparametric spatio‐temporal model of crop yield trend and its implication to insurance rating," Agricultural Economics, International Association of Agricultural Economists, vol. 54(5), pages 662-673, September.
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    6. Ko, Minkyong & Ramsey, Austin F., 2022. "Warming Temperatures and Potential Adaptation through Breeding: Evidence from U.S. Soft Winter Wheat," 2022 Annual Meeting, July 31-August 2, Anaheim, California 322102, Agricultural and Applied Economics Association.
    7. Liu, Ziheng & Lu, Qinan, 2024. "Carbon dioxide fertilization, carbon neutrality, and food security," China Economic Review, Elsevier, vol. 85(C).
    8. Islam, Masanori Matsuura Yir-Huieh Luh Abu Hayat Md. Saiful, 2021. "Climate Variability, Livelihood Diversification, and Household Food Security in Bangladesh," 2021 ASAE 10th International Conference (Virtual), January 11-13, Beijing, China 329402, Asian Society of Agricultural Economists (ASAE).
    9. Schmitt, Jonas & Offermann, Frank & Söder, Mareike & Frühauf, Cathleen & Finger, Robert, 2022. "Extreme weather events cause significant crop yield losses at the farm level in German agriculture," Food Policy, Elsevier, vol. 112(C).

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