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DOI	10.1016/j.atmosenv.2021.118184
	Tropospheric vertical profiling of the aerosol backscatter coefficient and the particle linear depolarization ratio for different aerosol mixtures during the PANACEA campaign in July 2019 at Volos, Greece
	Mylonaki M.; Papayannis A.; Papanikolaou C.-A.; Foskinis R.; Soupiona O.; Maroufidis G.; Anagnou D.; Kralli E.
发表日期	2021
ISSN	1352-2310
卷号	247
英文摘要	The PANhellenic infrastructure for Atmospheric Composition and climate change (PANACEA) campaign took place in July 2019, to assess the presence of aerosols both in situ and at different heights, in selected cities of Greece suffering from high air pollution levels. One of these sites was the city of Volos (39.21° N., 22.57° E). Vertical profiles of the aerosol backscatter coefficient (baer) and the particle linear depolarization ratio (δp) of maritime polluted, urban, smoke and dust mixtures were measured during using the mobile depolarization Aerosol lIdAr System (AIAS). 42 aerosol layers were characterized, out of which 40% were of urban origin, 26% of smoke origin, 21% maritime polluted aerosol layers and 12% dust mixtures. The maritime polluted and urban aerosols showed a mean δp value at 532 nm of 4 ± 1%, within a range of 2–6% and 2–5%, respectively. The smoke aerosols showed a mean δp value of 6 ± 1%, within a range of 3–9%, while the dust mixtures showed a mean δp of 20 ± 4%, ranging from 13 to 29%. Finally, the majority of these layers were observed above 250 up to 2000 m height asl., although the dust mixtures reached 3000 m height asl. © 2021 Elsevier Ltd
关键词	Aerosols Depolarization Lidar Volos
语种	英语
scopus关键词	Aerosols; Atmospheric composition; Backscattering; Climate change; Depolarization; Dust; Mixtures; Optical radar; Smoke; Aerosol layers; Aerosol lidar systems; Backscatter coefficients; Different heights; Linear depolarization ratios; Pollution level; Vertical profile; Vertical profiling; Air pollution; aerosol; atmospheric pollution; backscatter; climate change; dust; lidar; troposphere; urban area; aerosol; article; depolarization; Greece; protein fingerprinting; smoke; Greece; Magnesia; Thessaly; Volos
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/248618
作者单位	Laser Remote Sensing Unit, Department of Physics, National and Technical University of Athens, Zografou, 15780, Greece; School of Electrical and Computer Engineering, National and Technical University of Athens, Zografou, 15780, Greece
推荐引用方式 GB/T 7714	Mylonaki M.,Papayannis A.,Papanikolaou C.-A.,et al. Tropospheric vertical profiling of the aerosol backscatter coefficient and the particle linear depolarization ratio for different aerosol mixtures during the PANACEA campaign in July 2019 at Volos, Greece[J],2021,247.
APA	Mylonaki M..,Papayannis A..,Papanikolaou C.-A..,Foskinis R..,Soupiona O..,...&Kralli E..(2021).Tropospheric vertical profiling of the aerosol backscatter coefficient and the particle linear depolarization ratio for different aerosol mixtures during the PANACEA campaign in July 2019 at Volos, Greece.ATMOSPHERIC ENVIRONMENT,247.
MLA	Mylonaki M.,et al."Tropospheric vertical profiling of the aerosol backscatter coefficient and the particle linear depolarization ratio for different aerosol mixtures during the PANACEA campaign in July 2019 at Volos, Greece".ATMOSPHERIC ENVIRONMENT 247(2021).