铀矿化的Th/U、Th/K和U/K比值的成因意义：埃及东部沙漠El Missikat和El Erediya剪切带的一个案例研究。

IF 0.9 4区地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS

Geochemical Transactions Pub Date : 2023-10-17 DOI:10.1186/s12932-023-00083-3

Mahmoud Abdel-Hakeem, Mohamed El-Tahir, Ehab Abu Zeid, Hassan Rageh

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引用次数: 0

摘要

目前的工作试图揭示放射性测量的可能利用，以建立岩浆、热液和浅生铀矿化的完整成因场景。为此，通过垂直于埃及中东沙漠El Missikat和El Erediya剪切带挖掘的勘探隧道进行了地面伽马射线测量。测量了寄主粉红色花岗岩的U、Th和K含量（例如，平均15.94 U ppm、35.62 Th ppm和6.63%K）、蚀变带（角砾岩化、硅化、云灰岩化、高岭土化和赤铁矿化）（例如平均124.01 U ppm、63.67 Th ppm、3.13%K）和矿化硅石脉（例如平均312.65 U ppm、92.22 Th ppm，和2.62%K）。所有这些数据都以Th与U、Th/U与U、Th/K和U/K与Th/K的相关图的形式表示。总体结果表明El Missikat和El Erediya U矿化的岩浆、热液和表生来源。岩浆衍生的铀含量主要包裹在粉红色花岗岩中，其主要特征是正常的Th/U（2.5-5）和Th/K比率（3-5*10-4）。通过蚀变带和矿化硅石脉的热液过程反映在Th与U的弱相关性上（例如 = 0.13和-0.39），Th/U比值与U呈强负相关（如r = -0.82），2.5 Th/U 0.1，Th/K 5*10-4，Th/K -4，以及U/K与Th/K的强正相关（例如r = 0.91），以及钍石、铌石、捕虏体和热液锆石的产状（0.5 > Th/U ≤ 0.1）。之后，热液矿化经历了一定程度的化学风化，导致浅生铀矿化，其指纹可以通过次生铀矿物（如钙石和铀云母）的出现来追踪，Th/U比率 ≤ 0.1，以及Th/K和U/K之间的弱相关性（例如r = 0.39和-0.11）。

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Genetic implications of Th/U, Th/K, and U/K ratios for U mineralizations: A case study from El-Missikat and El-Erediya shear zones, Eastern Desert, Egypt

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Genetic implications of Th/U, Th/K, and U/K ratios for U mineralizations: A case study from El-Missikat and El-Erediya shear zones, Eastern Desert, Egypt

The current work is an attempt to reveal the possible utilization of the radiometric measurements to build-up a complete genetic scenario for magmatic, hydrothermal, and supergene uranium mineralization. For this purpose, ground gamma-ray survey was performed through the exploratory tunnels dug perpendicular to El-Missikat and El-Erediya shear zones, the Central Eastern Desert of Egypt. Contents of U, Th, and K were measured for the host pink granite (e.g., avg.15.94 U ppm, 35.62 Th ppm, and 6.63% K), alteration zones (brecciation, silicification, greisenization, kaolinization and hematitization) (e.g., avg. 124.01 U ppm, 63.67 Th ppm, and 3.13% K), and mineralized silica veins (e.g., avg. 312.65 U ppm, 92.22 Th ppm, and 2.62% K). All of these data were graphically represented as correlation plots of Th vs. U, Th/U vs. U, Th vs. K, and U/K vs. Th/K. The overall results indicate magmatic, hydrothermal, and supergene sources of El-Missikat and El-Erediya U mineralization. The magma-derived U contents are enclosed mainly in the pink granite that is mostly characterized by normal Th/U (2.5–5) and Th/K ratios (3–5*10^–4). The hydrothermal processes through the alteration zones and mineralized silica veins are reflected by the weak correlation of Th with U (e.g. r = 0.13 and − 0.39), the strong negative correlation of Th/U ratio with U (e.g. r = − 0.82), 2.5˃Th/U˃0.1, Th/K˃5*10^–4, Th/K < 3*10^–4, and the strong positive correlation of U/K with Th/K (e.g. r = 0.91) as well as the occurrence of thorite, columbite, xenotime and hydrothermal zircon (0.5 > Th/U ≤ 0.1). Afterwards, the hydrothermal mineralization underwent some degrees of chemical weathering that resulted in supergene U mineralization whose fingerprints can be traced by the occurrence of secondary U minerals (e.g. kasolite and uranophane), Th/U ratios ≤ 0.1, and the weak correlation between Th/K and U/K (e.g. r = 0.39 and − 0.11).

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来源期刊

Geochemical Transactions 地学-地球化学与地球物理

CiteScore

3.70

自引率

4.30%

发文量

审稿时长

>12 weeks

期刊介绍： Geochemical Transactions publishes high-quality research in all areas of chemistry as it relates to materials and processes occurring in terrestrial and extraterrestrial systems.