Repository of Research and Investigative Information

Repository of Research and Investigative Information

Hormozgan University of Medical Sciences

Investigation of outdoor BTEX: Concentration, variations, sources, spatial distribution, and risk assessment

(2016) Investigation of outdoor BTEX: Concentration, variations, sources, spatial distribution, and risk assessment. Chemosphere.

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The aim of this study was to measure BTEX (benzene, toluene, ethylbenzene, and xylenes) concentrations in the ambient air of Tehran, the capital of Iran, and investigate their seasonal variations, probable sources, spatial mapping, and risk assessment. The concentrations of BTEX were measured using a continuous monitoring device installed in seven stations around the city. Spatial mapping procedure was conducted using the inverse distance weighting (IDW) method. Monte Carlo simulation was used to assess the carcinogenic and noncarcinogenic risks imposed by BTEX. The highest and lowest annual mean concentrations of toluene and ethylbenzene were recorded as 16.25 and 3.63 μg m−3, respectively. The maximum (6.434) and minimum (3.209) toluene/benzene (T/B) ratio was observed in summer and winter, respectively. The spatial distribution of BTEX pollution indicated that the highest concentrations were found along the major roads because of heavy traffic. Spearman's rank correlation coefficients and concentration ratios showed that BTEX were produced by the multiemission sources. The mean of inhalation lifetime cancer risk (LTCR) for benzene was 3.93 × 10−7, which is lower than the limits recommended by the United States Environmental Protection Agency (US EPA) and the World Health Organization (WHO). The hazard quotient (HQ), noncarcinogenic risk index, for all BTEX compounds was <1. The obtained results showed no threat of BTEX concentrations to human health. However, as the concentrations of BTEX will increase due to the rapid growth of vehicles and industrial activities, much effort is required to control and manage the levels of these compounds in the future. © 2016 Elsevier Ltd

Item Type: Article
Additional Information: cited By 6
Keywords: Air quality; Benzene; Environmental Protection Agency; Ethylbenzene; Health risks; Intelligent systems; Inverse problems; Mapping; Monte Carlo methods; Spatial distribution; Toluene, Benzene , toluene , ethylbenzene , and xylenes; BTEX; Inverse distance weighting method; Seasonal variation; Spatial mapping; Spearman's rank correlation coefficients; United states environmental protection agencies; World Health Organization, Risk assessment, benzene; ethylbenzene; toluene; xylene; air pollutant; benzene; benzene derivative; ethylbenzene; toluene; xylene, air quality; ambient air; BTEX; concentration (composition); environmental protection; health risk; pollutant source; risk assessment; seasonal variation; spatial distribution; traffic emission, air analysis; air monitor; air monitoring; air pollutant; air pollution; air quality; ambient air; Article; autumn; cancer risk; concentration (parameters); correlation coefficient; government; hazard ratio; health hazard; human; human experiment; inhalation; inverse distance weighting; Iran; Monte Carlo method; photochemistry; risk assessment; seasonal variation; spatial analysis; statistical analysis; summer; traffic; winter; world health organization; adult; analysis; chemically induced; environmental monitoring; Neoplasms; procedures; risk assessment; season, Iran; Tehran Iran, Adult; Air Pollutants; Benzene; Benzene Derivatives; Environmental Monitoring; Humans; Iran; Neoplasms; Risk Assessment; Seasons; Toluene; Xylenes
Subjects: QU Biochemistry. Cell Biology and Genetics > QU 100-133 Biochemistry of the Human Body
WA Public Health > WA 670-847 Environmental Pollution. Sanitation
Divisions: Research Vice-Chancellor Department > Social Determinants in Health Promotion Research Center
Depositing User: مهندس هدی فهیم پور

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