Polycyclic aromatic hydrocarbons in urban road dust, Afghanistan: Implications for human health

Abstract Polycyclic aromatic hydrocarbons (PAHs) were analyzed in road and aerial dust to assess their concentration, composition profile, distribution, emission sources, and potential human health risks. Sixteen priority PAHs and Benzo [ e ]pyrene (BeP) were analyzed in 13 aerial dust samples from Jalalabad, and 78 road dust samples from Kabul and Jalalabad cities, Afghanistan. The mean concentration of ∑17PAHs in road dust from Kabul and Jalalabad were 427  μg kg −1 and 288  μg kg −1 , respectively whereas ∑17PAHs in aerial dust from Jalalabad averaged 200  μg kg −1 . Fluoranthene (Flu), Chrysene (Chr), Benzo [ b ]fluoranthene (BbF), Benzo [ k ]fluoranthene (BkF) and BeP were major individual PAH species. The composition patterns of the PAHs were dominated by 5-6-ring PAHs (51% in road dust from Kabul; 44% in road dust from Jalalabad; and 44% in aerial dust) followed by 4-ring and 2-3-ring PAHs. Source apportionment of the road dust PAHs by the molecular diagnostic ratios (MDR) and principal component analysis (PCA), indicated signatures of PAHs sources (including vehicular exhaust, coal/wood combustion and oil spill). The Benzo [ a ]pyrene (BaP) toxicity equivalent values (BaP eq 17PAHs) for road dust were 75  μg kg −1 (Kabul) and 36 μg kg −1 (Jalalabad); and 35 μg kg −1 for aerial dust (Jalalabad). BaP and Dibenz [ a,h ]anthracene (DahA) together contributed > 50% of the BaP eq associated cancer risk. All incremental lifetime cancer risk (ILCR) due to human exposure to road and aerial dust PAHs were in the order of 10 −7 , which is one-fold lower than the threshold (10 −6 ). The noncancerous risk (Hazard Index