<p>Size-fractionated airborne particulate matter was collected over 1&#xa0;year (2023–2024) at five urban pedestrian and cycling locations in Slovenia. PM<sub>10</sub>, PM<sub>2.5</sub>, PM<sub>0.1</sub> were collected using a low-volume sampler with polytetrafluoroethylene filters, and PM<sub>&lt;0.1</sub> fraction was retained in ultrapure-water. Metal(loid)s and polycyclic aromatic hydrocarbons (PAHs) were determined to assess the potential health and environmental risks. Metal(loid) concentrations were the highest in PM<sub>10</sub>, with most elevated levels of Zn (7&#xa0;ng m<sup>−3</sup>), Ba (4.5&#xa0;ng m<sup>−3</sup>), Cu (2.8&#xa0;ng m<sup>−3</sup>) and Cr (1.5&#xa0;ng m<sup>−3</sup>). Significant enrichment in PM<sub>&lt;0.1</sub> was observed for Ba, Cu, Ni, Pb and Zn, with Ce-normalised values indicating a strong anthropogenic contribution. Tailpipe tracers were dominant in (ultra)fine PM fractions, while non-exhaust emission markers (Ba, Cu, Zn) strongly correlated with Ce and La in PM<sub>10</sub>. Among PAHs, BbF (0.05&#xa0;ng m<sup>−3</sup>), BghiP and IP (0.04&#xa0;ng m<sup>−3</sup>) exhibited the highest concentrations. BaP, BghiP and IP were enriched in ultra-fine particles, indicating fresh vehicular combustion emissions. Peak pollutant concentrations occurred during the heating period (HP) and in densely populated, high-traffic cities. Source apportionment revealed a dominance of pyrogenic sources, including: (i) vehicular exhaust emissions from diesel engines (5–6-ring PAHs, Ni, V and Pb), (ii) resuspended mineral dust and non-exhaust traffic particles (Ba, Cu, Zn), and (iii) coal and biomass combustion during HP (4-ring PAHs, Co, Mo, Tl). Incremental lifetime cancer risk for As (2 × 10<sup>−7</sup>), Co (1 × 10<sup>−6</sup>) and Cr (6 × 10<sup>−6</sup>) was minimal. Hazard quotient values were below 1. Children cycling during HP experienced the highest exposure levels. The European PM<sub>10</sub> limit values for As (6&#xa0;ng m<sup>−3</sup>), Cd (5&#xa0;ng m<sup>−3</sup>), Pb (500&#xa0;ng m<sup>−3</sup>), Ni (20&#xa0;ng m<sup>−3</sup>) and BaP (1&#xa0;ng m<sup>−3</sup>) were not exceeded.</p>

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Sources, seasonal trends and urban exposure to airborne particulate matter-bound pollutants

  • Anja Ilenič,
  • Radmila Milačič Ščančar,
  • Alenka Mauko Pranjić,
  • Nina Zupančič,
  • Marija Đurić,
  • Janez Ščančar

摘要

Size-fractionated airborne particulate matter was collected over 1 year (2023–2024) at five urban pedestrian and cycling locations in Slovenia. PM10, PM2.5, PM0.1 were collected using a low-volume sampler with polytetrafluoroethylene filters, and PM<0.1 fraction was retained in ultrapure-water. Metal(loid)s and polycyclic aromatic hydrocarbons (PAHs) were determined to assess the potential health and environmental risks. Metal(loid) concentrations were the highest in PM10, with most elevated levels of Zn (7 ng m−3), Ba (4.5 ng m−3), Cu (2.8 ng m−3) and Cr (1.5 ng m−3). Significant enrichment in PM<0.1 was observed for Ba, Cu, Ni, Pb and Zn, with Ce-normalised values indicating a strong anthropogenic contribution. Tailpipe tracers were dominant in (ultra)fine PM fractions, while non-exhaust emission markers (Ba, Cu, Zn) strongly correlated with Ce and La in PM10. Among PAHs, BbF (0.05 ng m−3), BghiP and IP (0.04 ng m−3) exhibited the highest concentrations. BaP, BghiP and IP were enriched in ultra-fine particles, indicating fresh vehicular combustion emissions. Peak pollutant concentrations occurred during the heating period (HP) and in densely populated, high-traffic cities. Source apportionment revealed a dominance of pyrogenic sources, including: (i) vehicular exhaust emissions from diesel engines (5–6-ring PAHs, Ni, V and Pb), (ii) resuspended mineral dust and non-exhaust traffic particles (Ba, Cu, Zn), and (iii) coal and biomass combustion during HP (4-ring PAHs, Co, Mo, Tl). Incremental lifetime cancer risk for As (2 × 10−7), Co (1 × 10−6) and Cr (6 × 10−6) was minimal. Hazard quotient values were below 1. Children cycling during HP experienced the highest exposure levels. The European PM10 limit values for As (6 ng m−3), Cd (5 ng m−3), Pb (500 ng m−3), Ni (20 ng m−3) and BaP (1 ng m−3) were not exceeded.