Petrology, geochemistry, radioactivity, and M–W type rare earth element tetrads of El Sela altered granites, south eastern desert, Egypt

Petrology, geochemistry, radioactivity, and M–W type rare earth element tetrads of El Sela altered granites, south eastern desert, Egypt

The southern part of the Eastern Desert of Egypt—about 30 km southwest of Abu-Ramad city—is mainly covered by ophiolitic rocks (Sul Hamed), island arc assemblage, younger granites (muscovite granites of Qash Amer and two mica granites of El Sela), and various acidic and basic dikes. Field, petrologi...

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Bibliographic Details
Published in:Acta geochimica Vol. 38; no. 1; pp. 95 - 119
Main Authors: El Mezayen, A. M., Heikal, M. A., El-Feky, M. G., Shahin, H. A., Abu Zeid, I. K., Lasheen, S. R.
Format: Journal Article
Language:English
Published: Heidelberg Science Press 01-02-2019
Springer Nature B.V
Subjects:
Bearing
Deserts
Dikes
Earth
Earth and Environmental Science
Earth Sciences
Embankments
Geochemistry
Granite
Haematite
Hematite
Hydrothermal alteration
Island arcs
Isotopes
Jarosite
Magma
Manganese
Mica
Mineralization
Muscovite
Ophiolites
Original Article
Petrology
Pyrite
Pyrolusite
Radioactivity
Rare earth elements
Rock
Rocks
Shear zone
Silver
Tetrads
Trace elements
Uranium
Xenotime
Zircon
Zirconium
Egypt
Geochemistry
Radiometric measurements
REE-tetrad effect
Radioactive minerals
El Sela
Qash Amer
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Summary:The southern part of the Eastern Desert of Egypt—about 30 km southwest of Abu-Ramad city—is mainly covered by ophiolitic rocks (Sul Hamed), island arc assemblage, younger granites (muscovite granites of Qash Amer and two mica granites of El Sela), and various acidic and basic dikes. Field, petrological, and geochemical studies indicate that the El Sela shear zone has been subject to hydrothermal and supergene alteration such as kaolinization, albitization, sericitization, and hematitization. It is invaded by quartz ENE–WSW veins associated with hydrothermal alteration accompanied by radioactive mineralization. The investigated younger granitic rocks had very low contents of compatible elements, such as Cr, Ni, and Co; and high contents of incompatible elements, such as Zr, and large ion lithophiles, such as Sr, especially in the El Sela shear zone. Major oxide and trace element analyses revealed calc-alkaline affinity and peraluminous character. These highly differentiated granitic rocks’ lower Zr/Hf and higher Y/Ho than the normal ratio are consistent with hydrothermal alteration. Most samples had rare earth element (REE)-patterns with an M-type tetrad effect in the first and fourth segments and a W-type tetrad in the third segment. The average ∑REE in the studied granites was lower than the world granite average; the ratio of light to heavy REEs greater. The main radioactive, uranium-bearing, and uraniferous Fe and Mn minerals are uranothorite, autunite, uranophane and autunite as compounds, kasolite, columbite, xenotime, uranophane-bearing zircon and jarosite, silver-bearing pyrite, hematite, and autunite-bearing pyrolusite.
ISSN:2096-0956
2365-7499
DOI:10.1007/s11631-018-0274-7