Abstract
The present work presents new field observations on the geological characteristics of the Neoproterozoic ophiolites of the Central Eastern Desert (CED) of Egypt. Based on mode of occurrences, the investigated ophiolites appear to show characteristics of both MORB-type and SSZ-type ophiolites and classified from oldest to youngest into: (1) MORB intact ophiolites (MIO), (2) dismembered ophiolites (DO), and (3) arc-associated ophiolites (AAO). Ophiolite components include serpentinized peridotite and other metamorphosed ultramafics, metagabbros, sheeted dykes, pillowed and massive metabasalts, minor boninites, and pelagic sediments. The rocks of the MIO and DO were subjected to two main phases of deformation (D1 and D2) and metamorphism, whereas the AAO have been affected only by later phase of deformation (D2). Compositional variation of chrome spinel in blocks of metamorphosed ultramafic and serpentinite of dismembered ophiolites shows three distinct groups (G1, G2, and G3) based on their Cr#. Whereas G1 is similar to abyssal peridotites, G2 and G3 display mainly supra-subduction zone (SSZ) tectonic setting. The ophiolitic metagabbros display both N-MORB and supra-subduction zone tectonic setting (SSZ). The basaltic rocks of the MORB-intact ophiolites (MIO) and blocks of metabasalts in the mélanges display N-MORB affinity, whereas the basaltic rocks associated with arc volcanics display SSZ tectonic setting. Collectively, the investigated ophiolites of the Central Eastern Desert (CED) fall into two groups, MORB or BABB and SSZ ophiolites. They are spatially and temporally unrelated, and thus, it seems likely that the two types are not petrogenetically related. Ophiolites occur in different geological settings, and they represent change of the tectonic setting of the ophiolites from MORB to SSZ with time.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abd El-Rahman Y, Polat A, Dilek Y, Fryer BJ, El-Sharkawy M, Sakran S (2009a) Geochemistry and tectonic evolution of the Neoproterozoic incipient arc-fore arc crust in the Fawakhir area, central Eastern Desert, Egypt. Precambrian Res 175:116–134
Abd El-Rahman Y, Polat A, Dilek Y, Fryer BJ, El-Sharkawy M, Sakran S (2009b) Geochemistry and tectonic evolution of the Neoproterozoic Wadi Ghadir ophiolite, Eastern Desert, Egypt. Lithos 113:158–178
Abd El-Rahman Y, Polat A, Dilek Y, Kusky TM, El-Sharkawy M, Said A (2012) Cryogenian ophiolite tectonics and metallogeny of the central Eastern Desert of Egypt. Int Geol Rev 54:1870–1884
Abdeen MM, Greiling RO (2005) A quantitative structural study of Late Pan-African compressional deformation in the central Eastern Desert (Egypt) during Gondwana assembly. Gondwana Res 8:457–471
Abdelsalam MG, Stern RJ (1996) Sutures and shear zones in the Arabian-Nubian shield. J Afr Earth Sci 23:289–310
Abu El Ela AM (1987) Chemistry of pillow lava from Wadi Beririq, Wadi Mubarak district, central eastern desert, Egypt and its tectonic significance. Delta Journal of Science 11:803–830
Abu El Ela AM, Aly SM (1990) The ophiolite suite of Wadi Esel, Eastern Desert, Egypt. Proceedings of the Egyptian academy of Science 40:27–39
Abu El Ela AM, El Bahariya GA, Abu Anbar MM, Masoud EL (2013) Geology and tectonic evolution of Neoproterozoic rocks around Wadi Garf, Eastern Desert, Egypt: emphasis on the petrochemistry of volcano-sedimentary association. Egypt J Geol 57:209–231
Ahmed AH, Arai S, Attaia AK (2001) Petrological characteristics of the Pan African podiform chromatite and associated peridotites of the Proterozoic ophiolite complexes, Egypt. Mineralium Deposita 36:72–84
Ahmed AH, Hanghøj K, Kelemen PB, Hart SR, Arai S (2006) Osmium isotope systematics of the Proterozoic and Phanerozoic ophiolitic chromitites: in situ ion probe analysis of primary Os-rich PGM. Earth Planet Sci Lett 245:777–791
Akaad MK (1997) On the behavior of serpentinites and its implications. Geological Survey of Egypt 74:95
Akaad MK, Abu El Ela AM (1996) Geology and petrochemistry of the Muweilih submarine metabasalts, Qift-Quseir region, Eastern Desert, Egypt. Egypt J Geol 40(1):321–349
Akaad MK, Abu El Ela AM (2002) Geology of the basement rocks in the eastern half of the belt between latitudes 25o 30/ and 26o 30/ N, central eastern desert, Egypt. The Geological Survey of Egypt 78:1–118
Akaad MK, Noweir AM (1972) Some aspects of the serpentinites and their associated derivatives along Qift-Quesir road, Eastern Desert. Ann Geol Surv Egypt II:251–270
Akaad MK, Noweir AM (1980) Geology and lithostratigraphy of the Arabian Desert orogenic belt between Latudes 25° 35′ and 26° 30' N. Sym. On “Evolution and mineralization of Arabian-Nubian Shield”. Applied Geology, Jeddah Bulletin 3:127–135
Akaad MK, Abu El Ela AM, El Kamshoshy HI (1993) Geology of the region west of Mersa Alam, Eastern Desert, Egypt. Annals of the Geological Survey of Egypt 24:1–18
Akaad, M.K., Noweir, A.M., Abu El Ela, A.M., El Bahariya, G.A., 1996a. The Muweilih Conglomerate: Qift-Quseir road region, and the problem of the Atud Formation. Proceedings of Geological Survey, Egypt, Cenn. Conference 23–45
Akaad MK, Noweir AM, Abu El Ela AM (1996b) Geology of the Pan-African basement rocks of the Gabal al Hadid-Wadi Mubarak District, eastern desert, Egypt. Ann Geol Surv Egypt 73:1–78
Akaad MK, Noweir AM, Abu Ela AM, El Bahariya GA (1997) The Um Esh olistostromal mélange, Qift-Quseir region, central Eastern Desert, Egypt. Egypt J Geol 41:465–494
Ali KA, Stern RJ, Manton WI, Kimura J-I, Khamis HA (2009) Geochemistry Nd isotopes and U-Pb SHRIMP zircon dating of Neoproterozoic volcanic rocks from the central Eastern Desert of Egypt: new insight into the ∼750 Ma crust-forming event. Precambrian Res 171:1–22
Ali KA, Stern RJ, Manton WI, Johnson PR, Mukherjee SK (2010) Neoproterozoic diamictite in the Eastern Desert of Egypt and northern Saudi Arabia: evidence of ∼750 ma glaciations in the Arabian-Nubian shield. Int J Earth Sci 99:705–726
Al-Shanti A M S, Mitchell A H G., 1976. Late Precambrian subduction and collision in the Al Amar-Idsas region, Arabian Shield, Kingdom of Saudi Arabia. Tectonophysics 41–47
Andresen A, Abu El-Rus MA, Myhre PI, Boghdady GY, Coru F (2009) U-Pb TIMS age constraints on the evolution of the Neoproterozoic Meatiq gneiss dome. Eastern Desert, Egypt: International Journal of Earth Science 98:481–497
Arai S (1994) Compositional variation of olivine-chromian spinel in Mg rich magmas as a guide to their residual spinel peridotites. J Volcanol Geotherm Res 59:279–294
Azer MK (2014) Petrological studies of Neoproterozoic serpentinized ultramafics of the Nubian shield: spinel compositions as evidence of the tectonic evolution of Egyptian ophiolites. Acta Geol Pol 64(1):113–127
Azer MK, Stern RJ (2007) Neoproterozoic (835–720 Ma) serpentinites in the Eastern Desert, Egypt: fragments of fore arc mantle. J Geol 115:457–472
Bailey EH, Irvin WP, Jones DL (1964) Franciscan and related rocks and their significance in the geology of western California. California Division of Mines and Geology Bulletin 183:177
Bakor AR, Gass IG, Neary CR (1976) Jabal al Wask, Northwest Saudi Arabia: an Eocambrian back-arc ophiolite. Earth Planet Sci Lett 30:1–9
Barnes I, O'Neil JR (1969) The relationship between fluids in some fresh Alpine-type ultramafics and possible modern serpentization, western United States. Geol Soc Am Bull 80:1960–1974
Barnes I, O'Nell JR, Rapp JB, White DE (1973) Silica-carbonate alteration of serpentine: wall rock alteration in mercury deposits of the California coast ranges. Econ Geol 68:388–398
Basta FF, Maurice AE, Bakhit BR, Ali KA, Manton WI (2011) Neoproterozoic contaminated MORB of Wadi Ghadir ophiolite, NE Africa: geochemical and Nd and Sr isotopic constraints. J Afr Earth Sci 59:227–242
Beccaluva L, Ohnenstetter D, Ohnenstetter M, Paupy A (1984) Two magmatic series with island arc affinities within the Vourinos ophiolite. Contrib Mineral Petrol 85(3):253–271
Bloomer, S.H., Taylor, B., Macleod, C.J., Stern, R.J., Fryer, P., Hawkins, J.W., Johnson, L., 1995. Early arc volcanism and the ophiolite problem: a perspective from drilling in the western Pacific, In Taylor, B., and Natland, J., eds., Active margins and marginal basins of the western pacific: geophysical monograph, American Geophysical Union 88, p. 1–30
Bonatti E, Michael PJ (1989) Mantle peridotites from continental rifts to ocean basins to subduction zones. Earth Planet Sci Lett 91:297–311
Bortolotti V, Marroni M, Pandolfi L, Principi G, Saccani E (2002) Interaction between mid-ocean ridge and subduction magmatism in Albanian ophiolites. J Geol 110:561–576
Coleman RG (1984) The diversity of ophiolites. Geol Mijnb 63:141–150
Dick HJB, Bullen T (1984) Chromian spinel as a petrogenetic indicator in abyssal and alpine-type peridotites and spatially associated lavas. Contrib Mineral Petrol 86:54–76
Dilek, Y., Ahmed, Z., 2003. Proterozoic ophiolites of the Arabian shield and their significance in Precambrian tectonics. In Dilek, Y & Robinson, P.T. (eds) Ophiolites in Earth History. Geol Soc Lond, Spec Publ 218, 685–700
Dilek Y, Furnes H (2011) Ophiolite genesis and global tectonics: geochemical and tectonic fingerprinting of ancient oceanic lithosphere. Geol Soc Am Bull 123:387–411
Dilek Y, Furnes H (2014) Ophiolites and their origins. Elements 10:93–100
Dilek, Y., Robinson, P.T., 2003. Ophiolites in earth history: introduction. In: Dilek, Y., Robinson, P.T. (Eds.), Geological society, London Special Publications 218, 1–8
Dilek Y, Thy P (2009) Island arc tholeiite to boninitic melt evolution of the cretaceous Kizildag (Turkey) ophiolite: model for multi-stage early arc–forearc magmatism in Tethyan subduction factories. Lithos 113(1–2):68–87
Dilek, Y., Moores, E.M., Elthon, D., Nicolas, A., 2000. Ophiolites and oceanic crust: new insights from Field Stud and the Ocean Drilling Program Geological Society of America Special Paper 349. Boulder, CO, USA p552
El Bahariya, G.A., 1988. Geology of the district southwest of Gabal El Sibai, easterndesert, Egypt. Unpublished M Sc. Thesis, Tanta University, Tanta, 198 pp.
El Bahariya GA (2006) Petrology, mineral chemistry and metamorphism of two pan- African ophiolitic metagabbro occurrences, central Eastern Desert, Egypt. Egypt J Geol 50:183–202
El Bahariya GA (2007) Geology, compositional variation and petrogenesis of possible MORB-type ophiolitic massive and pillowed metabasalts from the Pan-African belt, eastern desert Egypt. Egypt J Geol 51:41–59
El Bahariya GA (2008) Geology, mineral chemistry and petrogenesis of Neoproterozoic metamorphosed ophiolitic ultramafics, central Eastern Desert, Egypt: implications for the classification and origin of the ophiolitic mélange. Egypt J Geol 52:55–82
El Bahariya, G A., 2012. Classification and origin of the Neoproterozoic ophiolitic mélange in the Central Eastern Desert of Egypt. n: Dilek, Y , Festa, A., Ogawa, Y. and Pini, G.A. (eds): Chaos and geodynamics: Melanges, Melange forming processes and their significance in the geologic record Special issue “mélanges” Tectonophysics, Part VI ophiolitic mélange, 357–370
El Bahariya, G.A., Arai, S., 2003. Petrology and origin of Pan-African serpentinites with particular reference to chromian spinel composition, Eastern Desert, Egypt: implication for supra-subduction zone ophiolite. The third international conference on the geology of Africa, Assiut, Egypt 1, 371–388
El Bayoumi, R.M.A., Greiling, R.O., 1984, Tectonic evolution of a Pan-African plate margin in southeastern Egypt—a suture zone overprinted by low angle thrusting? in Klerkx, J., and Michot, J., eds., African Geology: Tervuren, Belgium, p. 47–56
El Ramly MF, Greiling R, Kröner A, Rashwan AA (1984) On the tectonic evolution of the Wadi Hafafit area and environs, eastern desert of Egypt. Bulletin of King Abdelaziz University 6:113–126
El Sharkawy MA, El Bayoumi RM (1979) The ophiolites of Wadi Ghadir area Eastern Desert. Egypt Annals of the Geological Survey of Egypt IX:125–135
El-Gaby, S., List, F.K., Tehrani, R., 1988, Geology, evolution and metallogenesis of the Pan-African belt in Egypt, in El-Gaby, S., and Greiling, R.O., eds., The Pan-African belt of Northeast Africa and adjacent areas: Braun-Schweig (Vieweg); p. 17–68
El-Sayed MM, Furnes H, Mohamed FH (1999) Geochemical constraints on the tectonomagmatic evolution of the late Precambrian Fawakhir ophiolite, central Eastern Desert, Egypt. J Afr Earth Sci 29:515–533
Farahat ES (2010) Neoproterozoic arc–back-arc system in the Central Eastern Desert of Egypt: Evidence from supra-subduction zone ophiolites. Lithos 120:293–308
Floyd, P.A., Kryza, R., Crowley, Q.G., Winchester, J.A., Abdelwahed, M., 2002. Sleza ophiolite: geochemical features and realationship to lower Palaeozoic rift magmatism in the bohemian massif. In: Winchester, J. A., Pharaoh T. C., Verniers, J., (eds.): Palaeozoic amalgamation of Central Europe. Geological Society of London, Special Publication 201, 197–215
Gamal El Dien H, Hamdy M, Abu El-Ela A, Abu-Alam T, Hassan A, Kil Y, Mizukami T, Soda Y (2016) Neoproterozoic serpentinites from the Eastern Desert of Egypt: insights into Neoproterozoic mantle geodynamics and processes beneath the Arabian-Nubian shield. Precambrian Res 286:213–233
Garson, M.S., Shalaby, I.M., 1976, Pre-cambrian–lower Paleozoic plate tectonics and metallogenesis in the Red Sea region: geological Association of Canada, special paper, 14, 573–596
Harper GD (1984) The Josephine ophiolite, northwestern California. Geol Soc Am Bull 95:1009–1026
Hoeck V, Koller F, Meisel T, Onuzi K, Kneringer E (2002) The Jurassic south Albanian ophiolites: MOR- vs. SSZ-type ophiolites. Lithos 65:143–164
Ishikawa T, Nagaishi K, Umino S (2002) Boninitic volcanism in the Oman ophiolite: implications for thermal condition during transition from spreading ridge to arc. Geology 30:899–902
Johnson, P.R., Kattan, F.H., Al-Saleh, A.M., 2004. Neoproterozoic ophiolites in the Arabian shield: field relations and structure. In: Kusky, T.M. (Ed.), Precambrian ophiolites and related rocks. Developments in Precambrian Geology 13, 129–162
Jones JG., 1969. Pillow lavas as depth indicators. Am J Sci 267:181–195
Kamenetsky VS, Crawford AJ, Meffre S (2001) Factors controlling chemistry of magmatic spinel: an empirical study of associated olivine, Cr-spinel and melt inclusions from primitive rocks. J Petrol 42(4):655–671
Khalil AES, Azer MK (2007) Supra-subduction affinity in the Neoproterozoic serpentinites in the Eastern Desert, Egypt: evidence from mineral composition. J Afr Earth Sci 49:136–152
Khedr MZ, Arai S (2013) Origin of Neoproterozoic ophiolitic peridotites in south Eastern Desert, Egypt, constrained from primary mantle mineral chemistry. Mineral Petrol 107(5):807–828
Kröner A (1985) Ophiolites and the evolution of tectonic boundaries in the late Proterozoic Arabian–Nubian shield of Northeast Africa and Arabia. Precambrian Res 27:277–300
Kröner A, Greiling RO, Reischmann T, Hussein IM, Stern RJ, Durr S, Kruger J, Zimmer M (1987) Pan-African crustal evolution in the Nubian segment of northeast Africa. In: Krِner A (ed) Proterozoic lithospheric evolution. American Geophysical Union, Geodynamics Series 17, Washington, DC, pp 237–257
Kröner A, Greiling RO, Reischmann T, Hussein IM, Stern RJ, Durr S, Kruger J, Kröner A, Todt W, Hussein IM, Mansour M, Rashwan AA (1992) Dating of late Proterozoic ophiolites in Egypt and Sudan using the single grain zircon evaporation techniques. Precambrian Res 59:15–32
Kusky, T.M., 2004. Precambrian ophiolites and related rocks. Developments in Precambrian Geology, 13, Edited by T.M. Kusky, Elsevier, p. 748
Kusky TM, Abdelsalam M, Tucker RD, Stern RJ (2003) Preface to special issue Precambrian research on the east African and related Orogens and the Assembly of Gondwana. Precambrian Res 123(2–4):81–85
Kusky TM, Wang LUDY, Robinson P, Peng Songbai P, Xuya H (2011) Application of the modern ophiolite concept with special reference to Precambrian ophiolites. Sci China Earth Sci 54(3):315–341
Moore JG (1965) Petrology of deep-sea basalt near Hawaii. Am J Sci 263:40–52
Moore JG (1979) Vesicularity and CO2 in mid-ocean ridge basalts. Nature 282:250–253
Nasseef AO, Bakor AR, Hashad AH (1980) Petrography of possible ophiolitic rocks along the Qift-Qusier road. Eastern Desert, Egypt: Bulletin of King Abdelaziz University 3:157–168
Noweir, A.M., 1968. Geology of the Hammamat-Um Seleimat district, Eastern Desert, Egypt. Ph.D., Thesis, Assiut University p. 670
Pallister JS, Stacey JS, Fischer LB, Premo WR (1988) Precambrian ophiolites of Arabia: geologic settings, U-Pb geochronology, Pb-isotope characteristics, and implications for continental accretion. Precambrian Res 38:1–54
Pearce, J.A., 2003. Supra-subduction zone ophiolites: in: Dilek, Y., Newcomb, S. (Eds.), ophiolite concept and the evolution geological thought Bouder, Colorado. Geological Society of America Special Paper 373, 269–293
Pearce, J.A., Lippard, S.J., Roberts, S., 1984. Characteristics and tectonic significance of supra subduction zone ophiolites. In: Kokelaar, B.P., Howells, M.F. (Eds.), Marginal Basin Geology: Geological Society Special Publication 16, 77–94
Pearce JA, Barker PF, Edwards SJ, Parkinson IJ, Leat PT (2000) Geochemistry and tectonic significance of peridotites from the south sandwich arc-basin system, South Atlantic. Contrib Mineral Petrol 139(1):36–53
Ries RM, Shackleton RM, Graham RH, Fitches WH (1983) Pan-African structures, ophiolites and mélange in the Eastern Desert of Egypt: a traverse at 26o N. J Geol Soc Lond 140:75–95
Saunders, A. D., Tarney, J., Marsh, N. G., Wood, D. A., 1980. Ophiolites as ocean crust or marginal basin crust: a geochemical approach, In Panayiotou, A. (ed.), Ophiolites-Proceedings of the International Ophiolite Symposium, Cyprus 193–204
Serri G (1981) The petrochemistry of ophiolitic gabbroic complexes: a key for the classification of ophiolites into low-Ti and high-Ti types. Earth Planet Sci Lett 52:203–212
Shackleton RM, Ries RM, Graham RH, Fitches WH (1980) Late Precambrian ophiolitic mélange in the Eastern Desert of Egypt. Nature (London) 285:472–474
Shervais JW (1982) Ti-V plots and the petrogenesis of modern and ophiolitic lavas. Earth Planet Sci Lett 59:101–118
Stern RJ (1994) Arc assembly and continental collision in the Neoproterozoic east African Orogen: implications for the consolidation of Gondwanaland. Annu Rev Earth Planet Sci 22:319–351
Stern RJ (2002) Crustal evolution in the east African Orogen: a neodymium isotopic perspective. J Afr Earth Sci 34:109–117
Stern, R. J.; Johnson, P. R.; Kröner, A., Yibas, B. 2004. Neoproterozoic ophiolites of the Arabian-Nubian shield. In Kusky, T M, ed Precambrian ophiolites and related rocks. Precambrian Geology 13, 95–128
Stern RJ, Avigad D, Miller NR, Beyth M (2006) Evidence for the snowball earth hypothesis in the Arabiannubian shield and the east African orogen. J Afr Earth Sci 44:1–20
Stoeser DB, Camp V (1985) Pan-African microplate accretion of the Arabian shield. Geol Soc Am Bull 96:817–826
Stoeser DB, Frost CD (2006) Nd, Pb, Sr, and O isotopic characterization of Saudi Arabian shield terranes. Chem Geol 226:163–188
Sultan M, Arvidson RE, Duncan IJ, Stern RJ, El Kaliouby BE (1988) Extension of the Najd shear system from Saudi Arabia to the central Eastern Desert of Egypt based on integrated field and land sat observations. Tectonophysics 7:1291–1306
Wakabayashi, J., Dilek, Y., 2003. What constitutes “emplacement” of an ophiolite?: mechanisms and relationship to subduction initiation and formation of metamorphic soles, in Dilek, Y and Robinson, PT, eds, Ophiolites in Earth History: Geological Society, London, Special Publication 218, 427–447
Yibas B, Reimold WU, Anhaeusser CR, Koeberl C (2003) Geochemistry of the mafic rocks of the ophiolitic fold and thrust belts of southern Ethiopia: constraints on the tectonic regime during the Neoproterozoic (900–700 Ma). Precambrian Res 121:157–183
Yong IL (1999) Geotectonic significance of detrital chromian spinel: a review. Geosci J 3(1):23–29
Zimmer M, Kröner A, Jochum KP, Reischmann T, Todt W (1995) The Gabal Gerf complex: a Precambrian N-MORB ophiolite in the Nubian shield, NE Africa. Chem Geol 123:29–51
Acknowledgements
Field work was supported by the Tanta University, Egypt, which is gratefully acknowledged. I would like to express my sincere thanks to Prof. Dr. Ibrahim Khalaf, Menofia University, Egypt, and Prof. Dr. Bisrat Yibas, Council for Geoscience, Pretoria, South Africa, for their great efforts and constructive reviews to improve the manuscript. I am grateful to the guest editor Prof. Dr. Hamimi and Prof. Dr. Abdullah M. Al-Amri (Editor-in-Chief) for handling the manuscript and for their constructive editorial comments and help.
Author information
Authors and Affiliations
Corresponding author
Additional information
This article is part of the Topical Collection on New Advances and Research results on the Geology of Africa
Rights and permissions
About this article
Cite this article
A El Bahariya, G. Classification of the Neoproterozoic ophiolites of the Central Eastern Desert, Egypt based on field geological characteristics and mode of occurrence. Arab J Geosci 11, 313 (2018). https://doi.org/10.1007/s12517-018-3677-1
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s12517-018-3677-1