Geographic differences in inter-individual variability of human exposure to fine particulate matter: Fid-Bau Portal

Geographic differences in inter-individual variability of human exposure to fine particulate matter

Cao, Ye / Frey, H. Christopher

Abstract Human exposure to fine particulate matter (PM2.5) is associated with short and long term adverse health effects. The amount of ambient PM2.5 that infiltrates indoor locations such as residences depends on air exchange rate (ACH), penetration factor, and deposition rate. ACH varies by climate zone and thus by geographic location. Geographic variability in the ratio of exposure to ambient concentration is estimated based on comparison of three modeling domains in different climate zones: (1) New York City; (2) Harris County in Texas, and (3) a six-county domain along the I-40 corridor in North Carolina. Inter-individual variability in exposure to PM2.5 was estimated using the Stochastic Human Exposure and Dose Simulation for Particulate Matter (SHEDS-PM) model. ACH is distinguishably the most sensitive input for both ambient and non-ambient exposure to PM2.5. High ACH leads to high ambient exposure indoors but lower non-ambient exposure, and vice versa. For summer, the average ratio of exposure to ambient concentration varies by 13 percent among the selected domains, mainly because of differences in housing stock, climate zone, and seasonal ACH. High daily average exposures for some individuals are mainly caused by non-ambient exposure to smoking or cooking. The implications of these results for interpretation of epidemiological studies are discussed.

Highlights ► Most human exposure to ambient fine particulate matter (PM2.5) occurs indoors. ► Ambient exposure to concentration (E a/C) for PM2.5 averages 0.52–0.60. ► Average E a/C varies with geographic differences in residential air exchange rates. ► The coefficient of variation of inter-individual variability in E a/C is 0.25. ► Variations in E a/C are not accounted for in many health effects studies.