Comparative study of PM 10 -bound heavy metals and PAHs during six years in a Chinese megacity: Compositions, sources, and source-specific risks.

To comparatively analyze source-specific risks of atmospheric particulate matter (PM), PM ₁₀ -bound polycyclic aromatic hydrocarbons (PAHs) and heavy metals (HMs) were synchronously detected in a megacity (Chengdu, China) from 2009 to 2016. Non-cancer risk (assessed by hazard quotient, HQ) of PAHs and HMs was within the acceptable level, while cancer risk (assessed by incremental life cancer risk (ILCR), R) of PAHs and HMs were 1.01 × 10 ^-4 and 9.40 × 10 ^-5 in DP and WP, which showed low risk. HMs dominated cancer (92.12%) and non-cancer (99.99%) risks. An advanced method named as joint source-specific risk assessment of HMs and PAHs (HP-SRA model) was developed to assess comprehensive source-specific risks. Gasoline combustion (contributed 9.6% of PM ₁₀ , 0.3% of HQ and 10.0% of R), diesel combustion (6.2% of PM ₁₀ , 0.2% of HQ and 10.7% of R), coal combustion (17.5% of PM ₁₀ , 1.8% of HQ and 13.4% of R), industrial source (9.1% of PM ₁₀ , 80.7% of HQ and 35.0% of R), crustal dust (28.1% of PM ₁₀ , 9.0% of HQ and 1.6% of R), nitrate (7.5% of PM ₁₀ , 1.1% of HQ and 6.2% of R) and sulphate & secondary organic carbon & adsorption (SSA, 19.6% of PM ₁₀ , 6.9% of HQ and 23.1% of R) were identified as main sources. For cancer risk, industrial sources and SSA posed the highest proportion. Higher levels of Co and Ni generated from industrial sources and Cr (Ⅵ), Cd and Ni absorbed in the SSA can result in high-risk contributions. Thus, controlling HMs levels in industrial emissions is essential to protecting human health.
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