Insights into summertime haze pollution events over Shanghai based on online water-soluble ionic composition of aerosols

An online analyzer for Monitoring for AeRosols and Gases (MARGA) was employed to measure major water-soluble (WS) inorganic ions in PM10 at 1-h time resolution in Shanghai from May 27 to June 16, 2009. During the field campaign, hazy days were encountered over which atmospheric visibility was common...

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Bibliographic Details
Published in:Atmospheric environment (1994) 2011-09, Vol.45 (29), p.5131-5137
Main Authors: Du, Huanhuan, Kong, Lingdong, Cheng, Tiantao, Chen, Jianmin, Du, Jianfei, Li, Ling, Xia, Xiangao, Leng, Chunpeng, Huang, Guanghan
Format: Article
Language:English
Subjects:
Aerosol
Aerosols
Air pollution
Applied sciences
atmospheric chemistry
Atmospheric pollution
Atmospherics
biomass
Biomass burning
burning
Exact sciences and technology
gases
Haze
inorganic ions
ions
monitoring
nitrates
Nitrogen dioxide
oxidation
Pollution
Pollution abatement
potassium
potassium chloride
secondary productivity
Sulfates
sulfur dioxide
summer
Water-soluble ion
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Summary:An online analyzer for Monitoring for AeRosols and Gases (MARGA) was employed to measure major water-soluble (WS) inorganic ions in PM10 at 1-h time resolution in Shanghai from May 27 to June 16, 2009. During the field campaign, hazy days were encountered over which atmospheric visibility was commonly less than 10 km, and hourly average PM10 reached peaks of exceeding 150 μg m −3. Based on WS ions and pollution gases, the haze events were classified as biomass burning induced, complicated and secondary aerosol pollutions depending on their distinct formation schemes. During the biomass burning induced pollution, which was aroused from biomass burning plume, the concentration of K + was increasing up to maximum about 19 times higher than the average of clear days, and K + behaved a strong positive linear correlation with Cl −. Because of sulfate and nitrate significantly enhanced by secondary production, in which precursor gases of SO 2 and NO 2 were converted into SO 4 2− and NO 3 − on the surface of pre-existing KCl particles, the complicated pollution was responsible for a combining contribution of aerosols directly transported from biomass burning sources and known secondary aerosols linked to local emission. Under high atmospheric oxidation ability and steady atmosphere condition, the secondary pollution resulted from a significant increase of sulfate and nitrate aerosols which were oxidized from large amounts of anthropogenic gases of SO 2 and NO 2 in the urban atmosphere. ► The data at 1-h resolution is help to characterizing haze pollution more details. ► The haze events were classified as biomass burning, complicated and secondary pollutions. ► Biomass burning plumes could cause complicated pollution over downwind regions.
ISSN:1352-2310
1873-2844
DOI:10.1016/j.atmosenv.2011.06.027