臭氧
环境科学
空气质量指数
空气污染
污染
气候变化
环境保护
气象学
臭氧消耗
臭氧层
环境监测
高分辨率
空气污染物
温室气体
大气科学
气候学
环境卫生
作者
Weizhi Deng,Jun Wang,Meng Zhou,Xi Chen,Xiaodong Wu,H Michael Zhang,Jason B. Cohen,Jing Wei,Arlindo da SIlva,Guy P. Brasseur,Claire Granier,Laurence Rouïl
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2026-06-04
卷期号:392 (6802): 1088-1092
被引量:1
标识
DOI:10.1126/science.aed3197
摘要
Recent surges in wildfire emissions have exacerbated surface ozone pollution in the United States. Using deep learning, we developed a gapless daily surface ozone dataset at 1-kilometer resolution for 2003-2024. This dataset revealed a reversal in national policy-relevant ozone trends that had gone undetected by the sparse monitoring network: from -0.65 parts per billion (ppb) per year (2003-2015) to +0.13 ppb per year (2015-2024). The reversal was primarily driven by increasing wildfire emissions, offsetting 3.9 years of mitigation progress. Premature deaths from fire-sourced ozone have increased by 318 deaths per year since 2013, with post-2013 mortality 46% higher than pre-2013 mortality. During 2022-2024, wildfire emissions exposed 43 million people to nonattainment conditions, effectively preventing a 4-ppb tightening of the ozone standard. These results underscore the growing challenges of sustaining air quality progress as wildfires intensify under climate change.
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