Lithostratigraphy, petrography, and geochemistry of the Eocene–Oligocene rock succession, Wadi Arhab area, North Eastern Desert, Egypt

IF 1.1 4区 地球科学 Q3 GEOLOGY
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引用次数: 0

Abstract

The present study recorded for the first time, an occurrence of Oligocene basaltic plugs in Beni-Suef Governorate, Egypt. In addition, Egyptian alabaster was discovered in the study area, further the well-known ancient area around the Cavern of Wadi Sannur. In this work, the lithostratigraphy, structure, petrography, and geochemistry including TGA and DSC were studied. In addition, the thermal effect of the basaltic magma on the Eocene carbonates that covered most of the area, caused the formation of the Egyptian alabaster in the region. The Eocene succession represents different stages in age (late Middle–Late Eocene). Their outcrops are disconformably overlain by the basaltic plugs extruded along the NW–SE fault trend which is parallel to the Red Sea graben which was formed in the Oligo–Miocene Period. Petrographically, the Eocene rocks show ten microfacies types indicating that deposition of Eocene carbonates in the subtidal shallow marine environment except for microfacies of the Egyptian alabaster shows that the precipitation is related to the basaltic thermal effect and related hydrothermal waters within open cavities or karstic systems in the Eocene carbonate. The chemical analysis showed that SiO2, Al2O3, MgO, Fe2O3, and CaO are of high content as major oxides, while Sr and Ba are of high content in the basaltic plugs as trace elements. TG analysis shows that basaltic rocks in the present study are suitable for conserving high-temperature thermal energy because they do not exhibit any thermal events when exposed to thermal influences by DSC between 30 °C and 1000 °C. Unlike both Egyptian alabaster and recrystallized limestone which are not suitable for maintaining high temperatures between 695 °C and 965 °C and decompose into CaO and CO2 due to the decarbonization of the calcite mineral.

埃及东北部沙漠 Wadi Arhab 地区始新世-更新世岩石演替的岩层学、岩相学和地球化学
摘要 本研究首次记录了埃及贝尼苏伊夫省出现的渐新世玄武岩塞。此外,在研究区域还发现了埃及雪花石膏,进一步证实了 Wadi Sannur 洞穴周围的著名古代地区。在这项工作中,对岩石地层学、结构、岩相学和地球化学(包括 TGA 和 DSC)进行了研究。此外,玄武岩浆对覆盖该地区大部分区域的始新世碳酸盐的热效应导致了该地区埃及石膏的形成。始新世演替代表了不同的年龄阶段(中-晚始新世)。它们的露头被沿西北-东南断层走向挤压出的玄武岩块错叠,该断层走向与红海地堑平行,红海地堑形成于渐新世-中新世时期。从岩相学上看,始新世岩石显示出 10 种微岩相类型,表明始新世碳酸盐岩沉积在潮下浅海环境中,但埃及石膏岩的微岩相除外,表明其沉淀与始新世碳酸盐岩中空洞或岩溶系统内的玄武岩热效应和相关热液有关。化学分析显示,主要氧化物 SiO2、Al2O3、MgO、Fe2O3 和 CaO 含量较高,而微量元素 Sr 和 Ba 在玄武岩塞中含量较高。TG 分析表明,本研究中的玄武岩适用于保存高温热能,因为当它们受到 30 °C 至 1000 °C 的 DSC 热影响时,不会出现任何热事件。埃及石膏和重结晶石灰石则不同,它们不适合在 695 ℃ 至 965 ℃ 之间保持高温,而且会因方解石矿物的脱碳作用而分解成 CaO 和 CO2。
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来源期刊
Carbonates and Evaporites
Carbonates and Evaporites 地学-地质学
CiteScore
2.80
自引率
14.30%
发文量
70
审稿时长
3 months
期刊介绍: Established in 1979, the international journal Carbonates and Evaporites provides a forum for the exchange of concepts, research and applications on all aspects of carbonate and evaporite geology. This includes the origin and stratigraphy of carbonate and evaporite rocks and issues unique to these rock types: weathering phenomena, notably karst; engineering and environmental issues; mining and minerals extraction; and caves and permeability. The journal publishes current information in the form of original peer-reviewed articles, invited papers, and reports from meetings, editorials, and book and software reviews. The target audience includes professional geologists, hydrogeologists, engineers, geochemists, and other researchers, libraries, and educational centers.
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