Background: Forest, grass, and peat fires release approximately 2 petagrams of carbon into the atmosphere each year, influencing weather, climate, and air quality.Objective: We estimated the annual global mortality attributable to landscape fire smoke (LFS).Methods: Daily and annual exposure to particulate matter ≤ 2.5 μm in aerodynamic diameter (PM2.5) from fire emissions was estimated globally for 1997 through 2006 by combining outputs from a chemical transport model with satellite-based observations of aerosol optical depth. In World Health Organization (WHO) subregions classified as sporadically affected, the daily burden of mortality was estimated using previously published concentration–response coefficients for the association between short-term elevations in PM2.5 from LFS (contrasted with 0 μg/m3 from LFS) and all-cause mortality. In subregions classified as chronically affected, the annual burden of mortality was estimated using the American Cancer Society study coefficient for the association between long-term PM2.5 exposure and all-cause mortality. The annual average PM2.5 estimates were contrasted with theoretical minimum (counterfactual) concentrations in each chronically affected subregion. Sensitivity of mortality estimates to different exposure assessments, counterfactual estimates, and concentration–response functions was evaluated. Strong La Niña and El Niño years were compared to assess the influence of interannual climatic variability.Results: Our principal estimate for the average mortality attributable to LFS exposure was 339,000 deaths annually. In sensitivity analyses the interquartile range of all tested estimates was 260,000–600,000. The regions most affected were sub-Saharan Africa (157,000) and Southeast Asia (110,000). Estimated annual mortality during La Niña was 262,000, compared with 532,000 during El Niño.Conclusions: Fire emissions are an important contributor to global mortality. Adverse health outcomes associated with LFS could be substantially reduced by curtailing burning of tropical rainforests, which rarely burn naturally. The large estimated influence of El Niño suggests a relationship between climate and the burden of mortality attributable to LFS.
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机译:背景:森林,草地和泥炭火灾每年向大气中释放约2 PB的碳,影响天气,气候和空气质量目的:我们估算了可归因于景观火烟(LFS)的全球年度死亡率方法:每日通过结合化学传输模型的输出结果和基于卫星的气溶胶光学深度观测结果,估计了1997年至2006年全球每年因火势排放而产生的空气动力学直径(PM2.5)≤2.5μm颗粒物的年暴露量。在世界卫生组织(WHO)次区域,被零星地感染,使用先前公布的浓度-响应系数估计了每日的死亡负担,该系数与LFS的PM2.5短期升高之间的关联(与0μg/ m 3 )和全因死亡率。在被归类为慢性感染的次区域中,使用美国癌症协会的研究系数估算了每年的死亡率,该系数用于长期PM2.5暴露与全因死亡率之间的关系。在每个受慢性影响的次区域中,将年度平均PM2.5估计值与理论最低(反事实)浓度进行对比。评估了死亡率估算值对不同暴露评估,反事实估算值和集中反应功能的敏感性。比较了拉尼娜(LaNiña)年和厄尔尼诺(ElNiño)年,以评估年际气候变化的影响。结果:我们对LFS暴露造成的平均死亡率的主要估计是每年339,000例死亡。在敏感性分析中,所有测试估计的四分位数范围为260,000–600,000。受影响最严重的地区是撒哈拉以南非洲地区(157,000)和东南亚地区(110,000)。拉尼娜时期的估计年死亡率为262,000,而厄尔尼诺时期则为532,000。结论:火灾排放是造成全球死亡率的重要因素。可以通过减少对热带雨林的燃烧来减少与LFS相关的不良健康后果,因为热带雨林很少自然燃烧。估计的厄尔尼诺现象影响很大,这表明气候与LFS造成的死亡负担之间存在联系。
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