单斜花岗岩的热液蚀变过程:埃及东部沙漠的案例研究:遥感、地球化学和矿物学的影响。

IF 0.9 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS
Amira M. El Tohamy
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引用次数: 0

摘要

埃及东南部沙漠(SED)是埃及最有潜力的地区之一;该地区因稀土元素(REEs)和含铀矿石而被广泛勘探。它是阿拉伯-努比亚地盾(ANS)的主要部分。因此,本研究关注的 Sikait-Nugrus 地区是该地区最富饶的矿区之一。本研究对单斜花岗岩进行了详细的地质、结构和矿物学调查,以描述各种蚀变类型和序列并确定其特征。为此,应用了遥感、地球化学和岩石学技术。遥感技术有助于绘制研究区域的详细地质图,以严格跟踪 Sikait-Nugrus 地区的蚀变带。从岩相学上看,研究区主要是花岗岩,它们被描述为轻微蚀变和高度蚀变的单斜花岗岩。轻微蚀变的花岗岩主要由石英(约 20-35%)、碱长石(约 25-30%)、斜长石(约 25-30%)和云母(约 5-15%)组成,而附属矿物则以锆石和独居石为代表。另一方面,该花岗岩靠近剪切带的部分发生了强烈蚀变,主要蚀变过程为绢云母化。这部分剪切岩的特征是含有乌兰托石、阳起石、萤石和铌矿物(异川岩)等附属矿物。从矿物学角度来看,蚀变的独居岩主要由以下矿物组构成:(1)放射性矿物铀硅酸盐(索迪岩、乌拉诺芬岩和卡索岩)和钍矿物(钍岩和铀钍岩),(2)铌钽矿物(betafite、plumbobetafite、columbite、fergusonite 和 aeschynite),(3)稀土元素矿物(monazite、chereralite 和 xenotime),(4)附属矿物锆石和萤石。从地球化学角度看,高度蚀变样品记录的 REEs 四元效应(M 型)模式表明,这些花岗岩受到热液蚀变晚期和有效富水蚀变过程的高度演化和影响,并与强烈的物理化学变化相关联。高度蚀变和轻度蚀变样品的总 REE 浓度分别为 241.8 和 249.75 ppm。根据等值线技术(22.95 和 11.11)和体积变化(1.8 和 7.99)分析,高度蚀变和轻度蚀变样品的质量变化(MC)和体积变化(VC)明显。质量平衡计算和等值线图显示,由于热液蚀变过程的影响,一些主要氧化物从轻微蚀变的独居岩中剥离,并随着蚀变强度的增加而转变为高度蚀变的独居岩。所研究的区域是一片处女地,尚未对该区域进行过详细研究。该研究可扩展到阿拉伯-努比亚地盾的其他地区,包括埃及、苏丹、沙特阿拉伯和也门的红海周边地区。应用的技术工作流程也可扩展到其他各地的地表类比区域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydrothermal alteration processes in monzogranite: a case study from the Eastern Desert of Egypt: implications from remote sensing, geochemistry and mineralogy

The South Eastern Desert (SED) of Egypt is one of the most promising areas in Egypt; it is widely explored for exploring the rare earth elements (REEs) and uranium-bearing ores. It is a main part of the Arabian-Nubian Shield (ANS). Therefore, the present study concerns with Sikait-Nugrus area as one of the most prolific sites in this region. The study provides a detailed geological, structural, and mineralogical investigation of the monzogranites to describe and characterize the various alteration types and sequence. For this purpose, remote sensing, geochemical and petrographical techniques were applied. The remote sensing technique helped in constructing a detailed geologic map of the study area to follow up strictly the alteration zone of the Sikait-Nugrus area. Petrographically, the granites predominates in the study area, they are described as slightly and highly altered monzogranites. The slightly altered one is composed mainly of quartz (~ 20–35%), alkali feldspar (~ 25–30%), plagioclase (~ 25–30%), and mica (~ 5–15%), while accessory minerals are represented by zircon and monazite. On the other hand, the portion of this granite close to the shearing zone is intensively altered and characterized by sericitization as the main alteration processes. This sheared portion is characterized by accessory minerals as, uranothorite, allanite, fluorite and Nb-minerals (ishikawaite). Minerlogically, the altered monzogranites are predominated by the following mineral groups: (1) radioactive minerals as uranyl silicates (soddyite, uranophane and kasolite), and thorium minerals (thorite and uranothorite), (2) Nb–Ta minerals (betafite, plumbobetafite, columbite, fergusonite, and aeschynite), (3) REE minerals (monazite, cheralite and xenotime), and (4) zircon and fluorite as accessory minerals. Geochemically, the recorded pattern of the REEs tetrad effect (M-type) for the highly altered samples indicate that these granites are highly evolved and affected by late stage of hydrothermal alteration and the effective water-rich alteration processes that connected to intensive physico-chemical changes. The total REE concentrations equal 241.8 and 249.75 ppm for the highly and slightly altered samples. A significant mass change (MC) was analyzed by the isocon technique (22.95 & 11.11) and volume change (VC) (1.8 &-7.99) for the highly and slightly altered samples, respectively. The mass balance calculations and the isocon diagrams revealed that some major oxides were removed from the slightly altered monzogranites and transformed later into highly altered monzogranites with increasing the alteration intensity due to the impacts of hydrothermal alteration processes. The studied area is virgin, where no detailed studies have been applied to this region. It is extendable to other parts of the Arabian-Nubian Shield in around the Red Sea in Egypt, Sudan, Saudi Arabia and Yemen. The applied technical workflow is also extendible to other surface analogues everywhere.

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来源期刊
Geochemical Transactions
Geochemical Transactions 地学-地球化学与地球物理
CiteScore
3.70
自引率
4.30%
发文量
2
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.
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