在喀麦隆远北地区,农牧活动产生的40K对植物摄入总有效剂量的贡献

IF 1.6 Q4 ENVIRONMENTAL SCIENCES AIMS Environmental Science Pub Date : 2022-01-01 DOI:10.3934/environsci.2022027
Awe Richard, Koyang François, Bineng Guillaume Samuel, Ndimantchi Ayoba, Takoukam Soh Serge Didier, Saïdou-
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引用次数: 0

摘要

本研究评估了喀麦隆远北地区梅奥-萨瓦、梅奥-察那加和梅奥-卡尼省农牧活动密集地区的放射性水平、相应剂量和风险。最终目的是表明,除了土壤的地质结构和矿物学成分外,农业肥料和牲畜养殖的动物粪便也可以显著提高环境中40k诱导的放射性水平。利用实验室NaI (Tl) γ能谱仪对上述三个地区的55份土壤样品进行了天然放射性核素分析。238U、232Th和40K的平均活性浓度分别为41、59和529 Bq/kg。公众总有效剂量和癌症发病风险由RESRAD-ONSITE代码7.2版生成。在时间t = 38年时,估计最大总有效剂量为0.7 mSv/年,其中植物摄入、外部暴露、肉类摄入、牛奶摄入、土壤摄入和吸入分别占56%、37.3%、3.9%、2.1%、0.7%和0.07%。从植物中摄取的钾-40 (40K)是主要的贡献者。农牧活动开始年的剂量和总过量癌症风险分别为0.3毫西弗/年和1.165×10-3。与农牧活动不密集的地区相比,本工作中获得的植物摄入对有效剂量的40K贡献很高。这可能是由于自然界中分布的各种肥料和动物粪便中钾含量非常丰富。尽管钾对生命至关重要,但在辐射防护方面仍有必要考虑到这种对环境和健康并非没有有害影响的辐射照射。
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Contribution of 40K arising from agropastoral activities to the total effective dose by plant ingestion in the Far-North, Cameroon
This study assesses the level of radioactivity, its corresponding dose and risk in areas of intense agropastoral activities in the Mayo-Sava, Mayo-Tsanaga and Mayo-Kani Divisions of the Far North region of Cameroon. The ultimate aim is to show that beyond the geological structure and mineralogical composition of the soil, agricultural fertilizers and animal droppings from livestock farming can contribute significantly to the elevation of the 40K-induced radioactivity level in an environment. Natural radionuclide analysis was carried out on 55 soil samples collected from the three aforementioned localities, using a laboratory NaI (Tl) gamma spectrometer. The mean activity concentrations of 238U, 232Th and 40K were 41, 59 and 529 Bq/kg respectively. The total effective dose to the public and the risk of cancer morbidity were generated by RESRAD-ONSITE code version 7.2. The 0.7 mSv/year maximum total effective dose was estimated at time t = 38 years, with contributions of 56%, 37.3%, 3.9%, 2.1%, 0.7% and 0.07% from plant ingestion, external exposure, meat ingestion, milk ingestion, soil ingestion and inhalation, respectively. Potassium-40 (40K) from plant ingestion is the major contributor. The doses in the initial year of agropastoral activity and the total excess cancer risk were 0.3 mSv/year and 1.165×10-3 respectively. The 40K contributions to effective dose from plant ingestion obtained in this work are high compared to areas where agropastoral activities are not intensive. This may be due to the various fertilizers and animal droppings distributed in nature which are very rich in potassium. Although potassium is essential to life, it is nevertheless necessary for radiation protection to take into account this type of radiological exposure which is not without harmful effects on the environment and health.
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来源期刊
AIMS Environmental Science
AIMS Environmental Science ENVIRONMENTAL SCIENCES-
CiteScore
2.90
自引率
0.00%
发文量
31
审稿时长
5 weeks
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