Department of Environmental and Occupational Health and Justice, School of Public Health, Rutgers University, Piscataway, New Jersey 08854, United States.
Nanoscience and Advanced Materials Center, Environmental and Occupational Health Sciences Institute, Rutgers University, Piscataway, New Jersey 08854, United States.
Environ Sci Technol. 2024 Aug 20;58(33):14753-14763. doi: 10.1021/acs.est.4c02016. Epub 2024 Jul 10.
The global increase in wildfires, primarily driven by climate change, significantly affects air quality and health. Wildfire-emitted particulate matter (WFPM) is linked to adverse health effects, yet the toxicological mechanisms are not fully understood given its physicochemical complexity and the lack of spatiotemporal exposure data. This study focuses on the physicochemical characterization of WFPM from a Canadian wildfire in June 2023, which affected over 100 million people in the US Northeast, particularly around New Jersey/New York. Aerosol systems were deployed to characterize WFPM during the 3 day event, revealing unprecedented mass concentrations mainly in the WFPM and WFPM size fractions. Peak WFPM concentrations reached 317 μg/m, nearly 10 times the National Ambient Air Quality Standard (NAAQS) 24 h average limit. Chemical analysis showed a high organic-to-total carbon ratio (96%), consistent with brown carbon wildfires nanoparticles. Large concentrations of high-molecular-weight PAHs were found predominantly bound to WFPM, with retene, a molecular marker of biomass burning and a known teratogen, being the most abundant (>70%). Computational modeling estimated a total lung deposition of 9.15 mg over 72 h, highlighting the health risks of WFPM, particularly due to its long-distance travel capability and impact on densely populated areas.
全球范围内野火的增加主要是由气候变化引起的,这对空气质量和健康有重大影响。野火排放的颗粒物(WFPM)与不良健康影响有关,但由于其物理化学复杂性以及缺乏时空暴露数据,其毒理学机制尚不完全清楚。本研究聚焦于 2023 年 6 月加拿大野火产生的 WFPM 的物理化学特性,这场野火影响了美国东北部超过 1 亿人,特别是新泽西州/纽约州周围地区。气溶胶系统在为期 3 天的事件中用于表征 WFPM,结果显示 WFPM 和 WFPM 粒径段的质量浓度前所未有地高。WFPM 浓度峰值达到 317μg/m,接近国家环境空气质量标准(NAAQS)24 小时平均限值的 10 倍。化学分析显示有机碳与总碳的比例很高(96%),与棕色碳野火纳米颗粒一致。发现高浓度的高分子量多环芳烃主要与 WFPM 结合,其中作为生物质燃烧的分子标志物且已知的致畸剂苊的含量最高(>70%)。计算模型估计在 72 小时内总肺部沉积量为 9.15mg,突出了 WFPM 的健康风险,尤其是由于其长距离传输能力以及对人口稠密地区的影响。
