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Classifying aerosol particles through the combination of optical and physical-chemical properties: Results from a wintertime campaign in Rome (Italy)

TitoloClassifying aerosol particles through the combination of optical and physical-chemical properties: Results from a wintertime campaign in Rome (Italy)
Tipo di pubblicazioneArticolo su Rivista peer-reviewed
Anno di Pubblicazione2020
AutoriValentini, S., Barnaba F., Bernardoni V., Calzolai G., Costabile F., Di Liberto L., Forello A.C., Gobbi G.P., Gualtieri Maurizio, Lucarelli F., Nava S., Petralia Ettore, Valli G., Wiedensohler A., and Vecchi R.
RivistaAtmospheric Research
Volume235
ISSN01698095
Parole chiaveAbsorption coefficient, Aerosol optical property, aerosol property, Aerosols, Carbonaceous aerosol, Chemical analysis, Chemical composition, Chemical compositions, Chemical speciation, classification, Classification scheme, High-time resolution, Italy, Lazio, Optical properties, optical property, Particle size analysis, Physical chemical property, resolution, Roma [Lazio], Rome, Single scattering albedo, Size distribution, solar radiation, Table lookup, Urban growth, Wavelength dependence, winter
Abstract

The “Carbonaceous Aerosol in Rome and Environs” (CARE) experiment took place at a Mediterranean urban background site in Rome (Italy) deploying a variety of instrumentation to assess aerosol physical-chemical and optical properties with high-time resolution (from 1 min to 2 h). In this study, aerosol optical properties, chemical composition, and size distribution data were examined with a focus on the analysis of several intensive optical properties obtained from multi-wavelength measurements of aerosol scattering and absorption coefficients. The spectral behaviour of several quantities related to both aerosol composition and size was explored, analysing their high-time resolved temporal patterns and combining them in order to extract the maximum information from all the available data. A methodology to separate aerosol types using optical data only is here proposed and applied to an urban area characterised by a complex mixture of particles. A key is given to correctly disentangle cases that could not be distinguished observing only one or few parameters, but that can be clearly separated using a suitable ensemble of optical properties. The SSCAAE, i.e. the wavelength dependence of the Single Scattering co-albedo 1-SSA (where SSA is the Single Scattering Albedo) - that efficiently responds to both aerosol size and chemical composition – resulted to be the best optical intensive parameter to look at for the discrimination between episodes characterised by specific aerosol types (e.g. sea salt, Saharan dust) and more mixed conditions dominated by local emissions. However, this study also highlighted that it is necessary to combine temporal patterns of different optical parameters to robustly associate SSCAAE features to specific aerosol types. In addition, the complete chemical speciation and the high-time resolved size distribution were used to confirm the aerosol types identified via a combination of aerosol optical properties. Look-up tables with most suitable ranges of values for optical variables were produced; therefore, these pieces of information can be used at the same site or at locations with similar features to quickly identify the occurrence of aerosol episodes. Graphical frameworks (both from the literature and newly designed) are also proposed; for each scheme features, advantages, and limitations are discussed. © 2019

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URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85075921954&doi=10.1016%2fj.atmosres.2019.104799&partnerID=40&md5=d23c6926e927464aebc0323f24e68b28
DOI10.1016/j.atmosres.2019.104799
Citation KeyValentini2020