苏丹Ingesana山脉周围花岗岩的自然放射性及其健康风险。

IF 1 4区 医学 Q4 ENVIRONMENTAL SCIENCES Health physics Pub Date : 2024-01-01 Epub Date: 2023-10-20 DOI:10.1097/HP.0000000000001760
Nooreldin Fadol, Ali Abdelrazig, Hajo Idriss, Yazeed Alashban, Nasser Shubayr
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引用次数: 0

摘要

文摘:本工作主要对部分花岗岩中的放射性元素40K、232Th、226Ra和非放射性元素进行分析,研究其对人类和非人类的健康风险。使用高纯度锗(HPGe)探测器评估放射性同位素活性,并计算各种放射性危害指数。我们还使用x射线荧光分析测量了一些非放射性元素,并进行了Pearson相关分析,以检查放射性核素和非放射性元素之间的关系。此外,我们使用ERICA软件来估计一些非人类生物群的每个生物体的总剂量率。226Ra、232Th和40K的平均值分别为25.13±5.22 Bq kg-1、29.01±6.95 Bq kg-1和323.07±97.83 Bq kg-1。因此,226Ra、232Th和40K放射性低于世界平均限值。226Ra、232Th和40K水平低于全球平均值。计算了危险辐射变量,发现平均吸收剂量为23.48±7.36 nGy h-1,年有效剂量率为29.82±10.46μSv y-1,镭当量活度为88.88±18.64 Bq kg-1。平均剂量和年有效剂量率低于60 nGy h-1的全球平均吸收剂量率和1.0 mSv y-1的ICRP标准。Ra当量活度的结果低于UNSCEAR提出的建筑材料Ra当量活度限值的最大推荐标准(370 Bq kg-1)。Pearson相关系数的检验表明226Ra和232Th之间存在显著的正相关,226Ra和40K之间存在适度的相关性。同时,226Ra和40K与非放射性成分之间没有关联。钍-232与Ti、Fe和Ni表现出适度的良好关系。所研究的非人类每个生物体的估计总剂量率小于环境剂量率。然而,小型穴居哺乳动物和爬行动物的总剂量率超过了背景暴露率。根据研究结果,花岗岩可以安全地用作建筑材料,不会对人类健康构成威胁。
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Natural Radioactivity of Granitic Rocks and Their Health Risk around Ingesana Mountains, Sudan.

Abstract: This work was carried out mainly to analyze radioactive elements 40 K, 232 Th, and 226 Ra and non-radioactive elements in some granitic rocks and study their health risk for humans and non-humans. Radioisotope activity was evaluated using a high-purity germanium (HPGe) detector, and various radiological hazard indices were calculated. We also measured some non-radioactive elements using x-ray fluorescence analysis and performed Pearson correlation analysis to examine the relationships between the radionuclides and the non-radioactive elements. Furthermore, we used the ERICA software to estimate the total dose rate per organism for some non-human biota. The means of 226 Ra, 232 Th, and 40 K are 25.13 ± 5.22 Bq kg -1 , 29.01 ± 6.95 Bq kg -1 , and 323.07 ± 97.83 Bq kg -1 , respectively. Hence, 226 Ra, 232 Th, and 40 K radioactivities were lower than the worldwide average limits. The 226 Ra, 232 Th, and 40 K levels were under the global average values. The hazardous radiometric variables were computed, and the findings observed that the mean absorbed dosage was 23.48 ± 7.36 nGy h -1 , the yearly effective dose rate was 29.82 ± 10.46 μSv y -1 , and the radium equivalent activity was 88.88 ± 18.64 Bq kg -1 . The average dose and yearly effective dose rates were lower than the global average absorbed dose rate of 60 nGy h -1 and the ICRP standard of 1.0 mSv y -1 . The results of Ra-equivalent activity were lower than the recommended maximum criterion for building materials limit of Ra-equivalent activity (370 Bq kg -1 ) proposed by UNSCEAR. Tests of Pearson correlation coefficients indicate a substantial positive relationship between 226 Ra and 232 Th and a modest correlation between 226 Ra and 40 K. Meanwhile, no association between 226 Ra and 40 K and non-radioactive components has been identified. Thorium-232 exhibits a moderately favorable connection with Ti, Fe, and Ni. The estimated total dose rate per organism for the studied non-human is less than the ambient dose rate. However, the total dose rate for small burrowing mammals and reptiles exceeds the background exposure rate. In accordance with the findings, granite rocks may be safe to use as construction materials and pose no threat to human health.

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来源期刊
Health physics
Health physics 医学-公共卫生、环境卫生与职业卫生
CiteScore
4.20
自引率
0.00%
发文量
324
审稿时长
3-8 weeks
期刊介绍: Health Physics, first published in 1958, provides the latest research to a wide variety of radiation safety professionals including health physicists, nuclear chemists, medical physicists, and radiation safety officers with interests in nuclear and radiation science. The Journal allows professionals in these and other disciplines in science and engineering to stay on the cutting edge of scientific and technological advances in the field of radiation safety. The Journal publishes original papers, technical notes, articles on advances in practical applications, editorials, and correspondence. Journal articles report on the latest findings in theoretical, practical, and applied disciplines of epidemiology and radiation effects, radiation biology and radiation science, radiation ecology, and related fields.
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