加拿大蒙特利尔的通勤行为与空气污染暴露。
Commuting behaviors and exposure to air pollution in Montreal, Canada.
机构信息
Department of Public Health Sciences, Queen's University, Kingston, ON, Canada; Cancer Research Institute at Queen's University, Kingston, ON, Canada.
Department of Environmental and Occupational Health, Chair in Toxicological Risk Assessment and Management, Université de Montréal, Montréal, QC, Canada.
出版信息
Sci Total Environ. 2015 Mar 1;508:193-8. doi: 10.1016/j.scitotenv.2014.11.078. Epub 2014 Dec 5.
BACKGROUND
Vehicular traffic is a major source of outdoor air pollution in urban areas, and studies have shown that air pollution is worse during hours of commuting to and from work and school. However, it is unclear to what extent different commuting behaviors are a source of air pollution compared to non-commuters, and if air pollution exposure actually differs by the mode of commuting. This study aimed to examine the relationships between commuting behaviors and air pollution exposure levels measured by urinary 1-OHP (1-hydroxypyrene), a biomarker of exposure to polycyclic aromatic hydrocarbons (PAHs).
METHODS
A cross-sectional study of 174 volunteers living in Montreal, 92 females and 82 males, aged 20 to 53 years was conducted in 2011. Each participant completed a questionnaire regarding demographic factors, commuting behaviors, home and workplace addresses, and potential sources of PAH exposure, and provided a complete first morning void urine sample for 1-OHP analysis. Multivariable general linear regression models were used to examine the relationships between different types of commuting and urinary 1-OHP levels.
RESULTS
Compared to non-commuters, commuters traveling by foot or bicycle and by car or truck had a significantly higher urinary 1-OHP concentration in urine (p=0.01 for foot or bicycle vs. non-commuters; p=0.02 for car or truck vs. non-commuters); those traveling with public transportation and combinations of two or more types of modes tended to have an increased 1-OHP level in urine (p=0.06 for public transportation vs. non-commuters; p=0.05 for commuters with combinations of two or more types of modes vs. non-commuters). No significant difference in urinary 1-OHP variation was found by mode of commuting.
CONCLUSION
This preliminary study suggests that despite the mode of commuting, all types of commuting during rush hours increase exposure to air pollution as measured by a sensitive PAH metabolite biomarker, and mode of commuting did not explain exposure variation.
背景
机动车是城市地区室外空气污染的主要来源,研究表明,上下班期间的空气污染更为严重。然而,目前尚不清楚与非通勤者相比,不同的通勤行为在多大程度上是空气污染的来源,以及通勤方式是否会导致空气污染暴露程度的差异。本研究旨在探讨通勤行为与尿液 1-OHP(1-羟基芘)之间的关系,1-OHP 是多环芳烃(PAHs)暴露的生物标志物。
方法
2011 年进行了一项横断面研究,共纳入 174 名居住在蒙特利尔的志愿者,其中 92 名女性,82 名男性,年龄 20 至 53 岁。每位参与者完成了一份关于人口统计学因素、通勤行为、家庭和工作场所地址以及潜在 PAH 暴露源的问卷,并提供了完整的晨尿用于 1-OHP 分析。采用多变量线性回归模型来检验不同类型的通勤方式与尿液 1-OHP 水平之间的关系。
结果
与非通勤者相比,步行或骑自行车以及开车或卡车通勤者的尿液中 1-OHP 浓度明显更高(步行或骑自行车与非通勤者相比,p=0.01;开车或卡车与非通勤者相比,p=0.02);乘坐公共交通工具和两种或多种方式组合通勤者的尿液中 1-OHP 水平往往升高(与非通勤者相比,乘坐公共交通工具,p=0.06;与非通勤者相比,两种或多种方式组合通勤者,p=0.05)。但不同通勤方式对尿液 1-OHP 变化无显著差异。
结论
本初步研究表明,尽管通勤方式不同,但高峰时段的所有通勤方式都会增加空气中污染物的暴露,这可以通过敏感的 PAH 代谢物生物标志物来衡量,且通勤方式并不能解释暴露变化。
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