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Commuter exposure to inhalable, thoracic and alveolic particles in various transportation modes in Delhi

A public health concern is to understand the linkages between specific pollution sources and adverse health impacts. Commuting can be viewed as one of the significant-exposure activity in high-vehicle density areas. This paper investigates the commuter exposure to inhalable, thoracic and alveolic pa...

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Bibliographic Details
Published in:The Science of the total environment 2016-01, Vol.541, p.535-541
Main Authors: Kumar, Pramod, Gupta, N.C.
Format: Article
Language:English
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Summary:A public health concern is to understand the linkages between specific pollution sources and adverse health impacts. Commuting can be viewed as one of the significant-exposure activity in high-vehicle density areas. This paper investigates the commuter exposure to inhalable, thoracic and alveolic particles in various transportation modes in Delhi, India. Air pollution levels are significantly contributed by automobile exhaust and also in-vehicle exposure can be higher sometime than ambient levels. Motorcycle, auto rickshaw, car and bus were selected to study particles concentration along two routes in Delhi between Kashmere Gate and Dwarka. The bus and auto rickshaw were running on compressed natural gas (CNG) while the car and motorcycle were operated on gasoline fuel. Aerosol spectrometer was employed to measure inhalable, thoracic and alveolic particles during morning and evening rush hours for five weekdays. From the study, we observed that the concentration levels of these particles were greatly influenced by transportation modes. Concentrations of inhalable particles were found higher during morning in auto rickshaw (332.81±90.97μg/m3) while the commuter of bus exhibited higher exposure of thoracic particles (292.23±110.45μg/m3) and car commuters were exposed to maximum concentrations of alveolic particles (222.37±26.56μg/m3). We observed that in evening car commuters experienced maximum concentrations of all sizes of particles among the four commuting modes. Interestingly, motorcycle commuters were exposed to lower levels of inhalable and thoracic particles during morning and evening hours as compared to other modes of transport. The mean values were found greater than the median values for all the modes of transport suggesting that positive skewed distributions are characteristics of naturally occurring phenomenon. [Display omitted] •Commuters personal exposure to particles is compared in various transport modes•Particles exposure decreases notably from morning to evening in different modes•Car commuters exposure depends on further accumulation of particles in car interior•Motorcycle commuters are exposed to lower levels in comparison to inside vehicles•Transport micro-environment appears heavily affected by local emissions
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2015.09.076