Article

Exposure of burrowing mammals to 222Rn

Details

Citation

Beresford NA, Barnett CL, Vives i Batlle J, Potter ED, Ibrahimi Z, Barlow TS, Schieb C, Jones DG & Copplestone D (2012) Exposure of burrowing mammals to 222Rn. Science of the Total Environment, 431, pp. 252-261. https://doi.org/10.1016/j.scitotenv.2012.05.023

Abstract
Estimates of absorbed dose rates to wildlife from exposure to natural background radionuclides are required to put estimates of dose rates arising from regulated releases of radioactivity and proposed benchmarks into context. Recent review papers have estimated dose rates to wildlife from 40K, and 238U and 232Th series radionuclides. However, only one study previous has considered the potential dose rates to burrowing animals from inhaled 222Rn and its daughter products. In this paper we describe a study conducted at seven sites in northwest England. Passive track etch detectors were used to measure the 222Rn concentrations in artificial burrows over a period of approximately one year. Results suggest that absorbed dose rates to burrowing mammals as a consequence of exposure to 222Rn are likely to be at least an order of magnitude higher than those suggested in previous evaluations of natural background exposure rates which had omitted this radionuclide and exposure pathway. Dose rates in some areas of Great Britain will be considerably in excess of incremental no-effects benchmark dose rates suggested for use as screening levels. Such advised benchmark dose rates need to be better put into context with background dose rates, including exposure to 222Rn, to ensure credibility; although the context will be determined by the purpose of the benchmark and the assessment level.

Keywords
Radon; Burrowing mammal; Environmental assessment; Dose rate; Background exposure

Journal
Science of the Total Environment: Volume 431

StatusPublished
Publication date31/08/2012
URLhttp://hdl.handle.net/1893/19752
PublisherElsevier
ISSN0048-9697

People (1)

Professor David Copplestone

Professor David Copplestone

Professor, Biological and Environmental Sciences