Mineralogy and chemical aspects of some ophiolitic metaultramafics, central Eastern Desert, Egypt: Evidences from chromites, sulphides and gangues

Chromites and sulphides are the most common ore minerals in the ophiolitic metasomatized ultramafics (~790 Ma) of Um Halham, Fawakhir and Barramiya, central Eastern Desert, Egypt. These ultramafics exhibit variable degrees of alteration and metasomatism and include massive serpentinites (serpentiniz...

Full description

Saved in:
Bibliographic Details
Published in:Geological journal (Chichester, England) England), 2018-03, Vol.53 (2), p.580-599
Main Authors: Abdel‐Karim, Abdel‐Aal M., El‐Shafei, Shaimaa A., P., Horváth
Format: Article
Language:English
Subjects:
Aluminum
Amphibolite facies
Amphibolites
Arsenopyrite
Calcite
Carbon dioxide
Carbonate minerals
Carbonate rocks
Carbonates
CED
Chlorite
Chromite
chromites
Chromium
Composition
Decarbonation
Desert environments
Deserts
Dolomite
Dolostone
Egypt
Fluids
Gangue
gangues
Gold
Heavy metals
Identification
Leaching
Magnesite
Magnesium carbonate
Magnetite
Melts
Metals
Metamorphism
Metamorphism (geology)
metaultramafics
mineral chemistry
Mineralogy
Minerals
Nickel ores
Pentlandite
Peridotite
petrography
Pyrite
Rock
Rocks
Subduction
Sulfides
Sulphide minerals
Sulphides
Talc
Tremolite
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Chromites and sulphides are the most common ore minerals in the ophiolitic metasomatized ultramafics (~790 Ma) of Um Halham, Fawakhir and Barramiya, central Eastern Desert, Egypt. These ultramafics exhibit variable degrees of alteration and metasomatism and include massive serpentinites (serpentinized peridotite and serpentinite), tremolite‐talc rocks, talc‐carbonate rocks, listwaenite‐like rocks and typical listwaenite. The alteration of chromite to Cr‐magnetite was accompanied by the formation of chloritic aureoles due to the release of Al and Mg from chromite. Textural and compositional features of the chromites suggest a greenschist up to lower amphibolite facies metamorphism (at 500–600 °C), which is facial with the host ultramafics. The chromites exhibit a boninitic affinity and a forearc suprasubduction setting of the present ophiolite assemblages. The variability of chromite chemistry indicates a melt‐rock reaction, together with the water‐bearing melt which is necessary for crystallizing chromite. Pentlandite, pyrrhotite, arsenopyrite, gersdorffite and pyrite are the most common sulphide minerals. Gold occurs either as an invisible phase associated with gersdorffite, arsenopyrite, and As‐rich pyrite or as native nuggets in listwaenites of Barramiya area. Gangue metasomatized phases associated with these ore minerals are identified as sericite, carbonate and chlorite. The investigated sericite ranges in composition from mariposite (>0.5% Cr) to fuchsite (>1% Cr), which indicates typical listwaenites. Five varieties of carbonate minerals are identified; magnesite, breunnerite, dolomite, calcite and ankerite. The CO2‐rich fluids are released during progressive decarbonation reactions in carbonate‐bearing metasediments, whereas Ni and As‐rich fluids are attributed to nearby granitic intrusions affected on serpentinites and leached Ni and precious metals like gold forming As‐Ni‐rich fluids. These metasomatic fluids are thought to reflect a range of melts derived from a compositionally evolving source during subduction initiation in a forearc environment.
ISSN:0072-1050
1099-1034
DOI:10.1002/gj.2914