Open Chemistry (Mar 2022)

Petrology and geochemistry of multiphase post-granitic dikes: A case study from the Gabal Serbal area, Southwestern Sinai, Egypt

  • Kamar Mohamed S.,
  • Salem Ibrahim A.,
  • El-Aassy Ibrahim E.,
  • El-Sayed Abdu A.,
  • Awad Hamdy A.,
  • Tekin Huseyin Ozan,
  • Alzahrai Abdullah M.,
  • Lasheen El Saeed R.

DOI
https://doi.org/10.1515/chem-2022-0136
Journal volume & issue
Vol. 20, no. 1
pp. 169 – 181

Abstract

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Variable single and/or swarms of post-granitic dikes are widespread at Gabal Serbal, Southwestern Sinai, Egypt. The present article aims to identify and discriminate these multiphase dikes through detailed geological, petrographical, and geochemical examinations. These dikes are classified into two subphases: (1) acidic dikes (porphyritic dacite, microgranite, granophyre, and alkaline granophyre dikes); and (2) basic dikes (basalt and dolerite dikes). They range from vertical or steeply inclined bodies, 0.5–15 m wide, pink to black color, and NE–SW to N–S directions. Acidic dikes with different mineralogical constituents have medium to high k-characters, originating from calc-alkaline magma and extruded in a volcanic arc environment. In contrast, basic dikes have medium k-characters, originating from tholeiitic magma and developing within a plate environment. Basic dikes are enriched with opaque minerals, where the basaltic dike contains iron oxides (magnetite and hematite), such as apatite in addition to copper minerals. Dolerite dike comprises magnetite, titanomagnetite, and pyrite.

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