Assessment on the occupational exposure of urban public bus drivers to bioaccessible trace metals through resuspended fraction of settled bus dust

Gao, P; Liu, S; Ye, W; Lin, N; Meng, P; Feng, Y; Zhang, Z; Cui, F; Lu, B; Xing, B

HERO ID

2533468

Reference Type

Journal Article

Year

2014

Language

English

PMID

25437951

HERO ID 2533468
In Press No
Year 2014
Title Assessment on the occupational exposure of urban public bus drivers to bioaccessible trace metals through resuspended fraction of settled bus dust
Authors Gao, P; Liu, S; Ye, W; Lin, N; Meng, P; Feng, Y; Zhang, Z; Cui, F; Lu, B; Xing, B
Journal Science of the Total Environment
Volume 508C
Page Numbers 37-45
Abstract Limited information is available on the bioaccessible fraction of trace metals in the resuspended fraction of settled bus dust in order to estimate bus drivers' occupational exposure. In this study, 45 resuspended fraction of settled dust samples were collected from gasoline and compressed natural gas (CNG) powered buses and analyzed for trace metals and their fraction concentrations using a three-step sequential extraction procedure. Experimental results showed that zinc (Zn) had the greatest bioaccessible fraction, recorded as an average of 608.53mg/kg, followed in order of decreasing concentration by 129.80mg/kg lead (Pb), 56.77mg/kg copper (Cu), 34.03mg/kg chromium (Cr), 22.05mg/kg nickel (Ni), 13.17mg/kg arsenic (As) and 2.77mg/kg cadmium (Cd). Among the three settled bus dust exposure pathways, ingestion was the main route. Total exposure hazard index (HIt) for non-carcinogenic effect trace metals was lower than the safety level of 1. The incremental lifetime cancer risk (ILCR) for drivers was estimated for trace metal exposure. Pb and Ni presented relatively high potential risks in the non-carcinogenic and potentially carcinogenic health assessment for all drivers. ILCR was in the range of 1.84E-05 to 7.37E-05 and 1.74E-05 to 6.95E-05 for gasoline and CNG buses, respectively.
Doi 10.1016/j.scitotenv.2014.11.067
Pmid 25437951
Wosid WOS:000349195100006
Is Certified Translation No
Dupe Override No
Is Public Yes
Language Text English
Keyword Microenvironment; Resuspended dusts; Non-carcinogenic and potential carcinogenic metal; Sequential extraction; Health risk; Engine style