大气污染对玉米和小麦生产的影响

Haorui Chen, W. Zeng, Jiuyi Li, T. Ma, Shenzhou Liu, G. Lei, T. Gaiser, A. Srivastava
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引用次数: 2

摘要

为了确定空气污染对作物产量的影响,收集和分析了2014年至2016年中国331个城市的天气、空气污染以及玉米和冬小麦产量的数据。利用支持向量回归和作物生长模型对北京市和和田市的空气污染数据进行外推,验证空气污染与产量的关系。确切地说,华北地区通常发生重度空气污染,但低于中度的空气污染水平对作物产量的影响不显著。2014年、2015年和2016年,中度空气污染期冬小麦和玉米产量增加,重度空气污染期产量下降。重要的是,在严重空气污染时期,需要一个阈值来触发产量下降。玉米2015年和2016年的阈值分别为7天和5天,冬小麦2015年和2016年的阈值均为10天。当空气重污染期超过阈值时,冬小麦和玉米产量均随时间呈线性下降。2014年北京的主要空气污染物是PM2.5, 2015年和2016年和田的主要空气污染物是PM2.5和PM10。无论主要空气污染物是PM2.5还是PM10,中度空气污染条件下作物生长模型模拟的整个生育期冬小麦潜在产量均高于观测和重度空气污染条件下的产量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of Air Pollution on Maize and Wheat Production
Abstract To determine the effects of air pollution on crop yields, weather, air pollution, and maize and winter wheat yield data from 331 cities in China from 2014 to 2016 were collected and analysed. Furthermore, support vector regression and the crop growth model were applied to extrapolate the air pollution data of Beijing and Hetian and verify the relationship between air pollution and yield. Precisely, heavy air pollution usually occurred in North China, but less than moderate air pollution levels affected crop yields statistically insignificantly. Moreover, both the winter wheat and maize yields increased in moderate air pollution periods but decreased in heavy air pollution periods in 2014, 2015 and 2016. Importantly, a threshold value was necessary for the heavy air pollution periods to trigger a yield decrease. The threshold values of maize in 2015 and 2016 were 7 days and 5 days, respectively, while that of winter wheat was 10 days in both 2015 and 2016. Once the heavy air pollution periods exceeded the threshold value, both the winter wheat and maize yields decreased linearly with the periods. PM2.5 was the main air pollutant in Beijing in 2014, while PM2.5 and PM10 were the main air pollutants in Hetian in both 2015 and 2016. Regardless of whether the main air pollutant was PM2.5 or PM10, the simulated potential winter wheat yields by the crop growth model with moderate air pollution for the whole growth period were all higher than the yields under observed and heavy air pollution conditions.
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