Vörösmarty M., Uzu Gaëlle, Jaffrezo J. L., Dominutti Pamela, Kertész Z., Papp E., Salma I. (2023). Oxidative potential in rural, suburban and city centre atmospheric environments in central Europe. Atmospheric Chemistry and Physics, 23 (22), p. 14255-14269. ISSN 1680-7316.
Titre du document
Oxidative potential in rural, suburban and city centre atmospheric environments in central Europe
Année de publication
2023
Auteurs
Vörösmarty M., Uzu Gaëlle, Jaffrezo J. L., Dominutti Pamela, Kertész Z., Papp E., Salma I.
Source
Atmospheric Chemistry and Physics, 2023,
23 (22), p. 14255-14269 ISSN 1680-7316
Oxidative potential (OP) is an emerging health-related metric which integrates several physicochemical properties of particulate matter (PM) that are involved in the pathogenesis of the diseases resulting from exposure to PM. Daily PM 2.5 -fraction aerosol samples collected in the rural background of the Carpathian Basin and in the suburban area and centre of its largest city of Budapest in each season over 1 year were utilised to study the OP at the related locations for the first time. The samples were analysed for particulate matter mass, main carbonaceous species, levoglucosan and 20 chemical elements. The resulting data sets were subjected to positive matrix factorisation to derive the main aerosol sources. Biomass burning (BB), suspended dust, road traffic, oil combustion mixed with coal combustion and long-range transport, vehicle metal wear, and mixed industrial sources were identified. The OP of the sample extracts in simulated lung fluid was determined by ascorbic acid (AA) and dithiothreitol (DTT) assays. The comparison of the OP data sets revealed some differences in the sensitivities of the assays. In the heating period, both the OP and PM mass levels were higher than in spring and summer, but there was a clear misalignment between them. In addition, the heating period : non-heating period OP ratios in the urban locations were larger than for the rural background by factors of 2-4. The OP data sets were attributed to the main aerosol sources using multiple linear regression with the weighted least squares approach. The OP was unambiguously dominated by BB at all sampling locations in winter and autumn. The joint effects of motor vehicles involving the road traffic and vehicle metal wear played the most important role in summer and spring, with considerable contributions from oil combustion and resuspended dust. In winter, there is temporal coincidence between the most severe daily PM health limit exceedances in the whole Carpathian Basin and the chemical PM composition causing larger OP. Similarly, in spring and summer, there is a spatial coincidence in Budapest between the urban hotspots of OP-active aerosol constituents from traffic and the high population density in central quarters. These features offer possibilities for more efficient season-specific air quality regulations focusing on well-selected aerosol sources or experimentally determined OP, rather than on PM mass in general.
Plan de classement
Sciences fondamentales / Techniques d'analyse et de recherche [020]
;
Sciences du milieu [021]
Description Géographique
EUROPE
Localisation
Fonds IRD [F B010089582]
Identifiant IRD
fdi:010089582
