Air Pollution in China

© 2022 by the authors; CC BY-NC-ND license

PM_2.5; PCA; backward trajectories; chemical composition; source; air pollution; China; particulate matter; precipitation scavenging; scavenging efficiency; scavenging rate; East Asian upper-level jet; atmospheric particulate matter; ozone; surface meteorological variables; statistical analysis; particulate matter; emission intensity; meteorological conditions; environmental management; Xi’an; VOCs; photochemical reactivities; ozone; SOA; air pollution; new urbanization; energy-intensive industries agglomeration; NOx emissions; intermediary effect model; transmission mechanism; PM_2.5; spatio-temporal heterogeneity; socio-economic driving factors; convolution neural network; Moran’s I; LISA aggregation graph; haze; spatial autocorrelation; haze prediction; multilayer long short-term memory; PM2.5; PM10; air pollution; spatio-temporal variations; Sichuan Basin; back-trajectory; PM_2.5; ozone; cluster analysis; health risk; atherogenesis; flow-mediated dilation; carotid intima-media thickness; air-pollution (PM2.5); modernizing China; atmospheric ozone pollution; spatiotemporal characteristics; precursors; influencing factors; prevention and control countermeasures; PM_2.5; principal component analysis; green space; gray space; neighborhood; PM_2.5; explosive growth; chemical compositions; diameter; threshold; carbon emission trading schemes; carbon price; China; difference-in-difference; market value; homogeneous charge compression ignition; surrogate diesel fuel; ignition delay; n-butanol; NO_x emission; aerosol optical depth; MERRA-2; South China Sea; climate; northwest China; AQI; primary pollutant; CNEMC; Pearson correlation; CNN; MODIS; PM2.5; haze forecast; aerosol optical depth; air pollution; volatile organic compounds; Jinghong city; ozone formation potentials; source identity; health risk; COVID-19; pandemic prevention and control levels; air quality; PM_2.5; O₃; North China Plain; ozone; temporal and spatial distribution; pollution analysis; PM_2.5; Sichuan Basin; spatial distribution; spatial disparity; synoptic patterns; meteorological conditions; coal-to-gas/electricity; air quality; PSM-DID model; Beijing–Tianjin–Hebei; size-fractionated PM; chemical characteristics; source apportionment; ground level (20 m); urban canopy (380 m); sensitive morphological parameters; PM_2.5; CFD; neighborhoods; Beijing; air pollution index; diffuse fraction; sunshine duration; clearness index; air pollution; random forest; feedforward artificial neural network with back-propagation; decision tree; Ningxia; COVID-19; air pollution; lockdown; air quality zonal modeling; China; military parade; air quality; emission control and reduction measures; weather situation; Olympic Sports Center