埃及中东部沙漠kadabora花岗质岩体中含稀土伟晶岩的地球化学贡献

El Afandy, El Shaib
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引用次数: 0

摘要

在Kadabora花岗岩中发现了伟晶岩体,它们在空间上和遗传上都与之相关。这些物体含有稀土,稀土,稀土,稀土,稀土,稀土,稀土,稀土,稀土,稀土,稀土,稀土,稀土和稀土。矿化伟晶岩中ΣREEs含量高,范围为3404 ~ 15196 ppm,平均为7516ppm。矿化伟晶岩中的副矿物组合为锆石、褐长石、褐长石、铀长石、betafite、samarskite、焦绿石、氟碳铈矿、铈矿、金红石、euxenite和不透明岩。每一种矿物质都含有一定的微量元素;锆石(Zr, Hf, Th);fergusonite (U, Th, Zr);稀土(Th, U);betafite (U, Nb, Ta);samarskite (Nb, Ta, U);焦绿石(Nb, Ta);氟碳铈矿(REEs);铈矿(Ce, Th, Nb, Ta, Zr)和金红石(Ti)。矿化伟晶岩中稀土元素的分布模式反映了这些矿物作为稀土元素的富集体的作用,如钡长石、钡长石和铈长石以低稀土元素为主,而锆石、丙烯长石和绿镁长石以低稀土元素为主。稀土元素模式的特点是稀土元素相对于低稀土元素富集,具有凸四分体效应和明显的负Eu异常。这种模式反映了与自强热液相互作用有关的高度分化的岩石。母岩浆经历了广泛的岩浆分异,与水热液同生相互作用相结合,形成了稀土元素分布的四分体效应,形成了高矿化伟晶岩。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
GEOCHEMICAL CONTRIBUTIONS OF REE'S BEARING PEGMATITES, WITHIN KADABORA GRANITIC PLUTON, CENTRAL EASTERN DESERT, EGYPT
Pegmatitic bodies are encountered within the Kadabora granite to which they are spatially and genetically related. These bodies bearing REEs, U, Th, Y, Zr, Hf, Nb, Ta, and Cs. The mineralized pegmatites are characterized by high ΣREEs contents ranging from 3404 ppm to 15196 with an average of 7516ppm. The assemblage of the accessory minerals encountered in the mineralized pegmatites are zircon, allanite, fergusonite, uranothorite, betafite, samarskite, pyrochlore, bastnaesite, cerianite, rutile, euxenite and opaques. Each of these minerals is bearing certain trace elements ; zircon (Zr, Hf , Th); fergusonite (U, Th, Zr); uranothorite (Th, U); betafite (U, Nb, Ta); samarskite (Nb, Ta, U); pyrochlore (Nb, Ta); bastnaesite (REEs); cerianite (Ce, Th, Nb, Ta, Zr) and rutile (Ti). The REEs distribution pattern in the mineralized pegmatites reflects the role of these minerals as REEs accumulators e. g. betafite, bastnaesite and cerianite host LREEs while zircon, allanite and samarskite host HREEs. The REEs pattern is characterized by HREEs enrichment relative to LREEs with convex tetrad effect and a sharp negative Eu anomaly. This well demonstrated pattern reflects highly differentiated rocks associated with self strong hydrothermal interaction. It seems that parent magma has undergone extensive magmatic differentiation, during associated with syngenetic interaction of aqueous hydrothermal fluids resulted in the tetrad effect of REEs distribution forming highly mineralized pegmatites.
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