短期总暴露和野火PM2.5暴露对工作损失的健康和经济成本估算：使用2015-2018年连续的加州健康访谈调查（CHIS）数据

BMJ Public Health Pub Date : 2024-03-01 DOI:10.1136/bmjph-2023-000491

Ying-Ying Meng, Yu Yu, Diane A Garcia-Gonzales, Mohammad Z. Al‐Hamdan, M. Marlier, Joseph L Wilkins, Ninez Ponce, Michael Jerrett

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引用次数: 0

摘要

为了帮助确定政府控制空气污染物的法规和政策对美国人健康的保护作用，我们的研究旨在调查在加利福尼亚州每天暴露于所有来源和特定野火的 PM2.5（空气动力学直径小于 2.5 μm 的颗粒物）对健康和经济的影响。我们将 2015-2018 年加州健康访谈调查受访者的地理编码家庭住址与卫星和大气模型模拟估算的每日 PM2.5 以及社区多尺度空气质量模型中与野火相关的 PM2.5 联系起来。我们计算了每日 PM2.5 暴露与工作损失之间的关联系数，并将回归分析应用于环境效益绘图和分析程序-社区版（BenMAP-CE）平台，以评估 PM2.5 暴露对健康和经济的影响。我们观察到，PM2.5 暴露的日总量每增加 1 µg/m3 将导致每年约 100 万个工作日的损失，从 110 万到 160 万个人日不等，相关的经济损失为 3.1 亿到 3.9 亿美元。在 2015-2018 年期间，仅野火烟雾一项就可能导致 70 万至 260 万个工作日的损失，相关经济损失为每年 1.29 亿至 5.21 亿美元。使用当前BenMAP中的函数系数，PM2.5日总暴露量每增加1微克/立方米，因病导致的超额工作损失天数约为25万天，估计经济损失约为4500万-5000万美元，而在同一时期，仅野火烟雾就会导致170万-67万个工作损失天数，相关经济损失为每年3100万-1.28亿美元。更新当前 BenMAP-CE 计算的工作损失天数对于量化 PM2.5 当前的健康影响至关重要，有助于为保护公众健康的政策和法规提供信息。

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Health and economic cost estimates of short-term total and wildfire PM2.5exposure on work loss: using the consecutive California Health Interview Survey (CHIS) data 2015–2018

To help determine the health protectiveness of government regulations and policies for air pollutant control for Americans, our study aimed to investigate the health and economic impacts of work loss due to sickness associated with daily all-source and wildfire-specific PM2.5(particulate matter with an aerodynamic diameter smaller than 2.5 μm) exposures in California.We linked the 2015–2018 California Health Interview Survey respondents’ geocoded home addresses to daily PM2.5estimated by satellites and atmospheric modelling simulations and wildfire-related PM2.5from Community Multiscale Air Quality models. We calculated and applied the coefficient for the association between daily PM2.5exposure and work loss from regression analyses to the Environmental Benefits Mapping and Analysis Program—Community Edition (BenMAP-CE) platform to assess the health and economic impacts of PM2.5exposure on work loss due to sickness.We observed that each 1 µg/m3increase in daily total PM2.5exposure will lead to about 1 million days of work loss per year ranging from 1.1 to 1.6 million person-days, and the related economic loss was $310–390 million. Wildfire smoke alone could contribute to 0.7–2.6 million work-loss days with a related economic loss of $129–521 million per year in 2015–2018. Using the function coefficient in the current BenMAP, the excess work-loss days due to sickness was about 250 000 days and the estimated economic loss was about $45–50 million for each 1 µg/m3increase in daily total PM2.5exposure, and wildfire smoke alone would lead to 0.17–0.67 million work-loss days with related economic loss of $31–128 million per year during the same period.Both conventional and wildfire-specific sources of PM2.5produced substantial work loss and cost in California. Updating the current BenMAP-CE calculations for work-loss days will be essential in quantifying the current health impacts of PM2.5to help inform the policies and regulations to protect public health.

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BMJ Public Health

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