Department of Civil and Environmental Engineering and Earth Sciences, University of Notre Dame, Notre Dame, IN, USA.
Department of Applied and Computational Mathematics and Statistics, University of Notre Dame, Notre Dame, IN, USA.
Lancet Planet Health. 2020 Oct;4(10):e474-e482. doi: 10.1016/S2542-5196(20)30224-2. Epub 2020 Sep 22.
Exposure to poor air quality leads to increased premature mortality from cardiovascular and respiratory diseases. Among the far-reaching implications of the ongoing COVID-19 pandemic, a substantial improvement in air quality was observed worldwide after the lockdowns imposed by many countries. We aimed to assess the implications of different lockdown measures on air pollution levels in Europe and China, as well as the short-term and long-term health impact.
For this modelling study, observations of fine particulate matter (PM) concentrations from more than 2500 stations in Europe and China during 2016-20 were integrated with chemical transport model simulations to reconstruct PM fields at high spatiotemporal resolution. The health benefits, expressed as short-term and long-term avoided mortality from PM exposure associated with the interventions imposed to control the COVID-19 pandemic, were quantified on the basis of the latest epidemiological studies. To explore the long-term variability in air quality and associated premature mortality, we built different scenarios of economic recovery (immediate or gradual resumption of activities, a second outbreak in autumn, and permanent lockdown for the whole of 2020).
The lockdown interventions led to a reduction in population-weighted PM of 14·5 μg m across China (-29·7%) and 2·2 μg m across Europe (-17·1%), with unprecedented reductions of 40 μg m in bimonthly mean PM in the areas most affected by COVID-19 in China. In the short term, an estimated 24 200 (95% CI 22 380-26 010) premature deaths were averted throughout China between Feb 1 and March 31, and an estimated 2190 (1960-2420) deaths were averted in Europe between Feb 21 and May 17. We also estimated a positive number of long-term avoided premature fatalities due to reduced PM concentrations, ranging from 76 400 (95% CI 62 600-86 900) to 287 000 (233 700-328 300) for China, and from 13 600 (11 900-15 300) to 29 500 (25 800-33 300) for Europe, depending on the future scenarios of economic recovery adopted.
These results indicate that lockdown interventions led to substantial reductions in PM concentrations in China and Europe. We estimated that tens of thousands of premature deaths from air pollution were avoided, although with significant differences observed in Europe and China. Our findings suggest that considerable improvements in air quality are achievable in both China and Europe when stringent emission control policies are adopted.
None.
暴露于空气质量差会导致心血管和呼吸道疾病的过早死亡率增加。在持续的 COVID-19 大流行带来的深远影响中,许多国家实施封锁后,全球空气质量得到了实质性改善。我们旨在评估不同封锁措施对欧洲和中国的空气污染水平以及短期和长期健康影响的影响。
在这项建模研究中,整合了 2016-20 年期间来自欧洲和中国的 2500 多个站点的细颗粒物(PM)浓度观测结果,以及化学传输模型模拟结果,以高时空分辨率重建 PM 场。根据最新的流行病学研究,我们量化了与控制 COVID-19 大流行相关的干预措施相关的 PM 暴露短期和长期避免的死亡率,这些干预措施的实施带来了健康效益。为了探索空气质量的长期变化及其相关的过早死亡,我们建立了不同的经济复苏情景(立即或逐步恢复活动、秋季再次爆发以及 2020 年全年封锁)。
封锁干预措施导致中国的人群加权 PM 减少了 14.5μg/m³(-29.7%),欧洲减少了 2.2μg/m³(-17.1%),在中国 COVID-19 最严重的地区,两个月的 PM 平均值减少了 40μg/m³,这是前所未有的。短期内,在中国,从 2 月 1 日到 3 月 31 日,估计有 24200 人(95%CI 22380-26010)避免了过早死亡,在欧洲,从 2 月 21 日到 5 月 17 日,估计有 2190 人(1960-2420)避免了过早死亡。我们还估计,由于 PM 浓度降低,中国和欧洲的长期避免过早死亡的人数将增加,范围在 76400(95%CI 62600-86900)至 287000(233700-328300)之间,欧洲的范围在 13600(11900-15300)至 29500(25800-33300)之间,这取决于采用的未来经济复苏情景。
这些结果表明,封锁干预措施导致中国和欧洲的 PM 浓度大幅降低。我们估计,由于空气污染造成的数万人过早死亡得到了避免,尽管欧洲和中国之间存在显著差异。我们的研究结果表明,在中国和欧洲实施严格的排放控制政策时,空气质量可以得到相当大的改善。
无。
Zotero 插件
