Comparison between Personal and Individual Exposure to Urban Air Pollutants

This study tested the reliability of a novel method developed for assessing the individual exposure to size-fractionated particulate matter (PM) and gaseous urban pollutants. Individual exposure was defined as the exposure constantly measured in proximity to the subject, even during transfers. Indiv...

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Bibliographic Details
Published in:Aerosol science and technology 2010-05, Vol.44 (5), p.370-379
Main Authors: Cattaneo, Andrea, Taronna, Matteo, Garramone, Gaetano, Peruzzo, Carlo, Schlitt, Christian, Consonni, Dario, Cavallo, Domenico M.
Format: Article
Language:English
Subjects:
Accounting
Aerosols
Air pollution
Breathing
Carbon monoxide
Chemistry
Colloidal state and disperse state
Comparative analysis
Exact sciences and technology
General and physical chemistry
Human exposure
Monitoring
Physical and chemical studies. Granulometry. Electrokinetic phenomena
Pollutants
Public health
Urban areas
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Summary:This study tested the reliability of a novel method developed for assessing the individual exposure to size-fractionated particulate matter (PM) and gaseous urban pollutants. Individual exposure was defined as the exposure constantly measured in proximity to the subject, even during transfers. Individual exposure was measured using a mobile monitoring unit (MMU), developed to sample simultaneously some urban pollutants of interest for public health purposes. The obtained concentrations were compared with those simultaneously collected in the breathing zone, considered as the gold standard for estimating human exposure to air pollutants. Short-time number concentrations of ultrafine, fine, and coarse particles collected by MMU were characterized by a high predictivity of personal exposures (R 2 ≥ 0.89; slope 0.94-1.17 for PM < 10 μ m), far superior to fixed-site measurements. 5-h time-weighted averages fully explained the variability of ultrafine and fine particles (R 2 > 0.99). The concentrations of gaseous pollutants measured by MMU were less correlated with those collected in the breathing zone (R 2 = 0.34-0.65). Nevertheless, the capability of the MMU to detect the variations of personal exposures to O 3 and CO was better than that normally observed using fixed measurements, likely due to the placement of the MMU in the different microenvironments where subjects spent their time. Individual exposures measured by the MMU could be of importance in toxicological and epidemiological studies on PM, with the advantage of accounting for exposure to several gaseous co-pollutants.
ISSN:0278-6826
1521-7388
DOI:10.1080/02786821003662934