Global urban temporal trends in fine particulate matter (PM(2·5)) and attributable health burdens: estimates from global datasets

BACKGROUND: With much of the world's population residing in urban areas, an understanding of air pollution exposures at the city level can inform mitigation approaches. Previous studies of global urban air pollution have not considered trends in air pollutant concentrations nor corresponding attributable mortality burdens. We aimed to estimate trends in fine particulate matter (PM(2·5)) concentrations and associated mortality for cities globally. METHODS: We use high-resolution annual average PM(2·5) concentrations, epidemiologically derived concentration response functions, and country-level baseline disease rates to estimate population-weighted PM(2·5) concentrations and attributable cause-specific mortality in 13 160 urban centres between the years 2000 and 2019. FINDINGS: Although regional averages of urban PM(2·5) concentrations decreased between the years 2000 and 2019, we found considerable heterogeneity in trends of PM(2·5) concentrations between urban areas. Approximately 86% (2·5 billion inhabitants) of urban inhabitants lived in urban areas that exceeded WHO's 2005 guideline annual average PM(2·5) (10 μg/m(3)), resulting in an excess of 1·8 million (95% CI 1·34 million–2·3 million) deaths in 2019. Regional averages of PM(2·5)-attributable deaths increased in all regions except for Europe and the Americas, driven by changes in population numbers, age structures, and disease rates. In some cities, PM(2·5)-attributable mortality increased despite decreases in PM(2·5) concentrations, resulting from shifting age distributions and rates of non-communicable disease. INTERPRETATION: Our study showed that, between the years 2000 and 2019, most of the world's urban population lived in areas with unhealthy levels of PM(2·5), leading to substantial contributions to non-communicable disease burdens. Our results highlight that avoiding the large public health burden from urban PM(2·5) will require strategies that reduce exposure through emissions mitigation, as well as strategies that reduce vulnerability to PM(2·5) by improving overall public health. FUNDING: NASA, Wellcome Trust.