Radiation Protection Dosimetry Vol. 111, No. 1 © Oxford University Press 2004; all rights reserved
Radon exposure in uranium mining industry vs. exposure in tourist caves
1 Cátedra de Física Médica, Facultad de Medicina, Universidad de Cantabria, 39011 Santander, Spain
2 ENUSA Industrias Avanzadas, Saelices el Chico, Salamanca, Spain
* Corresponding author: quindosl{at}unican.es
There is a fairly general consensus among health physicists and radiation professionals that exposure to radon progeny is the largest and most variable contribution to the population's exposure to natural sources of radiation. However, this exposure is the subject of continuing debate concerning the validity of risk assessment and recommendations on how to act in radon-prone areas.
The purpose of this contribution is to situate the radon issue in Spain in two very different settings. The first is a uranium mining industry located in Saelices el Chico (Salamanca), which is under strict control of the Spanish Nuclear Safety Council (CSN). We have measured radon concentrations in different workplaces in this mine over a five-year period. The second setting comprises four tourist caves, three of which are located in the province of Cantabria and the fourth on the Canary Island of Lanzarote. These caves are not subject to any administrative control of radiation exposure.
Measured air 222Rn concentrations were used to estimate annual effective doses due to radon inhalation in the two settings, and dose values were found to be from 2 to 10 times lower in the uranium mine than in the tourist caves. These results were analysed in the context of the new European Basic Safety Standards Directive (EU-BSS, 1996).