环境科学
人类健康
烟雾
微粒
环境卫生
臭氧
污染物
空气污染
危害
空气污染物
风险评估
健康风险
香烟烟雾
环境保护
健康风险评估
吸入染毒
吸烟
毒物控制
职业安全与健康
危险废物
空气污染物浓度
空气质量指数
气象学
大气科学
污染
空气污染物标准
作者
Havala O. T. Pye,William T. Hutzell,Neal L. Fann,T. Nash Skipper,Michael Pye,James Beidler,Christine Allen,Benjamin N. Murphy,Emma L. D’Ambro,Stephanie Lin,Kevin Talgo,L. Reynolds,Daiwen Kang,Jesse O. Bash,Karl M. Seltzer,Sara L. Farrell,K. Wyat Appel,Kathy Brehme,Robert C. Gilliam,Barron H. Henderson
标识
DOI:10.1021/acs.estlett.5c01181
摘要
The 2023 wildfires in Canada resulted in substantial emissions to air. In this work, we used predicted concentrations of hazardous air pollutants (HAPs), fine particulate matter (PM 2.5 ), and ozone across the U.S. and Canada to estimate the potential impacts of 2023 Canadian wildfire smoke on human health. HAPs from Canadian wildfires were estimated to increase lifetime population-weighted cancer inhalation risk by 1-in-1 million (500 excess cancer cases) and noncancer risk by a hazard index (HI) of 0.05 across the domain. The additional risk from HAPs in smoke was predicted to exceed a cancer risk of 100-in-1 million for 1300 people and a HI of 1.0 for 110,000 people, all in Canada. In addition, 360,000 people in Canada were predicted to experience an increase in annual-mean PM 2.5 of at least 5 μg m –3 . Nearly 63 million people, 76% of which were in the U.S., were predicted to experience an increase in seasonal maximum daily 8 h average ozone greater than 1 ppb. In Canada, ozone and PM 2.5 associated with the 2023 fires were estimated to result in over 3 times more attributable deaths per year than wildfire smoke in years 2013 through 2018.
科研通智能强力驱动
Strongly Powered by AbleSci AI