埃及贝赫拉省沿海不同海洋生物群(甲壳类和鱼类)的铯 137 和天然放射性核素评估:RESRAD 生物群。

IF 2.1 4区 医学 Q2 BIOLOGY International Journal of Radiation Biology Pub Date : 2024-01-01 Epub Date: 2023-09-07 DOI:10.1080/09553002.2023.2242936
Mohamed Hegazy Mohamed Salama, Mohamed Safwat Mohamed Tawfik
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引用次数: 0

摘要

目的:这项工作的重点是根据 238U、137Cs、232Th 和 40K 的放射化学测量结果,研究埃及沿海地区的环境和放射生态影响。这项研究的新颖之处在于采用了新技术,整合了两个生物 RESRAD 模型,从而对放射性核素在不同食用海洋生物体内的生物累积进行了概率估算,并确定了不同年龄段人类患癌风险的概率:收集 20 份水样并装入干净的容器,使用不同的质量保证工具测量其衰变产物,单位为 Bq.L-1。研究将使用不同的统计分析方法和不同的 RESRAD 建模代码来预测研究区域的环境和放射生态影响程度,这将有助于确定不同放射性核素的转移和积累所造成的影响。结果:结果显示,Th-232 的人体剂量换算系数值(5、10、15 和成人年龄)最高(mrem/pCi),而人工 137Cs 的摄入换算系数值最低。另一方面,在(5、10、15 岁的成人)情况下,人工铯-137 的外部风险因子值最高(毫雷姆/皮西),而相同年龄的铀-238 的外部风险因子值最低。这将导致在不同的海洋沿岸地区持续监测人工 Cs-137。使用 RESRAD-Biota 计算的甲壳类动物生物累积值(BIV)(Bq.kg-1)的排列如下: U-238 > Th-232 > U-238 > Th-232 > U-238:U-238 > Th-232 > Cs-137,而鱼类动物的生物累积值排列如下: Cs-137 > U-232 > Cs-137:Cs-137 > U-232 > Th-232。另一方面,甲壳类动物的体内剂量换算系数排列为U-238 > Th-232 > Cs-137。而鱼类动物的体内剂量换算系数排列则为:铯-137>钍-232>铯-137:结论:RESRAD 代码的结果表明,生物累积和剂量换算系数的排列取决于海洋生物的类型。RESRAD 代码还显示,计算得出的外部风险因子值,成人比所有婴儿(5 岁、10 岁和 15 岁)都要高,这可能与人在生长阶段不断更换新的体细胞有关。研究结果表明,人造 Cs-137 对海洋生物和人类的环境生物累积影响非常有效,这将证明摄入体内(软组织内)的 Cs-137 与人类患癌风险之间的关系。另一方面,研究结果表明了使用 RESRAD BIOA 代码进行环境影响评估的生态和辐射研究的重要性,今后任何沿海工业项目都应进行此类研究。
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Evaluation of Cs-137 and natural radionuclides on different marine biota (crustacean and fishes) along Beheira governorate Coast-Egypt: RESRAD biota.

Purpose: This work will focused on the environmental and radio-ecological impacts occurred on an Egyptian coastal region, based on the radiochemical measurement of 238U, 137Cs, 232Th, 40K. The novelty of the study was cleared by the using of new technique showing the integration of two biological RESRAD models, lead to a probabilistic estimation of the radionuclides bioaccumulation in different consumed marine organisms and determination the probability of human cancer risk at different ages.

Material and methods: The 20 water samples were collected and mounted into clean containers, and their decay products, were measured in Bq.L-1, using different quality assurance tools. The study will used different statistical analysis and different RESRAD modeling codes were used in the study to predict the degree of environmental and radio-ecological impacts at the studied area, this will be helpful in order to define the impacts resulted from the transferring and accumulation of different radionuclides.

Results: showed that the highest human dose conversion factor values of (5, 10, 15, with adult ages) were measured in Th-232 (mrem/pCi) while the lowest ingestion conversion factors values were observed in artificial 137Cs. On the other hand the highest values of external risk factor in case of (5, 10, 15 with adult age) were observed in artificial Cs-137(mrem/pCi), while the lowest value of external risk factor with the same ages were observed in U-238. This will lead to continual monitoring of artificial Cs-137 in different marine coastal regions. The arrangement of the bioaccumulation value (BIV) in Bq.kg-1 which being calculated by using RESRAD-Biota in case of crustacean animals will be as follow: U-238 > Th-232 > Cs-137, while the arrangement of BIV in case of fish animals will be: Cs-137 > U-232 > Th-232. On the other hand the arrangement of Internal Dose Conversion factors in case of crustacean animals will be: U-238 > Th-232 > Cs-137. While the arrangement of Internal Dose Conversion factors in case of fish animals will be: Cs-137> Th-232 > U-238.

Conclusion: RESRAD code's results showed that the arrangement of the bioaccumulation and Dose Conversion factors were depend on the type of marine living organism. RESRAD code also showed that there are increments of the calculated external risk factor values which resulted from the adult than all the infants (5,10 and 15 ages) ages this may be related to the continuous replacement of new human's body cells during the growth stages. The study results showed that, environmental bioaccumulation impacts of the artificial Cs-137 were very effective in both marine living organisms and human as this will support the relation between the ingestion Cs-137 in the body(inside the soft tissues), and the probability of the human cancer risk. On the other hand, study results showed the importance of using RESRAD BIOA code for the EIA's ecological and radiological studies which should be done for any future industrial coastal .projects.

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来源期刊
CiteScore
5.00
自引率
11.50%
发文量
142
审稿时长
3 months
期刊介绍: The International Journal of Radiation Biology publishes original papers, reviews, current topic articles, technical notes/reports, and meeting reports on the effects of ionizing, UV and visible radiation, accelerated particles, electromagnetic fields, ultrasound, heat and related modalities. The focus is on the biological effects of such radiations: from radiation chemistry to the spectrum of responses of living organisms and underlying mechanisms, including genetic abnormalities, repair phenomena, cell death, dose modifying agents and tissue responses. Application of basic studies to medical uses of radiation extends the coverage to practical problems such as physical and chemical adjuvants which improve the effectiveness of radiation in cancer therapy. Assessment of the hazards of low doses of radiation is also considered.
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