Radon Hazards, Geology, and Exposure of Cave Users: A Case Study and Some Theoretical Perspectives

 

Gillmore, GK; Sperrin, M; Phillips, P; Denman, A

 

School of Environmental Science, University College Northampton, Northampton, NN2 7AL, United Kingdom, [mailto:gavin.gillmore@northampton.ac.uk]

 

Ecotoxicology and Environmental Safety [Ecotoxicol. Environ. Saf.]. Vol. 46, no. 3, pp. 279-288. Jul 2000. ISSN 0147-6513

 

The concerns over the risks to human health from radon in underground caves are poorly documented, unlike in workplace or domestic environments where exposures are relatively well known. In U.K. caves, radon has been identified as occurring at elevated levels; but with the exception of major show caves, its impact and risk to the many groups who use the caves have thus far received inadequate attention. This paper presents a survey performed in a relatively "low-risk" geographical area of the United Kingdom and quantifies the risk of exposure in this cave environment. Radon levels up to 12,552 Bq m super(-3) were measured: Such concentrations are very high but are likely to underestimate the levels in many other parts of the cave system, for reasons associated with cave architecture and meteorology. This study confirms previous workers' conclusions that long-term users of deep caves, as opposed to rock shelters, are at risk. Annual doses to certain groups of cave users have been calculated to be as high as 120 mSv, a very high value. The study also demonstrates that there is variation both within and between caves as a result of subtleties of the bedrock geology, fault patterns, and weathering. This paper sets out a theoretical model.