Abstract
ABSTRACT Polycyclic aromatic hydrocarbons (PAHs) are carcinogenic and mutagenic. They bounded in atmospheric fine (PM2.5) and submicron (PM1) particles severely affect human health. To characterize 18 PAHs at a background site (Mount Tai) in the heavily polluted North China Plain (NCP), PM1 and PM2.5 samples were collected in the autumn of 2014. The sampling periods were classified into clean conditions and polluted conditions according to PM2.5 concentration. Biomass burning condition was selected from polluted conditions to clarify the impact of biomass burning to PAHs concentrations. The concentrations of ∑18 PAHs were 14.5 and 24.5 ng m–3 and the contents were 515 and 607 µg g–1 in PM1 and PM2.5, respectively. Three-ring PAHs were the primary contributors to the total PAHs. The major PAHs sources at Mount Tai were pyrogenic and traffic emission. Diesel combustion played more significant role to the emission of PM1-bound PAHs, while wood burning source was more obvious for PM2.5-bound PAHs. PAHs concentrations and cancer risks were the highest during biomass burning condition compared with those during polluted and clean conditions. The lifetime accumulated cancer risk of PM1-bound PAHs was considered to be acceptable, whereas it elevated to “potential risk” (10−6) for adults (30–70 years old) exposed to PM2.5-bound PAHs. The Concentration-weighted trajectory (CWT) model indicated long-distance transport from Northwest China was the major source of PM1-bound PAHs under the clean conditions. Compare with clean conditions, PAHs were more strongly influenced by short-distance transported air masses from the South of Shandong Province under the polluted conditions.
Highlights
Air pollution is a severe problem in China and has attracted widespread attention from the government, social organizations, and individuals
To characterize 18 Polycyclic aromatic hydrocarbons (PAHs) at a background site (Mount Tai) in the heavily polluted North China Plain (NCP), PM1 and PM2.5 samples were collected in the autumn of 2014
The sampling periods were classified into clean conditions and polluted conditions according to PM2.5 concentration
Summary
Air pollution is a severe problem in China and has attracted widespread attention from the government, social organizations, and individuals. Zhu et al (2014) reported that particles-bound PAHs with high carcinogenicity were primarily in the < 1.8 μm size range. Background site is defined as site far away from anthropogenic emission sources; it is typically ideal to evaluate the impact of long-range transport of air pollutants and the pollution of surrounding areas (Zhu et al, 2014; Liu et al, 2017). Many studies have been conducted on PAHs in total suspended particulates (TSP) (Lee et al, 2006; Mazquiaran and de Pinedo, 2007), PM10 (Mantis et al, 2005), and PM2.5 (Moon et al, 2008) at background sites. We chose Mount Tai as a background site to investigate PM1- and PM2.5-bound PAH concentrations, contents and composition profiles; analyze PAH concentrations under clean, polluted, and biomass burning conditions; assess cancer risk by using the BaP equivalent concentration (BaPeq) and incremental lifetime cancer risk (ILCR) methods; identify PAH sources by diagnostic ratios; and determine potential source regions of PAHs using concentration-weighted trajectory (CWT) model
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