Health burdens of ambient PM2.5 pollution across Chinese cities during 2006-2015.

With frequent severe haze and smog episodes in Chinese cities, an increasing number of studies have focused on estimating the impact of fine particulate matter (PM2.5) on public health. However, the current use of national and provincial demographic data might mask regional differences and lead to inaccurate estimations of pollution-related health impacts across cities. We applied the Global Burden of Disease methodology to develop a dataset of premature deaths attributed to ambient PM2.5 in 129 Chinese cities in 2006, 2010 and 2015, based on the information of baseline mortality rates and population densities at the city level. Our results suggested that ambient PM2.5 pollution led to 631,230 (95% confidence interval: 281,460-873,800) premature deaths in those cities in 2015, which was similar to that in 2010, but 42.8% higher than that in 2006. The reduction of premature deaths was not as obvious as the improvement in air quality in recent years, primarily owing to the aging Chinese population. For large and medium/small cities, the effects of PM2.5 abatement on alleviating public health burdens were lower than those for megalopolises and metropolises; however, such large and medium/small cities are at risk of increasing future PM2.5 pollution levels due to rapid development. Significant differences in PM2.5-induced premature deaths indicated the need for specific policies to mitigate the health burden of air pollution in different types of Chinese cities.

[1]  Wenjun Ma,et al.  Mortality burden of ambient fine particulate air pollution in six Chinese cities: Results from the Pearl River Delta study. , 2016, Environment international.

[2]  Congbo Song,et al.  Health burden attributable to ambient PM2.5 in China. , 2017, Environmental pollution.

[3]  R. Xie,et al.  The effect of traffic density on smog pollution: Evidence from Chinese cities , 2019, Technological Forecasting and Social Change.

[4]  Huiming Li,et al.  Mortality effects assessment of ambient PM2.5 pollution in the 74 leading cities of China. , 2016, The Science of the total environment.

[5]  Jiming Hao,et al.  Air pollution and control action in Beijing , 2016 .

[6]  Wenzhong Zhang,et al.  Exploring spatiotemporal patterns of PM2.5 in China based on ground-level observations for 190 cities. , 2016, Environmental pollution.

[7]  A. Peters,et al.  Particulate Matter Air Pollution and Cardiovascular Disease: An Update to the Scientific Statement From the American Heart Association , 2010, Circulation.

[8]  Haidong Kan,et al.  Differentiating the effects of fine and coarse particles on daily mortality in Shanghai, China. , 2007, Environment international.

[9]  J. Schwartz,et al.  Acute effects of particulate air pollution on respiratory admissions: results from APHEA 2 project. Air Pollution and Health: a European Approach. , 2001, American journal of respiratory and critical care medicine.

[10]  Ashutosh Kumar Singh,et al.  Global, regional, and national life expectancy, all-cause mortality, and cause-specific mortality for 249 causes of death, 1980–2015: a systematic analysis for the Global Burden of Disease Study 2015 , 2016, The Lancet.

[11]  Zhili Zuo,et al.  PM2.5 in China: Measurements, sources, visibility and health effects, and mitigation , 2014 .

[12]  Xiaohui Xu,et al.  Fine particulate air pollution and daily mortality in Shenyang, China. , 2011, The Science of the total environment.

[13]  Qi Ying,et al.  Relationships between meteorological parameters and criteria air pollutants in three megacities in China. , 2015, Environmental research.

[14]  Yan-lin Zhang,et al.  Fine particulate matter (PM2.5) in China at a city level , 2015, Scientific Reports.

[15]  Pan Zhang,et al.  Impact of mandatory targets on PM2.5 concentration control in Chinese cities , 2018, Journal of Cleaner Production.

[16]  Jun Gao,et al.  The night light development and public health in China , 2017 .

[17]  Qun Xu,et al.  Fine Particulate Matter Constituents and Cardiopulmonary Mortality in a Heavily Polluted Chinese City , 2012, Environmental health perspectives.

[18]  Joel Schwartz,et al.  Chronic Exposure to Fine Particles and Mortality: An Extended Follow-up of the Harvard Six Cities Study from 1974 to 2009 , 2012, Environmental health perspectives.

[19]  Miaomiao Liu,et al.  Spatial and temporal trends in the mortality burden of air pollution in China: 2004-2012. , 2017, Environment international.

[20]  H. Kan,et al.  Long-term trend and spatial pattern of PM2.5 induced premature mortality in China. , 2016, Environment international.

[21]  R. Burnett,et al.  Cardiovascular Mortality and Long-Term Exposure to Particulate Air Pollution: Epidemiological Evidence of General Pathophysiological Pathways of Disease , 2003, Circulation.

[22]  Yuming Guo,et al.  The burden of air pollution on years of life lost in Beijing, China, 2004-08: retrospective regression analysis of daily deaths , 2013, BMJ.

[23]  Michael Brauer,et al.  An Integrated Risk Function for Estimating the Global Burden of Disease Attributable to Ambient Fine Particulate Matter Exposure , 2014, Environmental health perspectives.

[24]  Daniel Krewski,et al.  Estimates of global mortality attributable to particulate air pollution using satellite imagery. , 2013, Environmental research.

[25]  Peng Yin,et al.  Fine Particulate Air Pollution and Daily Mortality. A Nationwide Analysis in 272 Chinese Cities , 2017, American journal of respiratory and critical care medicine.

[26]  Peter Lorentzen,et al.  Racing to the Bottom or to the Top? Decentralization, Revenue Pressures, and Governance Reform in China , 2017 .

[27]  Ziyue Chen,et al.  Detecting the causality influence of individual meteorological factors on local PM2.5 concentration in the Jing-Jin-Ji region , 2017, Scientific Reports.

[28]  Jun Liu,et al.  Estimating adult mortality attributable to PM2.5 exposure in China with assimilated PM2.5 concentrations based on a ground monitoring network. , 2016, The Science of the total environment.

[29]  Ronald Lee,et al.  Modeling and forecasting U. S. mortality , 1992 .

[30]  Yuming Guo,et al.  Projecting Fine Particulate Matter-Related Mortality in East China. , 2015, Environmental science & technology.

[31]  Hongtao Yi,et al.  What Causes Haze Pollution? An Empirical Study of PM 2.5 Concentrations in Chinese Cities , 2016 .

[32]  Jianqian Chao,et al.  Health status and associated factors among the community-dwelling elderly in China. , 2013, Archives of gerontology and geriatrics.

[33]  Haiqing Hu,et al.  Influential Factors of Residents’ Health in Regions of China: A Comparative Study , 2018, Iranian journal of public health.

[34]  J. Lelieveld,et al.  The contribution of outdoor air pollution sources to premature mortality on a global scale , 2015, Nature.

[35]  Jiansheng Wu,et al.  Spatiotemporal patterns of remotely sensed PM2.5 concentration in China from 1999 to 2011 , 2016 .

[36]  Particulate matter, sulfur dioxide, and daily mortality in Chongqing, China. , 2003 .

[37]  Yang Liu,et al.  Satellite-Based Spatiotemporal Trends in PM2.5 Concentrations: China, 2004–2013 , 2015, Environmental health perspectives.

[38]  R. Muller,et al.  Air Pollution in China: Mapping of Concentrations and Sources , 2015, PloS one.

[39]  Alan D. Lopez,et al.  A comparative risk assessment of burden of disease and injury attributable to 67 risk factors and risk factor clusters in 21 regions, 1990–2010: a systematic analysis for the Global Burden of Disease Study 2010 , 2012, The Lancet.

[40]  Eyal Oren,et al.  Global, regional, and national comparative risk assessment of 84 behavioural, environmental and occupational, and metabolic risks or clusters of risks, 1990–2016: a systematic analysis for the Global Burden of Disease Study 2016 , 2017, Lancet.

[41]  Ruidong Wu,et al.  Concentrations, correlations and chemical species of PM2.5/PM10 based on published data in China: Potential implications for the revised particulate standard. , 2016, Chemosphere.

[42]  Yang Liu,et al.  The nexus between urbanization and PM2.5 related mortality in China. , 2017, Environmental pollution.

[43]  G. Carmichael,et al.  Health impacts and economic losses assessment of the 2013 severe haze event in Beijing area. , 2015, The Science of the total environment.

[44]  Min Hu,et al.  Concentrations and chemical compositions of fine particles (PM2.5) during haze and non-haze days in Beijing , 2016 .

[45]  中華人民共和国国家統計局 China statistical yearbook , 1988 .

[46]  Wei Huang,et al.  Systematic review of Chinese studies of short-term exposure to air pollution and daily mortality. , 2013, Environment international.

[47]  Jin-Nan Wang,et al.  China tackles the health effects of air pollution , 2013, The Lancet.

[48]  Weiqi Zhou,et al.  Increasing impact of urban fine particles (PM2.5) on areas surrounding Chinese cities , 2015, Scientific Reports.

[49]  Daniel Krewski,et al.  Relationships Between Fine Particulate Air Pollution, Cardiometabolic Disorders, and Cardiovascular Mortality , 2015, Circulation research.

[50]  F. Bray,et al.  Productivity losses due to premature mortality from cancer in Brazil, Russia, India, China, and South Africa (BRICS): A population-based comparison. , 2018, Cancer epidemiology.

[51]  Michael Brauer,et al.  Response of global particulate-matter-related mortality to changes in local precursor emissions. , 2015, Environmental science & technology.

[52]  P. Kinney,et al.  A county-level estimate of PM2.5 related chronic mortality risk in China based on multi-model exposure data. , 2018, Environment international.

[53]  Michael Brauer,et al.  Addressing Global Mortality from Ambient PM2.5. , 2015, Environmental science & technology.

[54]  A. Dikshit,et al.  Burden of disease attributed to ambient PM2.5 and PM10 exposure in 190 cities in China , 2017, Environmental Science and Pollution Research.

[55]  S. Liang,et al.  The Tsinghua–Lancet Commission on Healthy Cities in China: unlocking the power of cities for a healthy China , 2018, The Lancet.

[56]  R. Dallinger,et al.  Differential Expression of Metallothionein Isoforms in Terrestrial Snail Embryos Reflects Early Life Stage Adaptation to Metal Stress , 2015, PloS one.