臭氧
颠倒
环境科学
大气科学
气候学
全球变暖
地球工程学
气候变化
臭氧层
对流层臭氧
臭氧消耗
极端气候
气候系统
大气化学
气象学
空气污染
温室效应
环境保护
作者
Chenliang Tao,Yuqiang Zhang,Yutong Yang,Shuai Wang,Yiheng Wang,S Y Wang,Fanglu Fan,Yuhao Wang,S Y Wang,Xiaogang He,Hongliang Zhang
标识
DOI:10.1021/acs.est.6c07924
摘要
Health-damaging surface ozone tends to be lower in populated urban areas than in the surroundings, yet this urban–rural difference is narrowing. While evidence from observations have attributed this narrowing to the reduced inhibition effect of urban nitrogen oxides, we lack clarity on how intensified humid-heat modulates precursor sensitivity in ways that reconfigure the urban–rural gradient under climate warming. Here, we integrated high-resolution air pollutant reanalysis with interpretable machine learning to quantify the global spatial patterns and temporal evolution of paired urban–rural ozone gradients. We show that meteorology-chemistry synergy in urban areas, encompassing weakened inhibition effects of NO 2 and dewpoint temperature and an intensified positive effect of radiation, contributes significantly to the reversal of urban–rural ozone disparities in tropical regions and to the long-term global convergence (0.1 μg m –3 year –1, 2005–2023). Although heatwaves have become more frequent, ozone anomalies have diminished driven by moist atmospheric conditions and stringent emission cuts. Yet urban anomalies exceed rural ones, with the differences during moist heatwaves nearly 2-fold those observed in dry events. Our study urges targeted and proactive policies to prevent climate warming synergies from disproportionately worsening urban ozone burdens.
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