dc.identifier.citation |
Harrad, S and Wijesekera, R and Hunter, S and Halliwell, C and Baker, R (2004) Preliminary Assessment of U.K. Human Dietary and Inhalation Exposure to Polybrominated Diphenyl Ethers. Environmental Science and Technology, 38 . pp. 2345-2350 |
en_US |
dc.description.abstract |
This study reports concentrations of BDEs 47, 99, 100, 153, and 154 in outdoor air [median SigmaPBDE (sum of BDEs 47, 99, 100, 153, and 154) = 18 pig m(-3)] in air from a range of office and home indoor microenvironments (median SigmaPBDE = 762 pg m-3) and vegan and omnivorous duplicate diet samples (median SigmaPBDE = 154 and 181 pg g(-1) dry weight for vegan and omnivorous diets, respectively). Median daily human exposure to SigmaPBDE via inhalation is 6.9 ng/person and 90.5 ng/person via diet but the relative significance of these pathways may vary considerably between individuals. Median concentrations in indoor air were higher in workplace (SigmaPBDE = 1082 pg m-3) than in domestic (SigmaPBDE = 128 pg m(-3)) microenvironments, and substantial differences in concentrations in air from different rooms in the same office building were found. When data from the only mechanically ventilated room was excluded, a significant positive correlation (p and lt; 0.001) was observed between PBDE concentrations and both the number of electrical appliances and polyurethane foam-containing chairs. Concentrations of andUSigma;PBDE and BDEs 47 and 99 were significantly higher (p and lt; 0.1) in omnivorous diet samples than in vegan diet samples, implying that while plant-based foods contribute appreciably, higher exposure occurs via ingestion of animal-based comestibles. |
en_US |