Litcius/Paper detail

Anthropogenic emissions shape long-term changes in PM2.5 concentrations and health risks in China

Yiheng Wang, Guochao Chen, Yutong Yang, Zhaolei Zhang, Ruhan Zhang, Peng Wang, Hongliang Zhang

2025Eco-Environment & Health9 citationsDOIOpen Access PDF

Abstract

China has experienced an initial increase and a subsequent decrease in fine particulate matter (PM 2.5 ) concentrations since the early 21st century, with substantial heterogeneity across different source contributions. This study developed a source-oriented CMAQ model to construct a source-resolved PM 2.5 concentration database for China during 2000–2020. Subsequently, source-specific health risks and the contributions of key driving factors were systematically evaluated using the piling-up decomposition method. The results indicate that anthropogenic emissions, particularly from industrial sources, were the primary drivers of both the increase in PM 2.5 concentrations from 2000 to 2012 (51.8%) and the subsequent decrease from 2012 to 2020 (47.6%). Currently, industrial sources remain the largest contributor to PM 2.5 concentrations (about 32%), followed by residential (about 22%) and transportation sources (about 13%). Implementation of two-phase air pollution control measures led to a 20.4% reduction in national premature mortality attributable to PM 2.5 from 2012 to 2020, although 10.6% of this benefit was offset by changes in population and baseline mortality rates. Throughout 2000–2020, health risks associated with anthropogenic sources consistently exceeded their proportional contribution to PM 2.5 concentrations, primarily because these emissions are concentrated in densely populated areas. These findings underscore that, in addition to implementing region-specific emission reduction policies, maintaining stringent controls on anthropogenic emissions, particularly from industrial and transportation sources, is crucial to maximizing future health benefits. • Industrial activities drove the PM 2.5 peak and subsequent decline in China. • Industrial sources remain the largest health risk contributor currently. • The health benefits offset by changing factors differ among various sources. • Anthropogenic sources' health risks are disproportionate to concentrations. • Controlling industrial and transportation emissions brings more health benefits.

Topics & Concepts

Environmental scienceParticulatesBaseline (sea)ChinaAir pollutionEnvironmental healthEnvironmental protectionPopulationPollutionCMAQPopulation healthAir quality indexEnvironmental engineeringMediterranean climateHuman healthRisk assessmentNatural resource economicsHealth risk assessmentHealth riskHealth impact assessmentExcess mortalityPopulation growthClimate changeScenario analysisAir Quality and Health ImpactsAtmospheric chemistry and aerosolsCOVID-19 impact on air quality