{"title":"埃及东北部沙漠gabal um guruf地区碱性a型花岗岩及其伴生伟晶岩的岩石学、地球化学和放射性特征","authors":"A. Hamid","doi":"10.21608/egjg.2018.216390","DOIUrl":null,"url":null,"abstract":"The present study focuses on three granitic bodies from Gabal Um Guruf region in the North Eastern Desert of Egypt. They comprise Gabal El Resha fine-grained granite, Gabal Homret El Sawrhiya mediumgrained granite and Wadi El Misdar coarse-grained granite. They have nearly similar mineralogical compositions and could be classified as alkali feldspar granites. However, the presence and proportions of the accessory minerals show some variations among the three granitic bodies, causing observed changes in their trace element compositions. Geochemically, these granites exhibit pronounced A-type affinity and belong to the alkaline series. They have high concentrations of SiO2 and total alkalis, low abundances of CaO, MgO and TiO2 and enrichment in some HFSE (Zr, Y and U). The granitic bodies show similar REE patterns and spider diagrams with striking depletions in Ba, Sr, P, Eu, and Ti. The obtained geological, petrographical, and geochemical data of the studied granites suggest close genetic relationships and it is suggested that they were formed from single parent magma through its differentiation in post-orogenic environment. The radiometric investigation indicates that Gabal Homret Al Sawrhiya granite and its associated pegmatites have the highest levels of gamma-ray measurements in the study area. This granite shows similar mineralogical and geochemical features with U-bearing granite in Egypt. It is enriched in radioactive inclusions along with higher contents of zircon and fluorite, suggesting parallel enrichment of F and HFSE, which extending toward the associated highly evolved pegmatites. Additionally, it displays various forms of post-magmatic hydrothermal alterations, especially along faults and shear zones. One radioactive anomaly was recorded in a pegmatite body in Gabal Homret El Sawrhiya granite. The pegmatite hosts U-Th, Zr and REE showings along the contact between the host granite and the pegmatite.","PeriodicalId":282322,"journal":{"name":"Egyptian Journal of Geology","volume":"12 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2018-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"PETROGRAPHY, GEOCHEMISTRY AND RADIOACTIVITY OF ALKALINE A-TYPE GRANITES AND ASSOCIATED PEGMATITES FROM GABAL UM GURUF REGION, NORTH EASTERN DESERT, EGYPT\",\"authors\":\"A. Hamid\",\"doi\":\"10.21608/egjg.2018.216390\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The present study focuses on three granitic bodies from Gabal Um Guruf region in the North Eastern Desert of Egypt. They comprise Gabal El Resha fine-grained granite, Gabal Homret El Sawrhiya mediumgrained granite and Wadi El Misdar coarse-grained granite. They have nearly similar mineralogical compositions and could be classified as alkali feldspar granites. However, the presence and proportions of the accessory minerals show some variations among the three granitic bodies, causing observed changes in their trace element compositions. Geochemically, these granites exhibit pronounced A-type affinity and belong to the alkaline series. They have high concentrations of SiO2 and total alkalis, low abundances of CaO, MgO and TiO2 and enrichment in some HFSE (Zr, Y and U). The granitic bodies show similar REE patterns and spider diagrams with striking depletions in Ba, Sr, P, Eu, and Ti. The obtained geological, petrographical, and geochemical data of the studied granites suggest close genetic relationships and it is suggested that they were formed from single parent magma through its differentiation in post-orogenic environment. The radiometric investigation indicates that Gabal Homret Al Sawrhiya granite and its associated pegmatites have the highest levels of gamma-ray measurements in the study area. This granite shows similar mineralogical and geochemical features with U-bearing granite in Egypt. It is enriched in radioactive inclusions along with higher contents of zircon and fluorite, suggesting parallel enrichment of F and HFSE, which extending toward the associated highly evolved pegmatites. Additionally, it displays various forms of post-magmatic hydrothermal alterations, especially along faults and shear zones. One radioactive anomaly was recorded in a pegmatite body in Gabal Homret El Sawrhiya granite. 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引用次数: 1
摘要
本文对埃及东北部沙漠Gabal Um Guruf地区的3个花岗岩体进行了研究。它们包括Gabal El Resha细粒花岗岩、Gabal Homret El Sawrhiya中粒花岗岩和Wadi El Misdar粗粒花岗岩。它们具有相近的矿物组成,可归类为碱长石花岗岩。然而,副矿物的存在和比例在三个花岗岩体中表现出一定的差异,导致它们的微量元素组成发生了变化。地球化学特征表明,这些花岗岩具有明显的a型亲和性,属于碱性系列。它们具有高浓度的SiO2和总碱,低丰度的CaO、MgO和TiO2,且在某些HFSE (Zr、Y和U)中富集,具有相似的稀土元素模式和蜘蛛图,Ba、Sr、P、Eu和Ti的富集较为明显。所研究花岗岩的地质、岩石学和地球化学资料表明,它们的成因关系密切,可能是在造山后环境下由单母岩浆分异形成的。辐射测量表明,Gabal Homret Al Sawrhiya花岗岩及其伴生伟晶岩在研究区内具有最高的伽马射线测量水平。该花岗岩与埃及含铀花岗岩具有相似的矿物学和地球化学特征。富放射性包裹体,锆石和萤石含量较高,提示F和HFSE平行富集,并向伴生的高演化伟晶岩延伸。此外,它还表现出各种形式的岩浆后热液蚀变,特别是沿断层和剪切带。在Gabal Homret El Sawrhiya花岗岩的伟晶岩体中记录了一个放射性异常。伟晶岩中U-Th、Zr和REE沿寄主花岗岩与伟晶岩的接触方向呈现。
PETROGRAPHY, GEOCHEMISTRY AND RADIOACTIVITY OF ALKALINE A-TYPE GRANITES AND ASSOCIATED PEGMATITES FROM GABAL UM GURUF REGION, NORTH EASTERN DESERT, EGYPT
The present study focuses on three granitic bodies from Gabal Um Guruf region in the North Eastern Desert of Egypt. They comprise Gabal El Resha fine-grained granite, Gabal Homret El Sawrhiya mediumgrained granite and Wadi El Misdar coarse-grained granite. They have nearly similar mineralogical compositions and could be classified as alkali feldspar granites. However, the presence and proportions of the accessory minerals show some variations among the three granitic bodies, causing observed changes in their trace element compositions. Geochemically, these granites exhibit pronounced A-type affinity and belong to the alkaline series. They have high concentrations of SiO2 and total alkalis, low abundances of CaO, MgO and TiO2 and enrichment in some HFSE (Zr, Y and U). The granitic bodies show similar REE patterns and spider diagrams with striking depletions in Ba, Sr, P, Eu, and Ti. The obtained geological, petrographical, and geochemical data of the studied granites suggest close genetic relationships and it is suggested that they were formed from single parent magma through its differentiation in post-orogenic environment. The radiometric investigation indicates that Gabal Homret Al Sawrhiya granite and its associated pegmatites have the highest levels of gamma-ray measurements in the study area. This granite shows similar mineralogical and geochemical features with U-bearing granite in Egypt. It is enriched in radioactive inclusions along with higher contents of zircon and fluorite, suggesting parallel enrichment of F and HFSE, which extending toward the associated highly evolved pegmatites. Additionally, it displays various forms of post-magmatic hydrothermal alterations, especially along faults and shear zones. One radioactive anomaly was recorded in a pegmatite body in Gabal Homret El Sawrhiya granite. The pegmatite hosts U-Th, Zr and REE showings along the contact between the host granite and the pegmatite.