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Temperature-Dependent Evaporative Anthropogenic VOC Emissions Significantly Exacerbate Regional Ozone Pollution.

Wenlu WuTzung-May FuStephen R ArnoldDominick V SpracklenAoxing ZhangWei TaoXiaolin WangYue HouJiajia MoJiongkai ChenYumin LiXu FengHaipeng LinZhijiong HuangJunyu ZhengHuizhong ShenLei ZhuChen WangJianhuai YeXin Yang
Published in: Environmental science & technology (2024)
The evaporative emissions of anthropogenic volatile organic compounds (AVOCs) are sensitive to ambient temperature. This sensitivity forms an air pollution-meteorology connection that has not been assessed on a regional scale. We parametrized the temperature dependence of evaporative AVOC fluxes in a regional air quality model and evaluated the impacts on surface ozone in the Beijing-Tianjin-Hebei (BTH) area of China during the summer of 2017. The temperature dependency of AVOC emissions drove an enhanced simulated ozone-temperature sensitivity of 1.0 to 1.8 μg m -3 K -1 , comparable to the simulated ozone-temperature sensitivity driven by the temperature dependency of biogenic VOC emissions (1.7 to 2.4 μg m -3 K -1 ). Ozone enhancements driven by temperature-induced AVOC increases were localized to their point of emission and were relatively more important in urban areas than in rural regions. The inclusion of the temperature-dependent AVOC emissions in our model improved the simulated ozone-temperature sensitivities on days of ozone exceedance. Our results demonstrated the importance of temperature-dependent AVOC emissions on surface ozone pollution and its heretofore unrepresented role in air pollution-meteorology interactions.
Keyphrases
  • particulate matter
  • air pollution
  • hydrogen peroxide
  • risk assessment
  • nitric oxide
  • lung function
  • oxidative stress
  • life cycle
  • heat stress
  • human health