1990 - 2019年纽约市空气污染与死亡率短期关系的变化

Changes in the short-term relationship between air pollution and mortality in New York City, 1990-2019.

作者信息

Goldberg Rebecca, Spira-Cohen Ariel, Pitiranggon Masha, Johnson Sarah, Ito Kazuhiko

机构信息

New York City Department of Health and Mental Hygiene, Bureau of Environmental Surveillance and Policy, 125 Worth Street, New York, NY, 10013, USA.

出版信息

Environ Health. 2025 Jun 13;24(1):37. doi: 10.1186/s12940-025-01171-w.

DOI:10.1186/s12940-025-01171-w

PMID:40514701

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12166610/

Abstract

BACKGROUND

Few studies have examined how short-term associations between air pollution and mortality have evolved over recent decades when air quality has improved. Public health policy can benefit from timely information.

METHODS

We applied time-series models to estimate the mortality impacts of ambient nitrogen dioxide (NO), ozone (warm season only), and fine particulate matter (PM) in 5-year moving time windows between 1990 and 2019 (2000–2019 for PM) in New York City (NYC). We modeled full-year, warm (May through September) and cold (October through March) season NO and PM, adjusting for temperature, temporal trends, day-of-week, and holidays. We also estimated Total Risk Index (TRI) to characterize changes in the combined risk from exposure to two and three pollutants.

RESULTS

All three pollutants showed the strongest association at one lag day. Despite major declines in PM and NO levels over the study period, risk estimates showed no apparent trend, remaining generally positive, but became less precise over time as concentration variability also declined. The estimated overall 1-day lag percent excess risk for PM was 0.49% (95% confidence interval: 0.12, 0.86) per 10 µg/m 24-hr average, and for NO, 0.90% (0.30, 1.50) per 30 ppb daily 1-hr maximum for full year models. Ozone, which slightly increased over the period, had a 1-day lag risk estimate of 1.43% (0.56, 2.30) per 30 ppb daily 8-hr maximum. The TRI followed a similar pattern to individual pollutants’ estimates.

CONCLUSIONS

With no clear evidence of risk per unit increase changing over time, the reductions in PM and NO concentrations imply declines in excess deaths. Notably, ozone levels and health burden persist. NO, which was most robustly associated with mortality and represents two major combustion sources—traffic and fossil fuel combustion in buildings—may be the most relevant indicator of energy transition progress in urban areas like NYC in the coming decade.

SUPPLEMENTARY INFORMATION

The online version contains supplementary material available at 10.1186/s12940-025-01171-w.

摘要

背景

空气质量改善的近几十年来，很少有研究考察空气污染与死亡率之间的短期关联是如何演变的。公共卫生政策可从及时的信息中受益。

方法

我们应用时间序列模型来估计1990年至2019年（颗粒物为2000 - 2019年）纽约市5年移动时间窗口内环境二氧化氮（NO）、臭氧（仅暖季）和细颗粒物（PM）对死亡率的影响。我们对全年、暖季（5月至9月）和冷季（10月至3月）的NO和PM进行建模，并对温度、时间趋势、星期几和节假日进行了调整。我们还估计了总风险指数（TRI），以表征接触两种和三种污染物的综合风险变化。

结果

所有三种污染物在滞后1天时显示出最强的关联。尽管在研究期间PM和NO水平大幅下降，但风险估计没有明显趋势，总体上仍为正值，但随着浓度变异性也下降，随着时间的推移变得不那么精确。全年模型中，PM每10 μg/m² 24小时平均浓度的估计1天滞后超额风险百分比为0.49%（95%置信区间：0.12，0.86），NO每30 ppb每日1小时最大值的估计超额风险百分比为0.90%（0.30，1.50）。在此期间略有增加的臭氧，每30 ppb每日8小时最大值的1天滞后风险估计为1.43%（0.56，2.30）。TRI遵循与单个污染物估计相似的模式。

结论

由于没有明确证据表明单位增加风险随时间变化，PM和NO浓度的降低意味着超额死亡人数的减少。值得注意的是，臭氧水平和健康负担依然存在。与死亡率关联最强烈且代表交通和建筑物中化石燃料燃烧这两个主要燃烧源的NO，可能是未来十年纽约市等城市地区能源转型进展最相关的指标。

补充信息

在线版本包含可在10.1186/s12940 - 025 - 01171 - w获取的补充材料。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/80e0/12166610/73fbd917b1e7/12940_2025_1171_Fig1_HTML.jpg

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1990 - 2019年纽约市空气污染与死亡率短期关系的变化

Changes in the short-term relationship between air pollution and mortality in New York City, 1990-2019.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

SUPPLEMENTARY INFORMATION

背景

方法

结果

结论

补充信息

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