Sensitivity changes of US maize yields to extreme heat through timely precipitation patterns

IF 2.5 4区环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES Environmental Research Communications Pub Date : 2024-07-16 DOI:10.1088/2515-7620/ad6404

Haidong Zhao, Lina Zhang, Nenghan Wan, Tom J. Avenson, Stephen M. Welch, Xiaomao Lin

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Abstract

Warm temperatures due to increases of greenhouse gas emissions have changed temperature distribution patterns especially for their extremes, which negatively affect crop yields. However, the assessment of these negative impacts remains unclear when surface precipitation patterns are shifted. Using a statistical model along with 23,944 county-year maize-yield data during 1981-2020 in the US Corn Belt, we found that the occurrence of timely precipitation reduced the sensitivity of maize yields to extreme heat by an average of 20% during the growing season with variations across phenological periods. Spatially across the US corn belt, maize in the northern region exhibited more significant benefits from timely precipitation compared to the southern region, despite the pronounced negative effects of extreme heat on yields in cooler regions. This study underscores the necessity of incorporating timely precipitation as a pivotal factor in estimating heat effects under evolving climates, offering valuable insights into complex climate-related challenges.

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适时降水模式下美国玉米产量对极端高温的敏感性变化

温室气体排放的增加导致气温升高，改变了气温分布模式，尤其是极端气温，对作物产量产生了不利影响。然而，当地表降水模式发生变化时，对这些负面影响的评估仍不明确。通过使用统计模型和美国玉米带 1981-2020 年间 23944 个县的玉米产量数据，我们发现在不同物候期，适时降水的出现使玉米产量对极端高温的敏感性平均降低了 20%。从整个美国玉米带的空间来看，尽管极端高温对凉爽地区的玉米产量有明显的负面影响，但北部地区的玉米从适时降水中获得的好处比南部地区更为显著。这项研究强调，在不断变化的气候条件下，有必要将适时降水作为估计高温效应的关键因素，从而为应对复杂的气候相关挑战提供有价值的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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