1. Investigating the PM2.5 mass concentration growth processes during 2013–2016 in Beijing and Shanghai
- Author
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Qi Chen, Mingjie Liang, Hongliang Zhang, Yunhua Chang, Jingyi Li, Dongsheng Ji, Zhihao Shi, Yele Sun, Fuzhen Shen, Xinlei Ge, Yan-Lin Zhang, Lin Huang, Sri Harsha Kota, Jinjin Sun, Jianlin Hu, and Qi Ying
- Subjects
Pollution ,Delta ,Environmental Engineering ,Health, Toxicology and Mutagenesis ,media_common.quotation_subject ,0208 environmental biotechnology ,Public Health, Environmental and Occupational Health ,02 engineering and technology ,General Medicine ,General Chemistry ,010501 environmental sciences ,Particulates ,Atmospheric sciences ,01 natural sciences ,020801 environmental engineering ,Prevailing winds ,Beijing ,Yangtze river ,Environmental Chemistry ,Environmental science ,Mass concentration (chemistry) ,Chemical composition ,0105 earth and related environmental sciences ,media_common - Abstract
The North China Plain and the Yangtze River Delta are the two of the most heavily polluted regions in China. Observational studies revealed that ‘explosive’ PM2.5 mass concentration growths frequently occurred in the two regions. This study analyzed all the PM2.5 mass concentration growth processes from clean condition (i.e., 150 μg m−3) in Beijing (BJ) and Shanghai (SH), two representative cities of the two regions, using hourly monitored PM2.5 concentrations during 2013–2016. 173 and 76 growth processes were identified in BJ and SH, respectively. PM2.5 rising rates (PMRR) and dynamic growth durations were calculated to illustrate the characteristics of the growth processes. Hourly particulate chemical composition data and meteorological data in BJ and SH were further analyzed. The 4-year averaged PMRR of PM2.5 total mass were similarly of 7.11 ± 9.82 μg m−3 h−1 in BJ and 6.71 ± 6.89 μg m−3 h−1 in SH. A decreasing trend was found for the PM2.5 growth processes in two cities from 2013 to 2016, reflecting the effectiveness of emission controls implemented in the past years. The contributions of particulate components to the PM2.5 total mass growth were different in BJ and SH. Average PMRR value of PM1 organic aerosols (OA), SO42−, NO3−, and NH4+ in BJ was 1.90, 0.95, 0.82, and 0.53 μg m−3 h−1, respectively. Average PMRR of PM2.5 OA, SO42−, NO3−, and NH4+ in SH was 1.70, 1.18, 1.99 and 1.14 μg m−3 h−1, respectively. Based on the contributions of different components, the PM2.5 mass concentration growth processes in BJ and SH were proposed to be classified into ‘other components-dominant growth processes’, ‘all components-contributing growth processes’, ‘one or more explosive secondary components-dominant growth processes’, and ‘mixed-factor growth processes’. Potential source contribution function analysis and the meteorological condition analysis showed that source origins and prevailing wind for the two cities during different categories of growth processes had substantial difference. The important source areas included Hebei and Shandong for BJ, and Jiangsu and Anhui for SH. The dominant wind directions during growth processes were northeast, south and southwest in BJ, and were west to north in SH. The results suggested the contributing components, the prevailing wind conditions, and the formation processes were substantially different in the two cities, despite the similar PMRR of PM2.5 total mass during the growth processes between BJ and SH. Future research is needed to study the detailed formation mechanisms of the different PM2.5 mass concentration growth processes in the two cities.
- Published
- 2019