Sarajevo Canton Winter Field Campaign 2018: particulate air pollution in a global hotspot

Autor: Džepina, Katja, Moschos, Vaios, Tobler, Anna, Canonaco, Fransecso, Bhattu, Deepika, Casotto, Roberto, Vlachou, Athanasia, Giannoukos, Stamatios, Cui, Tianqu, Manousakas, Manousos Ioannis, Lamkaddam, Houssini, Dällenbach, Kaspar, Huremović, Jasna, Žero, Sabina, Omerčić, Enis, Salihagić, Sanela, Mašić, Adnan, Pehnec, Gordana, Godec, Ranka, Jakovljević, Ivana, Žužul, Silva, Rinkovec, Jasmina, Kasper-Giebl, Anne, Redl, Peter, Frka, Sanja, Uzu, Gaelle, Jaffrezo, Jean Luc, Kittner, Noah, Pöschl, Urlich, Borrmann, Stephan, Baltensperger, Urs, Haddad, Imad El, Prevot, Andre S.H., Močnik, Griša
Jazyk: angličtina
Rok vydání: 2020
Předmět:
Popis: Nowadays, urban centres in countries of the Western Balkan region (including Bosnia and Herzegovina (B&H)) are experiencing some of the poorest European and global air quality due to the extensive use of non-renewable energy sources. Western Balkan countries lack state- of-the-art atmospheric sciences research despite high levels of ambient pollution, which makes the efforts to understand the mechanisms of their air pollution imperative. The city of Sarajevo, the capital of B&H, is situated in a basin surrounded by mountains. Particularly during the winter months, topography and meteorology cause significant pollution episodes. The Sarajevo Canton Winter Field Campaign 2018 (SAFICA) took place from Dec 04, 2017 to Mar 15, 2018 with on-line aerosol measurements and collection of daily, continuous filter PM10 samples for off-line laboratory analyses. SAFICA aimed to give the first detailed characterization of the Western Balkans aerosol composition including organic aerosol (OA) to elucidate aerosol emission sources and atmospheric processing and to estimate the adverse health effects. PM10 samples (ntotal=180) were collected at four sites in the Sarajevo Canton: a) Bjelave and b) Pofalići (urban background) ; c) Otoka (urban) ; d) Ivan Sedlo (remote). The urban sites were distributed along the city basin to study the pollutants’ urban evolution and the remote site was chosen to compare urban to background air masses. SAFICA PM10 samples underwent different off-line laboratory chemical analyses: 1) Bulk chemical composition of the total filter- collected water-soluble inorganic and OA by a high-resolution Aerodyne Aerosol Mass Spectrometer (AMS). The measured AMS OA spectra were further analysed by Positive Matrix Factorization (PMF) using the graphical user interface SoFi (Source Finder) to separate OA into subtypes characteristic for OA sources and atmospheric processes. 2) Organic and elemental carbon (OC/EC), water-soluble organic carbon, polycyclic aromatic hydrocarbons, levoglucosan, and 14C content of total carbon to evaluate OA chemical composition. 3) Major inorganic anions and cations to evaluate aerosol inorganic species. 4) Metal content in aerosol determined by two analytical techniques (AAS and ICP-MS). SAFICA on-line measurements of black carbon (Aethalometer) and the particle number concentration (Condensation Particle Counter and Optical Particle Sizer) enabled the insights into the daily evolution of primary pollutants and an assessment of aerosol size and number distribution. The combined SAFICA results for on- and off-line measurements will be presented. Our results show that the carbon- containing species make ~2/3 of PM10 mass and the majority are oxygenated, water-soluble OA species with an average OM/OC = 1.9 (Fig.1). Urban air pollution crises in the Western Balkan will be put in the context of local, regional and global air quality. Finally, we will present the scientific questions opened by SAFICA, including the advantages and limitations of SAFICA data set, and give the recommendations for future studies. Figure 1. Selected results of the SAFICA field measurements (a) and laboratory analyses (b). We thank the Federal Hydrometeorological Institute of B&H, Magee Scientific/Aerosol d.o.o. and TSI for SAFICA support. We acknowledge the contribution of the COST Action CA16109 COLOSSAL and SEE Change Net Foundation. KDz and ASHP acknowledge the grant awarded by the Swiss National Science Foundation (Scientific Exchanges IZSEZ0_189495) and SF by the Croatian Science Foundation (BiREADI IP- 2018-01-3105).
Databáze: OpenAIRE