Increased new particle yields with largely decreased probability of survival to CCN size at the summit of Mt. Tai under reduced SO 2 emissions

Zhu, Yujiao; Xue, Likun; Gao, Jian; Chen, Jianmin; Li, Hongyong; Zhao, Yong; Guo, Zhaoxin; Chen, Tianshu; Wen, Liang; Zheng, Penggang; Shan, Ye; Wang, Xinfeng; Wang, Tao; Yao, Xiaohong; Wang, Wenxing

Because anthropogenic sulfur dioxide (SOinline-formula2) emissions have decreased considerably in the last decade, PMinline-formula2.5 pollution in China has been alleviated to some extent. However, the effects of reduced SOinline-formula2 on the particle number concentrations and subsequent contributions of grown new particles to cloud condensation nuclei (CCN) populations, particularly at high altitudes with low aerosol number loadings, are poorly understood. In contrast, the increase in provincial forest areas in China with rapid afforestation over the last few decades expectedly increases the biogenic emissions of volatile organic compounds and their oxidized products as nucleating precursors therein. In this study, we evaluated the campaign-based measurements made at the summit of Mt. Tai (1534 m a.s.l.) from 2007 to 2018. With the decrease in SOinline-formula2 mixing ratios from 15 inline-formula± 13 ppb in 2007 to 1.6 inline-formula± 1.6 ppb in 2018, the apparent formation rate (FR) of new particles and the net maximum increase in the nucleation-mode particle number concentration (NMINP) in the spring campaign of 2018 was 2- to 3-fold higher than those in the spring campaign of 2007 with almost the same occurrence frequency of new particle formation (NPF) events. In contrast, the campaign-based comparison showed that the occurrence frequency, in which the maximum geometric median diameter of the grown new particles (inline-formulaDpgmax) was inline-formula> 50 nm, decreased considerably from 43 %–78 % of the NPF events before 2015 to inline-formula< 12 % in 2017–2018. Assuming inline-formula> 50 nm as a CCN threshold size at high supersaturations, the observed net CCN production decreased from 3.7 inline-formula× 10inline-formula3 cminline-formula−3 (on average) in the five campaigns before 2015 to 1.0 inline-formula× 10inline-formula3 cminline-formula−3 (on average) in the two campaigns in 2017–2018. We argue that the increases in the apparent FR and NMINP are mainly determined by the availability of organic precursors that participate in nucleation and initial growth, whereas the decrease in the growth probability is caused by the reduced emissions of anthropogenic precursors. However, large uncertainties still exist because of a lack of data on the chemical composition of these smaller particles.



Zhu, Yujiao / Xue, Likun / Gao, Jian / et al: Increased new particle yields with largely decreased probability of survival to CCN size at the summit of Mt. Tai under reduced SO2 emissions. 2021. Copernicus Publications.


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