Sources of PM2.5 and its responses to emission reduction strategies in the Central Plains Economic Region in China: Implications for the impacts of COVID-19.

The Central Plains Economic Region (CPER) located along the transport path to the Beijing-Tianjin-Hebei area has experienced severe PM 2.5 pollution in recent years. However, few modeling studies have been performed on the sources of PM 2.5 , especially the impacts of emission reduction strategies. In this study, the Nested Air Quality Prediction Model System (NAQPMS) with an online tracer-tagging module was adopted to investigate source sectors of PM 2.5 and a series of sensitivity tests were conducted to investigate the impacts of different sector-based mitigation strategies on PM 2.5 pollution. The response surfaces of pollutants to sector-based emission changes were built. The results showed that resident-related sector (resident and agriculture), fugitive dust, traffic and industry emissions were the main sources of PM 2.5 in Zhengzhou, contributing 49%, 19%, 15% and 13%, respectively. Response surfaces of pollutants to sector-based emission changes in Henan revealed that the combined reduction of resident-related sector and industry emissions efficiently decreased PM 2. 5 in Zhengzhou. However, reduced emissions in only the Henan region barely satisfied the national air quality standard of 75 μg/m³, whereas a 50%–60% reduction in resident-related sector and industry emissions over the whole region could reach this goal. On severely polluted days, even a 60% reduction in these two sectors over the whole region was insufficient to satisfy the standard of 75 μg/m³. Moreover, a reduction in traffic emissions resulted in an increase in the O 3 concentration. The results of the response surface method showed that PM 2.5 in Zhengzhou decreased by 19% in response to the COVID-19 lockdown, which approached the observed reduction of 21%, indicating that the response surface method could be employed to study the impacts of the COVID-19 lockdown on air pollution. This study provides a scientific reference for the formulation of pollution mitigation strategies in the CPER. [Display omitted] • Main source sectors of PM 2.5 in the Central Plains Economic Region are revealed. • The response surfaces of pollutants to sector-based emission changes are built. • The response surfaces can be used to study the impacts of COVID-19. • Multisector and regional joint control are needed to reduce pollution. Response surfaces of PM 2.5 to sector-based emission changes in the Central Plains Economic Region were constructed and can be used to study the impacts of the COVID-19 lockdown on air pollution. [ABSTRACT FROM AUTHOR]