Effective monitoring of environmental radioactivity is essential for mitigating radiation-induced health risks such as cancer. In this study, the activity concentrations of 238U, 232Th, and 40K were measured in soil samples collected from thirteen sample points across chibok local government area. Gamma-ray spectrometry was employed for the analysis conducted at the center for energy research and development, Obafemi Awolowo university Ile-Ife. Osun state. The results, obtained indicate average activity concentrations of approximately 14.56 Bqkg-1 for 238U, 2.73 Bqkg-1 for 232Th, and 563.58 Bqkg-1 for 40K, with 40K being the dominant contributor to the overall specific activity. Furthermore, radiological parameters were evaluated, with the Absorbed dose rate (DAbs), Annual Effective Dose (AEDE), Radium equivalent (Raeq), External hazard index (Hex), Internal hazard index (Hin), Gamma activity index (Iγr), and Excess lifetime cancer risk (ELCR). Were all determined to assess the radiation hazard of the quarry soil yielding average values of 31.87 nGyh-1, 0.0391 mSvy-1, 61.855 Bq/kg, 0.167, 0.206, 0.506, and 0.00014 respectively, the result was also compared with other study as indicate in table 1. The current radiological concentration of the soil does not pose an immediate threat to human health or the environment. However, prolonged exposure over a lifetime could result to health risks for both workers and the general public, particularly for those in close proximity to the quarry. These findings underscore the importance of continuous radioactivity monitoring to protect both human health and other components of the locality.
Jauro et al. (Mon,) studied this question.