4.7 Article

Evaluation of Aerosol Typing with Combination of Remote Sensing Techniques with In Situ Data during the PANACEA Campaigns in Thessaloniki Station, Greece

Journal

REMOTE SENSING
Volume 14, Issue 20, Pages -

Publisher

MDPI
DOI: 10.3390/rs14205076

Keywords

aerosol layers; aerosol typing; remote-sensing; in-situ measurements; black carbon concentrations

Funding

  1. PANhellenic infrastructure for Atmospheric Composition and climatE change (PANACEA) research project [MIS 5021516]
  2. European Union (European Regional Development Fund)

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Two measurement campaigns were conducted in Thessaloniki to study aerosol properties, with biomass burning aerosols being the predominant type. Clean continental aerosols, dust layers, and mixtures with urban particles were also detected. Biomass burning layers were associated with high BC concentration and Fine Mode Fraction values.
Two measurement campaigns were conducted at Thessaloniki, an urban station, (40.5 degrees N, 22.9 degrees E; 60 m) in the frame of the PANhellenic infrastructure for Atmospheric Composition and climatEchAnge (PANACEA) project. The first one covers the period from July to August 2019 and the second one from January to February An overview of the aerosol optical properties (columnar and height resolved), acquired with the remote sensing infrastructure of the Laboratory of Atmospheric Physics (LAP) of the Aristotle University of Thessaloniki (AUTH), as well as the additional instrumentation that participated during the PANACEA campaigns is presented. The majority of the detected layers (16 out of 40, ranged between 0.8 and 4.5 km) are classified as biomass burning aerosols, attributed to either city sources or long range transport. Concerning the other aerosol types, the Clean Continental cluster has an occurrence ratio of 23%, while dust layers and mixtures with urban particles transported to Thessaloniki are also identified. Our findings are discussed along with the surface information, i.e., the particulate matter (PM2.5 and PM10) concentrations and the black carbon (BC) concentration, separated into fossil fuel (BCff) and biomass/wood burning (BCwb) fractions. This is the first time that collocated in situ and remote sensing instruments are deployed in Thessaloniki in order to assess the presence of aerosols and the predominant aerosol type both in situ and at elevated heights. Overall, our study showed that the BCwb contribution to the BC values in Thessaloniki is quite low (11%), whilst the majority of the biomass burning layers identified with the lidar system, are also linked with enhanced BC contribution and high Fine Mode Fraction values.

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