Evaluation of Radionuclides Transfer Factors and Ingestion Dose from Plants Around Mining Sites in Adamawa State Nigeria

International Journal of Natural Sciences Research Pub Date : 2022-10-07 DOI:10.18488/63.v10i1.3158

S. D. Yusuf, Soja Reuben Joseph, I. Umar

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Abstract

Illegal mining activities has become rampant in Adamawa State Nigeria, contaminating the soil with radionuclides which can be transferred to the food crops farmed in the host communities. Ingestion of such plants could cause harmful effects. In this study, radionuclide transfer factor from soil to plants and internal exposure dose around mining sites in Adamawa State were evaluated. 30 (15 soil, 15 plant) samples were analyzed for activity concentrations of 226Ra, 232Th and 40K. The transfer factor from soil to plant was calculated and the ingestion dose was also calculated using the Integrated Module for Bioassay Analysis (IMBA). Result shows that the mean activity concentrations of 226Ra, 232Th and 40K in the soil are 106.32Bq/kg, 84.34Bq/kg and 466.14Bq/kg, while for plants are 98.42Bq/kg, 72.69Bq/kg and 274.07Bq/kg respectively. These values were above the world average by United Nations Scientific Community on the Effects of Atomic Radiation (UNSCEAR) 35Bq/kg, 30Bq/kg and 400Bq/kg except for 40K which was lower in plant samples. Mean transfer factors were 0.942, 0.919 and 1.149 respectively, corresponding to a mean ingestion dose of 1.02E-01mSv/y, indicating high transfer factor in all the mining sites and high ingestion doses. Even though the mean ingestion dose was low, ingestion of such plants may pose radiation risk to the host communities in a long time. Therefore, proper policy by regulatory authorities must be put in place to protect the host community and the public from high ingestion doses that accounts for internal radiation exposure especially mining sites A, B and C.

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尼日利亚阿达马瓦州矿区周围植物放射性核素转移因子和摄入剂量的评价

非法采矿活动在尼日利亚阿达马瓦州变得猖獗，放射性核素污染了土壤，这些放射性核素可以转移到东道国社区种植的粮食作物上。摄入这类植物会造成有害的影响。本研究评估了阿达马瓦州矿区周围土壤向植物的放射性核素转移因子和内照射剂量。对30份样品(15份土壤，15份植物)进行226Ra、232Th和40K活性浓度分析。利用生物测定分析集成模块(Integrated Module for Bioassay Analysis, IMBA)计算了从土壤到植物的传递因子和摄入剂量。结果表明，土壤中226Ra、232Th和40K的平均活性浓度分别为106.32Bq/kg、84.34Bq/kg和466.14Bq/kg，植物中226Ra、232Th和40K的平均活性浓度分别为98.42Bq/kg、72.69Bq/kg和274.07Bq/kg。这些数值均高于联合国原子辐射影响科学共同体(UNSCEAR)的世界平均水平(35Bq/kg、30Bq/kg和400Bq/kg)，但植物样本中的40K较低。平均传递系数分别为0.942、0.919和1.149，对应的平均摄入剂量为1.002 ~ 01msv /y，说明所有矿区的传递系数都很高，摄入剂量也很高。尽管这些植物的平均摄入剂量较低，但在很长一段时间内仍可能对宿主社区造成辐射风险。因此，管理当局必须制定适当的政策，以保护东道国社区和公众免受高剂量的摄入，这是造成内部辐射暴露的原因，特别是采矿地点A、B和C。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Natural Sciences Research

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