放射性污染杉树顶芽的剂量估算模型

IF 0.6 Q4 NUCLEAR SCIENCE & TECHNOLOGY
I. Kawaguchi, H. Kido, Yoshito Watanabe
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引用次数: 0

摘要

背景:福岛第一核电站事故发生后,自然生物群的生物学变化,包括核电站周围森林冷杉树的形态变化,已经被报道。本研究以杉木形态形成过程中的顶芽为研究对象,建立了一种利用树木器官放射性核素分布测量来估计吸收辐射剂量率的方法。材料与方法:以杉树上三轮为材料,构建三维树形器官模型。用蒙特卡罗模拟方法对一个顶芽进行了评估,以确定放射性核素在花轮树器官中的吸收剂量率。FDNPP事故后主要放射性核素131I、134Cs和137Cs的吸收剂量评估。每个树状器官的剂量贡献分别用剂量系数(DC)计算,DC表示每个树状器官中放射性核素的平均活性浓度与顶芽剂量率之间的比值。结果与讨论:剂量估计表明,顶芽和芽鳞中的放射性核素主要以β射线贡献吸收剂量率,而1年生树干/枝叶中的放射性核素主要以γ射线贡献吸收剂量率。然而,放射性核素在下部干/枝和叶中的剂量贡献可以忽略不计。结论:杉树模型提供了杉树体内辐射吸收剂量率的器官特异性DC值,可以满足实际计算杉树体内辐射吸收剂量率的需要。这些计算是根据对杉树1年树龄主枝上树木器官中放射性核素浓度的测量得出的。结合树木环境中直接伽马射线的吸收剂量率测量,估算了污染林内杉树顶芽的总吸收剂量率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dose Estimation Model for Terminal Buds in Radioactively Contaminated Fir Trees
Background: After the Fukushima Daiichi Nuclear Power Plant (FDNPP) accident, biological alterations in the natural biota, including morphological changes of fir trees in forests surrounding the power plant, have been reported. Focusing on the terminal buds involved in the morphological formation of fir trees, this study developed a method for estimating the absorbed radiation dose rate using radionuclide distribution measurements from tree organs.Materials and Methods: A phantom composed of three-dimensional (3D) tree organs was constructed for the three upper whorls of the fir tree. A terminal bud was evaluated using Monte Carlo simulations for the absorbed dose rate of radionuclides in the tree organs of the whorls. Evaluation of the absorbed dose targeted 131I, 134Cs, and 137Cs, the main radionuclides subsequent to the FDNPP accident. The dose contribution from each tree organ was calculated separately using dose coefficients (DC), which express the ratio between the average activity concentration of a radionuclide in each tree organ and the dose rate at the terminal bud.Results and Discussion: The dose estimation indicated that the radionuclides in the terminal bud and bud scale contributed to the absorbed dose rate mainly by beta rays, whereas those in 1-year-old trunk/branches and leaves were contributed by gamma rays. However, the dose contribution from radionuclides in the lower trunk/branches and leaves was negligible.Conclusion: The fir tree model provides organ-specific DC values, which are satisfactory for the practical calculation of the absorbed dose rate of radiation from inside the tree. These calculations are based on the measurement of radionuclide concentrations in tree organs on the 1-year-old leader shoots of fir trees. With the addition of direct gamma ray measurements of the absorbed dose rate from the tree environment, the total absorbed dose rate was estimated in the terminal bud of fir trees in contaminated forests.
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来源期刊
Journal of Radiation Protection and Research
Journal of Radiation Protection and Research Physics and Astronomy-Radiation
CiteScore
1.00
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0.00%
发文量
6
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