Annals of Occupational Hygiene Advance Access published online on November 7, 2007
Annals of Occupational Hygiene, doi:10.1093/annhyg/mem052
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Evaluation of Asbestos Exposures during Firewood-Harvesting Simulations in Libby, MT, USA—Preliminary Data
1 Department of Safety, Health and Industrial Hygiene, Montana Tech of The University of Montana, Butte, MT, USA
2 Center for Environmental Health Sciences, The University of Montana, Missoula, MT, USA
* Author to whom correspondence should be addressed. Tel: +406-496-4792; fax: +406-496-4650; e-mail: jhart{at}mtech.edu
Research was conducted in order to assess potential exposure to asbestos while harvesting firewood from amphibole-contaminated trees near Libby, MT, USA. Three firewood-harvesting simulations took place in the summer and fall of 2006 in the Kootenai Forest inside the US Environmental Protection Agency (EPA) restricted zone surrounding the former W.R. Grace vermiculite mine. Another simulation was conducted near Missoula, MT, USA, which served as the control. The work practices following each simulation were consistent throughout each trial. Personal breathing zone (PBZ) asbestos concentrations were measured by phase contrast microscopy (PCM) and transmission electron microscopy (TEM). Surface wipe samples of personal protective clothing were measured by TEM. The mean (n = 12) PBZ PCM sample time-weighted average (TWA) concentration was 0.29 fibers per milliliter, standard deviation (SD = 0.54). A substantial portion (more than five fibers per sample) of non-asbestos fibers (cellulose) was reported on all PBZ samples (excluding field blanks) when analyzed by TEM. The mean (n = 12) PBZ TEM sample TWA concentration for amphibole fibers <5-µm long was 0.15 fibers per milliliter (SD = 0.21) and the mean (n = 12) PBZ TEM concentration for amphibole fibers >5-µm long was 0.07 fibers per milliliter (SD = 0.08). Substantial amphibole fiber concentrations were revealed on Tyvek® clothing wipe samples. The mean concentration (n = 12) was 29 826 fibers per square centimeter (SD = 37 555), with 91% (27 192 fibers per square centimeter) comprised fibers <5-µm long. There were no significant differences in PBZ and wipe sample concentrations among the tasks performed by four investigators. Each of these three simulations were consistent in demonstrating that amphibole fibers are released from tree reservoirs during firewood-harvesting activities in asbestos-contaminated areas and that the potential for exposure exists during such activities.
amphibole • asbestos • electron microscopy • fibers • Libby • Montana • tree bark
Received May 22, 2007; in final form September 14, 2007