The Long-Term Evolution of Dust-Related New Particle Formation Events under Emission Reduction in Beijing

In urban and remote atmospheres, new particle formation (NPF) events often occur after dust storms, which can have further impacts on regional and global climate. Additionally, the levels of gaseous precursors and condensation sink (CS) resulting from anthropogenic emissions can also influence the occurrence and intensity of NPF events. Over the past decade, China has implemented various air quality improvement actions, leading to significant changes in air pollutant emissions. However, there have been limited studies on the long-term evolution of NPF events caused by the synergy of dust storms and anthropogenic emissions.

This study aims to analyze the characteristics of dust-related NPF events in Beijing from 2009 to 2017 and compare them with non-dust NPF events. The results show that the formation rates of dust-related NPF events decreased due to the reduction of SO₂ emissions. However, the growth rates remained stable, possibly due to the increasing oxidation capacity in Beijing. These findings contribute to a deeper understanding of the climate effects of natural dust under the influence of anthropogenic emission control measures.