TY - JOUR

T1 - Increasing importance of regional emission controls for further reduction of PM2.5 in Beijing

AU - Dong, Lingkai

AU - Lin, Weili

AU - Ma, Zhiqiang

AU - Wang, Wei

AU - Kong, Lei

AU - Xu, Xiaobin

AU - Wild, Oliver

AU - Wang, Yuanlin

AU - Ge, Baozhu

AU - Wang, Zifa

PY - 2025/4/30

Y1 - 2025/4/30

N2 - Over the past decade, Beijing has achieved positive results in controlling fine particulate matter (PM2.5) pollution. However, it remains a challenge to further reduce PM2.5 concentrations to a lower level, such as the World Health Organization's air quality guidelines (5 μg/m3). In this study, PM2.5 concentrations and emission reductions over eight years covering two policy periods of air pollution abatement (2013–2017 and 2018–2020) were compared to investigate the efficiency of emission controls in Beijing and surrounding areas. An approach based on observational data, particularly including data from a regional atmospheric background station, was employed to calculate the relative contributions of the local emissions and regional transport. Results show that local emission reductions play a more important role in decreasing PM2.5 in Beijing. However, following a substantial decrease in local emissions over the first period, the relative contribution of regionally transported PM2.5 reached more than 50 % during the second period. The results indicate that joint regional prevention and control of air pollution are needed for Beijing in the future. In addition, the background PM2.5 concentrations over the North China Plain show an increasing trend in recent years, which may be attributed to the increased atmospheric oxidation capacity, thereby posing a challenge for further regional air quality management.

AB - Over the past decade, Beijing has achieved positive results in controlling fine particulate matter (PM2.5) pollution. However, it remains a challenge to further reduce PM2.5 concentrations to a lower level, such as the World Health Organization's air quality guidelines (5 μg/m3). In this study, PM2.5 concentrations and emission reductions over eight years covering two policy periods of air pollution abatement (2013–2017 and 2018–2020) were compared to investigate the efficiency of emission controls in Beijing and surrounding areas. An approach based on observational data, particularly including data from a regional atmospheric background station, was employed to calculate the relative contributions of the local emissions and regional transport. Results show that local emission reductions play a more important role in decreasing PM2.5 in Beijing. However, following a substantial decrease in local emissions over the first period, the relative contribution of regionally transported PM2.5 reached more than 50 % during the second period. The results indicate that joint regional prevention and control of air pollution are needed for Beijing in the future. In addition, the background PM2.5 concentrations over the North China Plain show an increasing trend in recent years, which may be attributed to the increased atmospheric oxidation capacity, thereby posing a challenge for further regional air quality management.

KW - Regional transport

KW - Local emission

KW - Background level

KW - Relative contribution

KW - Air quality improvement

KW - PM

KW - Air pollution

KW - PM2.5

U2 - 10.1016/j.uclim.2025.102437

DO - 10.1016/j.uclim.2025.102437

M3 - Journal article

VL - 61

JO - Urban Climate

JF - Urban Climate

SN - 2212-0955

M1 - 102437

ER -