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May 16, 2016 - Hong Kong is an example of a city heavily reliant on public transport. In Hong Kong, 12 million public transport passenger journeys are...
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Sequential Measurement of Intermodal Variability in Public Transportation PM and CO Exposure Concentrations 2.5

Wenwei Che, H. Christopher Frey, and Alexis K. H. Lau Environ. Sci. Technol., Just Accepted Manuscript • DOI: 10.1021/acs.est.6b01594 • Publication Date (Web): 16 May 2016 Downloaded from http://pubs.acs.org on June 4, 2016

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Environmental Science & Technology

SEQUENTIAL MEASUREMENT OF INTERMODAL VARIABILITY IN PUBLIC TRANSPORTATION PM2.5 AND CO EXPOSURE CONCENTRATIONS

W. W. Che,1 H. Christopher Frey,1,2,3 Alexis K.H. Lau1,2,* 1

Division of Environment, The Hong Kong University of Science and Technology, Clear Water Bay, Hong Kong, China 2 Department of Civil and Environmental Engineering, The Hong Kong University of Science and Technology, Clear Water Bay, Hong Kong, China 3 Department of Civil, Construction and Environmental Engineering, North Carolina State University, Campus Box 7908, Raleigh, North Carolina 27695-7908, United States

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ABSTRACT A sequential measurement method is demonstrated for quantifying the variability in exposure

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concentration during public transportation. This method was applied in Hong Kong by

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measuring PM2.5 and CO concentrations along a route connecting 13 transportation-related

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microenvironments within three-to-four hours. The study design takes into account ventilation,

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proximity to local sources, area-wide air quality and meteorological conditions. Portable

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instruments were compacted into a backpack to facilitate measurement under crowded

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transportation conditions and to quantify personal exposure by sampling at nose level. The route

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included stops next to three roadside monitors to enable comparison of fixed site and exposure

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concentrations. PM2.5 exposure concentrations were correlated with the roadside monitors,

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despite differences in averaging time, detection method and sampling location. Although highly

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correlated in temporal trend, PM2.5 concentrations vary significantly among microenvironments,

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with mean concentration ratios versus roadside monitor ranging from 0.5 for MTR train to 1.3

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for bus terminal. Measured inter-run variability provides insight regarding the sample size

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needed to discriminate between microenvironments with increased statistical significance. The

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study results illustrate the utility of sequential measurement of microenvironments and policy-

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relevant insights for exposure mitigation and management.

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KEYWORDS

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Exposure, transportation mode, fine particulate matter (PM2.5), carbon monoxide (CO)

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Environmental Science & Technology

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INTRODUCTION

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Numerous epidemiological studies have demonstrated associations between traffic-related air

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pollution exposure and a variety of adverse human health effects, including cardiopulmonary

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mortality, respiratory mortality, chronic bronchitis, asthma attacks, low birth weight, and

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childhood respiratory symptoms1-5 Exposure related to transport has been recognized as a key

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target for public-health action in many places.4,6-8

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Public transportation is extensively used in modern cities.9-11 Hong Kong is an example of a city

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heavily reliant on public transport. In Hong Kong, 12 million public transport passenger journeys

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are made daily, of which 41% are by Mass Transit Railway (MTR), a subway system, 32% are

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via diesel-fueled single- or double-decker buses, 15% are via liquefied petroleum gas (LPG)

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public minibuses, and 2% are by tram.12 People spend on average one to two hours daily in

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transit.13-14 Exposure during public transportation may contribute to a significant fraction of daily

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exposure.

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Roadside fixed-site monitors are an indicator of traffic-related exposure. Such monitors are

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placed closed to traffic emission, and can provide measurement data with instruments of high

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precision and accuracy.15-18 A statistically significant high correlation of 0.92 was observed

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between pedestrian PM2.5 exposure and ambient concentration recorded by a roadside monitor in

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Bangkok.18 However, studies conducted in Europe indicate that a roadside monitor can be a poor 3

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indicator of personal exposure to PM (r