TY - JOUR
T1 - Outdoor and indoor respirable air particulate concentrations in differing urban traffic microenvironments
AU - O'Connell, Susan
AU - Au-Yeung, Ho Kong C.
AU - Gregory, Clive J.
AU - Matthews, Ian P.
N1 - Funding Information:
Received September 10, 2007; accepted February 13, 2008. We gratefully acknowledge funding of a PhD studentship for Ho-Kong C. Au-Yeung from the Medical Research Council. Address correspondence to Ian P. Matthews, Department of Primary Care and Public Health, Cardiff University, 4th Floor Neuadd Meirionnydd, Heath Park, Cardiff, CF14 4YS, United Kingdom. E-mail: [email protected] (1) measure the concentration of PM5 as well as total particle numbers (TPN) in highly trafficked urban areas and (2) compare these with measurements in areas of low traffic flow. Indoor levels were also measured for both exposure categories to examine if these were affected by outdoor levels.
PY - 2008/1
Y1 - 2008/1
N2 - To study the adverse health effects associated with ambient respirable particulates it is necessary to assess population exposure. However, measurements are usually carried out by fixed-site air monitoring units and do not take into consideration the range of urban microenvironments. In particular, vehicular emissions are a major source of particulates in cities and it is therefore necessary to consider traffic density when investigating the adverse health effects of air particulates. This study assessed both PM5 and total particle number (TPN) in areas of high and low traffic flow within the city of Cardiff, UK. Daytime measurements were made outdoors throughout the period January 2004-June 2005. Simultaneous indoor measurements were made in 73 participating households in areas of high traffic flow (exposed) and 50 households in areas of low traffic flow (controls). The median outdoor PM5 concentration in the exposed area (16.7 μg cm-3) was 45% significantly higher than that in the unexposed area (11.5 μg cm-3) and the median TPN in the exposed area (18,130 particles cm-3) was almost double that in the unexposed area (9951 particles cm-3). The median indoor concentration of PM5 in the exposed area (13.2 μg cm-3) was also 40% significantly higher than that in the unexposed area (9.4 μg cm-3), but there was almost no difference in indoor median TPN between the two areas: 8999 particles cm-3 and 8549 particles cm-3, respectively. The observed differences in respirable particles between areas of high and low traffic flow underline the importance of obtaining exposure measurements in microenvironments.
AB - To study the adverse health effects associated with ambient respirable particulates it is necessary to assess population exposure. However, measurements are usually carried out by fixed-site air monitoring units and do not take into consideration the range of urban microenvironments. In particular, vehicular emissions are a major source of particulates in cities and it is therefore necessary to consider traffic density when investigating the adverse health effects of air particulates. This study assessed both PM5 and total particle number (TPN) in areas of high and low traffic flow within the city of Cardiff, UK. Daytime measurements were made outdoors throughout the period January 2004-June 2005. Simultaneous indoor measurements were made in 73 participating households in areas of high traffic flow (exposed) and 50 households in areas of low traffic flow (controls). The median outdoor PM5 concentration in the exposed area (16.7 μg cm-3) was 45% significantly higher than that in the unexposed area (11.5 μg cm-3) and the median TPN in the exposed area (18,130 particles cm-3) was almost double that in the unexposed area (9951 particles cm-3). The median indoor concentration of PM5 in the exposed area (13.2 μg cm-3) was also 40% significantly higher than that in the unexposed area (9.4 μg cm-3), but there was almost no difference in indoor median TPN between the two areas: 8999 particles cm-3 and 8549 particles cm-3, respectively. The observed differences in respirable particles between areas of high and low traffic flow underline the importance of obtaining exposure measurements in microenvironments.
UR - http://www.scopus.com/inward/record.url?scp=46749155434&partnerID=8YFLogxK
U2 - 10.1080/15287390802112000
DO - 10.1080/15287390802112000
M3 - Article
C2 - 18569618
AN - SCOPUS:46749155434
SN - 1528-7394
VL - 71
SP - 1069
EP - 1072
JO - Journal of Toxicology and Environmental Health - Part A: Current Issues
JF - Journal of Toxicology and Environmental Health - Part A: Current Issues
IS - 16
ER -