Soil radioactivity levels and radiological risk assessment in the highlands of Hunza, Pakistan.

This paper deals with the determination of (226)Ra, (232)Th, (40)K and (137)Cs in 42 soil samples collected from eight towns of Hunza district, at an average altitude of 2267 m, using gamma-ray spectrometry. The activity concentration data were analysed for frequency distribution and other descriptive measures. Risk assessment was done by calculating the hazard indices, air absorbed dose rate and external annual effective dose rate due to cosmic radiations, terrestrial radionuclides and (137)Cs deposited on the surface of the earth. Both indoor and outdoor occupancy factors were taken into account. The average dose rate due to cosmic radiation was estimated as 828 ± 87 µSv y(-1), from external terrestrial radiation as 97 ± 20 µSv y(-1) and from (137)Cs as 1.05 µSv y(-1) for a total annual effective dose rate of 926 ± 92 µSv. The results of the present study were discussed and compared with other similar studies performed in East Asia. The present study indicates that Hunza can be ranked among those areas having a high level of dose rate not only from cosmic rays but also from terrestrial radionuclides. This paper also proposes another measure of radiation hazard called 'radium equivalent for internal exposure'.