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Title:A European aerosol phenomenology - 9 : light absorption properties of carbonaceous aerosol particles across surface Europe
Authors:ID Rovira, Jordi (Author)
ID Savadkoohi, Marjan (Author)
ID Chen, Gang I. (Author)
ID Močnik, Griša (Author)
ID Aas, Wenche (Author)
ID Alados-Arboledas, Lucas (Author)
ID Artíñano, B. (Author)
ID Gregorič, Asta (Author)
ID Ivančič, Matic (Author)
ID Yus-Díez, Jesús (Author), et al.
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Language:English
Work type:Unknown
Typology:1.01 - Original Scientific Article
Organization:UNG - University of Nova Gorica
Abstract:Carbonaceous aerosols (CA), composed of black carbon (BC) and organic matter (OM), significantly impact the climate. Light absorption properties of CA, particularly of BC and brown carbon (BrC), are crucial due to their contribution to global and regional warming. We present the absorption properties of BC (bAbs,BC) and BrC (bAbs,BrC) inferred using Aethalometer data from 44 European sites covering different environments (traffic (TR), urban (UB), suburban (SUB), regional background (RB) and mountain (M)). Absorption coefficients showed a clear relationship with station setting decreasing as follows: TR > UB > SUB > RB > M, with exceptions. The contribution of bAbs,BrC to total absorption (bAbs), i.e. %AbsBrC, was lower at traffic sites (11–20 %), exceeding 30 % at some SUB and RB sites. Low AAE values were observed at TR sites, due to the dominance of internal combustion emissions, and at some remote RB/M sites, likely due to the lack of proximity to BrC sources, insufficient secondary processes generating BrC or the effect of photobleaching during transport. Higher bAbs and AAE were observed in Central/Eastern Europe compared to Western/Northern Europe, due to higher coal and biomass burning emissions in the east. Seasonal analysis showed increased bAbs, bAbs,BC, bAbs,BrC in winter, with stronger %AbsBrC, leading to higher AAE. Diel cycles of bAbs,BC peaked during morning and evening rush hours, whereas bAbs,BrC, %AbsBrC, AAE, and AAEBrC peaked at night when emissions from household activities accumulated. Decade-long trends analyses demonstrated a decrease in bAbs, due to reduction of BC emissions, while bAbs,BrC and AAE increased, suggesting a shift in CA composition, with a relative increase in BrC over BC. This study provides a unique dataset to assess the BrC effects on climate and confirms that BrC can contribute significantly to UV–VIS radiation presenting highly variable absorption properties in Europe.
Keywords:aerosol absorption, black carbon, brown carbon, climate change, air pollution
Publication status:Published
Publication version:Version of Record
Publication date:01.01.2024
Year of publishing:2024
Number of pages:str. 1-19
Numbering:Vol. 195, [article no.] 109185
PID:20.500.12556/RUNG-9528 New window
COBISS.SI-ID:218341123 New window
ISSN:0160-4120
UDC:504.5
ISSN on article:1873-6750
DOI:10.1016/j.envint.2024.109185 New window
NUK URN:URN:SI:UNG:REP:0IAADH3L
Publication date in RUNG:10.12.2024
Views:232
Downloads:4
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Title:Environment International
Publisher:Elsevier
ISSN:1873-6750
COBISS.SI-ID:23000837 New window

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Licensing start date:01.12.2024

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Licensing start date:04.12.2024

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