Abstract
Radiation dose from natural sources is mainly from exposure to radon in the environment. Radon has its origin from uranium-bearing bedrocks and overburden. In the present study, assessment of the level of radon over the three lithological units upon which the residential areas of ObafemiAwolowo University Campus, Ile-Ife (OAU) was situated was carried out. Soil gas radon concentration measurement was carried out at a constant depth of 0.80 m across the three lithologies (granite gneiss, grey gneiss and mica schist) using a RAD7 electronic radon detector. A total of 138 in-situ soil gas radon measurements were carried out. Obtained experimental data were analysed and summarised using descriptive and inferential statistics with statistical significance set at p < 0.05. A radon potential map was also developed using existing permeability data of the soils in the area. Soil radon concentration varied across the different lithologies ranging from 0.04 kBq/m3 – 190 kBq/m3 with a mean value of 14 kBq/m3. The mean value of Rn-222 concentration obtained in the three lithologies are 3.5 ± 5.9, 11.5 ± 25.8 and 28.4 ± 37.4 kBq/m3 for granite gneiss, grey gneiss and mica schist respectively. There is a statistically significant difference (p < 0.001) in the mean concentration of radon-222 measured on the three lithologies. The granite gneiss and grey gneiss lithologies have been designated into low radon index, while mica schist lithology has been designated as medium radon index. 34% of the sampled areas exhibit high radon risk based on Swedish risk criteria, thereby warranting protective actions.
Highlights
The radon gas produced in the upper layer of soil tends to move through soil pores to the surface due to the pressure difference between the surface air and the soil gas containing radon
Characterization of soil gas radon in an environment based on superficial geology is a useful tool to determining indoor radon concentration[15,16]
Areas underlain with granitic rocks which are mostly enriched in uranium are usually radon prone[17,18]
Summary
The radon gas produced in the upper layer of soil tends to move through soil pores to the surface due to the pressure difference between the surface air and the soil gas containing radon. Some buildings materials containing parent radionuclides of radon can contribute to indoor radon concentration, www.nature.com/scientificreports soil gas containing radon found in soils overlying basement rocks constitute the main source for indoor radon concentration[1]. Several studies on indoor and outdoor radon have associated radon exposure to lung cancer risk[5,6,7]. Spatial radon distribution mapping is a very important predictive tool which has been used across the different countries of the world for implementation of protective and remedial measures against adverse health effect exposure to indoor radon[17,22,23,24]. The sampled site is one of the foremost Universities in Nigeria and it has no spatial radon map which could be used for the purpose of planning mitigation of radon exposure and its potential radiological health hazard
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