气候变化领域集成服务门户(CCPortal): Commuting by car, public transport, and bike: Exposure assessment and estimation of the inhaled dose of multiple airborne pollutants

CCPortal

DOI	10.1016/j.atmosenv.2021.118613
	Commuting by car, public transport, and bike: Exposure assessment and estimation of the inhaled dose of multiple airborne pollutants
	Boniardi L.; Borghi F.; Straccini S.; Fanti G.; Campagnolo D.; Campo L.; Olgiati L.; Lioi S.; Cattaneo A.; Spinazzè A.; Cavallo D.M.; Fustinoni S.
发表日期	2021
ISSN	1352-2310
卷号	262
英文摘要	It is known that air pollution affects human health and commuting environments are significant contributors to the total daily personal exposure to air pollution. With this study we aim at assessing and comparing personal exposure to traffic-related air pollution and related estimated inhaled dose of different typical commuter profiles in real-world scenarios focusing on multimodal commuting and different transport microenvironments. A car driver and two multimodal commuters (cyclist/public transport and pedestrian/public transport commuters), which reached the same destination in the city center, leaving from the same starting point in the metropolitan area of the city, were investigated in the metropolitan area of Milan, Italy. Real-time monitors for the measurement of size-fractionated particulate matter (PM - Aerocet 831-Met One Instrument Inc., Grant Pass, Oregon, USA), equivalent Black Carbon (eBC - Aethlabs, San Francisco, CA, USA), and NO2 (CairClip NO2, Cairpol; La Roche Blanche, France) and time-integrated samplers for the measurement of NO2 and benzene were used. Inhaled dose was estimated as well by applying estimated pulmonary ventilation rates to 1-min exposure measures. The Bootstrapping method was used to resample data and perform more robust comparisons among commuters and microenvironments (MEs). Results of the study could be summarized as follows: (i) travel times of the cyclist were the shortest; (ii) the highest concentrations and estimated inhaled doses were found during morning rush hour; (iii) the cyclist and the car commuter were exposed to the highest overall median values of fractionated PM and benzene, respectively; (iv) cycling MEs presented the highest median concentrations of PM, while the overall median concentration of eBC was higher commuting by car than walking and cycling; (v) the cyclist was the commuter with the highest overall median estimated inhaled dose for fractionated PM, while benzene was the highest for the car driver, and NO2 for the pedestrian; (vi) exposure differences both among microenvironments and commuters diverged comparing morning and evening commuting. Our results suggest that a multi-pollutant approach is necessary to better represent the complexity of personal exposure to traffic-related air pollution in multimodal mobility studies. Moreover, shifting from car driving to multimodal mobility is already a valuable choice for the metropolitan area of Milan considering both exposure and commuting time. However, to further reduce personal exposure and especially estimated inhaled dose of multimodal and active commuters, exposure mitigation interventions in selected MEs, traffic calming, and innovative mobility policies are still needed. © 2021 Elsevier Ltd
关键词	Inhalation dose Microenvironment Personal exposure Time-activity pattern Traffic related air pollution (TRAP)Travel mode
语种	英语
scopus关键词	Air quality; Nitrogen oxides; Travel time; Inhalation dose; Metropolitan area; Microenvironments; Multi-modal; NO $-2$; Personal exposures; Public transport; Time activity patterns; Traffic related air pollution; Travel modes; Benzene; benzene; black carbon; chloride; diesel fuel; gasoline; nitrogen dioxide; sulfur; atmospheric pollution; commuting; metropolitan area; mobility; particulate matter; pollutant source; pollution exposure; walking; air pollutant; air pollution; air temperature; Article; bootstrapping; car; car driver; car driving; controlled study; cycling; cyclist; gravimetry; human; human experiment; limit of detection; lung ventilation; meteorology; microenvironment; normal human; particle size; particulate matter; pedestrian; PM2.5 exposure; traffic and transport; walking; Varanidae
来源期刊	ATMOSPHERIC ENVIRONMENT
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/248286
作者单位	Department of Clinical Sciences and Community Health, University of Milan, Milan, Italy; Department of Science and High Technology, University of Insubria, Como, Italy
推荐引用方式 GB/T 7714	Boniardi L.,Borghi F.,Straccini S.,et al. Commuting by car, public transport, and bike: Exposure assessment and estimation of the inhaled dose of multiple airborne pollutants[J],2021,262.
APA	Boniardi L..,Borghi F..,Straccini S..,Fanti G..,Campagnolo D..,...&Fustinoni S..(2021).Commuting by car, public transport, and bike: Exposure assessment and estimation of the inhaled dose of multiple airborne pollutants.ATMOSPHERIC ENVIRONMENT,262.
MLA	Boniardi L.,et al."Commuting by car, public transport, and bike: Exposure assessment and estimation of the inhaled dose of multiple airborne pollutants".ATMOSPHERIC ENVIRONMENT 262(2021).