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Labradorite from Egypt

Egypt
 
  • Red Sea Governorate
El-Desoky, Hatem M., Ahmed M. Abdel-Rahman, Wael Fahmy, Ibrahim Khalifa, Salah A. Mohamed, Aref Shirazi, Ardeshir Hezarkhani, Adel Shirazy, and Amin Beiranvand Pour. (2023) "Ore Genesis of the Abu Ghalaga Ferro-Ilmenite Ore Associated with Neoproterozoic Massive-Type Gabbros, South-Eastern Desert of Egypt: Evidence from Texture and Mineral Chemistry" Minerals 13, no. 3: 307. https://doi.org/10.3390/min13030307
Mogahed, M. M. (2016). Petrogenesis of cogenetic silica-oversaturated and-undersaturated syenites of Abu Khruq ring complex, South Eastern Desert, Egypt. Journal of African Earth Sciences, 124, 44-62.
Landoll, J. D., Foland, K. A., Henderson, C. M. B. (1994) Nd isotopes demonstrate the role of contamination in the formation of coexisting quartz and nepheline syenites at the Abu Khruq Complex, Egypt. Contributions to Mineralogy and Petrology, 117 (3) 305-329 doi:10.1007/bf00310871
Lutz, T. M., Foland, K. A., Faul, H., & Srogi, L. (1988). The strontium and oxygen isotopic record of hydrothermal alteration of syenites from the Abu Khruq complex, Egypt. Contributions to Mineralogy and Petrology, 98(2), 212-223. doi.org/10.1007/BF00402113
Omar, G. I., Kohn, B. P., Lutz, T. M., & Faul, H. (1987). The cooling history of Silurian to Cretaceous alkaline ring complexes, south Eastern Desert, Egypt, as revealed by fission-track analysis. Earth and planetary science letters, 83(1-4), 94-108. doi.org/10.1016/0012-821X(87)90054-9
Soliman, M. M. (1987). The younger granites and ring complexes of the Southeastern Desert of Egypt and their relation to mineralization. Journal of African Earth Sciences (1983), 6(5), 745-754. doi.org/10.1016/0899-5362(87)90010-8
El-Ramly, M. F., & Hussein, A. A. (1982). The alkaline ring complexes of Egypt. Geol. Surv. Egypt, Paper, 63.
Serencsits, C. M., CM, S., KA, F., & El Ramly, M. F. (1979). Alkaline ring complexes in Egypt: their ages and relationship to tectonic development of the Red Sea. Annals of the Geological Survey of Egypt, 9, 102-116.
Gindy, A. R., AR, G., SO, K., EL RAMLY, M. F., & AI, A. (1978). Contributions to the petrochemistry and geochemistry of the alkaline rocks of Gabal Abu Khruq and Gabal El-Nuhud, South-Eastern Desert, Egypt. Chemie der Erde, 37, 285-301.
Meneisy, M. Y., & MY, M. (1974). POTASSIUM-ARGON AGES OF NEPHELINE SEYENITE RING COMPLEXES IN EGYPT. Geologisches Jahrbuch, Hannover, D9, 33-39.
El Ramly, M. F., Dereniuk, N. E., Budanov, V. I., Armanious, L. K., & Hayek, G. G. (1969). A petrological study on the central part of the Gabal Abu Khruq ring complex. Geol Surv Egypt, Paper, (51).
EL REEDY, M. W. (1985). Preliminary investigation on the distribution of uranium and thorium in some alkaline rocks of South Eastern Desert, Egypt. Annals of the Geological Survey of Egypt, 15, 115-121.
Serencsits, C. M., CM, S., KA, F., & El Ramly, M. F. (1979). Alkaline ring complexes in Egypt: their ages and relationship to tectonic development of the Red Sea. Annals of the Geological Survey of Egypt, 9, 102-116.
Hashad, A. H., AH, H., & EL REEDY, M. W. M. (1979). Geochronology of the anorogenic alkalic rocks South Eastern Desert, Egypt. Annals of the Geological Survey of Egypt, 9, 81-101.
El Ramly, M. F., Dereniuk, N. E., Budanov, V. I., Armanious, L. K., & Hayek, G. G. (1969). A petrological study on the central part of the Gabal Abu Khruq ring complex. Geol Surv Egypt, Paper, (51).
El Ramly, M.F., Budanov, V.I. & Hussein, A.A.A. 1971. The alkaline rocks of south-eastern Egypt. Geological Survey of Egypt, Paper, 53.
El-Dokouny, Hanaa A., Nasser M. Mahdy, Hany H. El Hadek, Mabrouk Sami, Rainer Abart, Mohamed S. Ahmed, Tehseen Zafar, and Ioan V. Sanislav. (2023) "Origin of Amphibole-Biotite-Fluorite-Rich Enclaves from Gabal El-Ineigi Fluorite-Bearing Granite, Central Eastern Desert of Egypt: Insights into Fluoride–Calcium and Silicate Liquid Immiscibility" Minerals 13, no. 5: 670. https://doi.org/10.3390/min13050670
 
Mineral and/or Locality  
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