气候变化领域集成服务门户(CCPortal): Size-segregated aerosols over a high altitude Himalayan and a tropical urban metropolis in Eastern India: Chemical characterization, light absorption, role of meteorology and long range transport

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DOI	10.1016/j.atmosenv.2021.118398
	Size-segregated aerosols over a high altitude Himalayan and a tropical urban metropolis in Eastern India: Chemical characterization, light absorption, role of meteorology and long range transport
	Ghosh A.; Patel A.; Rastogi N.; Sharma S.K.; Mandal T.K.; Chatterjee A.
发表日期	2021
ISSN	1352-2310
卷号	254
英文摘要	A study has been conducted focusing on the chemical and optical characterization of water soluble inorganic and organic components of aerosols at different sizes, over a high altitude Himalayan station, Darjeeling (27.1° N and 88.15° E, 2200 m amsl) and a tropical urban metropolis, Kolkata (22.5° N, 88.3° E, ~6 m amsl) for two-year long period (March 2016–February 2018). It was observed that local meteorology and long range transport of pollution plumes have played the pivotal role in governing the temporal variation of the mass distribution and concentration of aerosols and its various components over both the sites. The aerosol mass-size distributions were found to be bimodal in nature with the relative dominance of accumulation mode (0.1–1.0 μm) over coarse mode (1.8–10 μm) over both the stations, indicating dominance of the anthropogenic emissions. Among the size classes, accumulation mode aerosols alone contributed 55–75% over Darjeeling and 40–60% over Kolkata to PM10. The coarse mode aerosols were mainly consisted of primary inorganic species over Kolkata and water soluble organic carbons (WSOC) over Darjeeling whereas the fine mode aerosols (accumulation: 0.1–1.0 μm) were primarily composed of the secondary inorganic aerosols for both the stations. Irrespective of the seasons and stations, SO42− and NH4+ exhibited peaks in the mass-size distribution at 1.0–0.1 μm whereas that of NO3− varied with the seasons. The photochemical oxidation and the aqueous phase oxidation of SO2 (g) were the pathways for SO42− formation over Darjeeling whereas the later dominated over Kolkata. Concentration weighted trajectory (CWT) model has revealed that the secondary inorganic aerosols and WSOC were local/regional in origin over Kolkata megacity whereas Darjeeling was influenced by mixed sources. The accumulation mode aerosols were found to be the highest light absorbing over both the stations irrespective of the seasons. Over Darjeeling, the absorption coefficient (babs_365) and the mass absorption efficiency (MAE) of WSOC were maximum for local biomass burning aerosols than the transported plumes whereas those over Kolkata were maximum for transported biomass burning plumes from Eastern Ghats. © 2021 Elsevier Ltd
关键词	brown carbon Eastern himalaya Long range transport Size segregated aerosol Tropical metropolis Water soluble ions
语种	英语
scopus关键词	Light absorption; Meteorology; Organic carbon; Size distribution; Tropics; Water absorption; Accumulation modes; Brown carbons; Chemical characterization; Eastern himalayum; Long range transport; Mass size distribution; Size segregated aerosol; Tropical metropolis; Water-soluble ions; Water-soluble organic carbon; Aerosols; ammonia; calcium ion; carbon; chloride; magnesium ion; nitrate; organic carbon; sodium ion; water; absorption; absorption coefficient; absorption efficiency; aerosol; aerosol composition; altitude; biomass burning; chemical composition; concentration (composition); long range transport; meteorology; metropolitan area; size distribution; tropical environment; urban area; urban pollution; altitude; Article; controlled study; dry season; high temperature; humidity; India; light absorption; meteorology; photooxidation; plant residue; priority journal; rainy season; seasonal variation; size; solar radiation; tropics; urban area; Darjeeling; Eastern Ghats; Himalayas; India; Kolkata; West Bengal
来源期刊	ATMOSPHERIC ENVIRONMENT
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/248438
作者单位	Environmental Sciences Section, Bose Institute, P1/12 CIT Scheme VII-M, Kolkata, 700054, India; Geosciences Division, Physical Research Laboratory, Ahmedabad, India; CSIR-National Physical Laboratory, Dr. K. S. Krishnan Road, New Delhi, 110 012, India; National Facility on Astroparticle Physics and Space Science, Bose Institute, 16 A J C Bose Road, Darjeeling, 734101, India
推荐引用方式 GB/T 7714	Ghosh A.,Patel A.,Rastogi N.,et al. Size-segregated aerosols over a high altitude Himalayan and a tropical urban metropolis in Eastern India: Chemical characterization, light absorption, role of meteorology and long range transport[J],2021,254.
APA	Ghosh A.,Patel A.,Rastogi N.,Sharma S.K.,Mandal T.K.,&Chatterjee A..(2021).Size-segregated aerosols over a high altitude Himalayan and a tropical urban metropolis in Eastern India: Chemical characterization, light absorption, role of meteorology and long range transport.ATMOSPHERIC ENVIRONMENT,254.
MLA	Ghosh A.,et al."Size-segregated aerosols over a high altitude Himalayan and a tropical urban metropolis in Eastern India: Chemical characterization, light absorption, role of meteorology and long range transport".ATMOSPHERIC ENVIRONMENT 254(2021).