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Sedimentological architecture, shelf-edge trajectories and evolution of an Oligocene reservoir, East Nile Delta

Published online by Cambridge University Press:  05 August 2016

S. S. SELIM*
Affiliation:
Department of Geology, Faculty of Science, Cairo University, Giza, Egypt-12613
*
*Author for correspondence: [email protected]

Abstract

3D seismic data and wireline logs from 17 wells in the onshore East Nile Delta were utilized to study the stratigraphic architecture and evolution of Oligocene deposits. The Oligocene is readily recognized on seismic cross-sections by a series of northward prograding clinoforms. The Oligocene sequences show lateral facies changes from fluvial to deepwater via a shelf-edge delta. Such deltaic features include distributary channels, interdistributary bay fill, and a delta plain and front, gradually changing downslope into prodelta and slope deposits. The slope deposits include three main depositional elements: a deeply incised channel, a complex of laterally switched leveed channels and lobes, and crevasses and frontal splays. These depositional elements are formed in the main western slope basin and local eastern intraslope ponded sub-basin. The reactivated E–W- and NW-trending faults as well as NE–SW inverted structures are the main controls on slope physiography that formed the main corridors for Oligocene sediment distribution. Two main globally correlated Oligocene sequences are encountered being separated by the major drop in global eustatic sea level at 28.1Ma. The lower Oligocene sequence has two main stages: (1) the formation and filling of a basal canyon; and (2) the formation and progradation of shelf deltas to form shelf-edge deltas, and then progradation with an ascending shelf-edge trajectory (clinoforms 1). The upper Oligocene sequence is characterized by accretionary shelf-edge deltas with descending and then flat trajectories (clinoforms 2–4). The frontal splay and lobe complex exhibits potentially favourable reservoir continuity and areal coverage followed by the slope channels.

Type
Original Articles
Copyright
Copyright © Cambridge University Press 2016 

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References

Abd-Allah, A. M. A. 2008. Mesozoic–Cenozoic inversion tectonic of North Sinai: integration of structural and basin analysis. Journal of Applied Geophysics 7, 77108.Google Scholar
Abd-Allah, A. M.A., Abdel Aal, M. H. & Ghandour, A. 2012. Structural characteristics and tectonic evolution of the northwestern margin of the Nile Delta, Egypt. Journal of African Earth Sciences 68, 8295.Google Scholar
Abdel Aal, A., El Barkooky, A., Gerrits, M., Meyer, H., Schwander, M. & Zaki, H. 2000. Tectonic evolution of the Eastern Mediterranean Basin and its significance for hydrocarbon prospectivity in the ultra deep water of the Nile Delta. Leading Edge 19, 1086–102.Google Scholar
Abdel Aal, A., Price, R. J., Vaitl, J. D. & Shrallow, J. A. 1994. Tectonic evolution of the Nile Delta, its impact on sedimentation and hydrocarbon potential. In Proceedings of the 12th Petroleum Conference. Cairo, Egypt, pp. 19–34. The Egyptian General Petroleum Corporation.Google Scholar
Abdel Aal, A., Shrallow, J. A., Nada, H. & Shaarawy, O. 1996. Geological evolution of the Nile Delta, Egypt, using regional seismic interpretation. Egyptian General Petroleum Corporation 14th Exploration and Production Conference 1, 240353.Google Scholar
Abd El-Motaal, E. & Kusky, T. M. 2003. Tectonic evolution of the intraplate s-shaped Syrian Arc fold-thrust belt of the Middle East region in the context of plate tectonics. The 3rd International Conference on the Geology of Africa 2, 139–57.Google Scholar
Abdullayev, N., Reinprecht, J. & Villinski, J. 2011. Pre-Messinian exploration opportunities, offshore Nile Delta, Egypt. In New and Emerging Plays in the Eastern Mediterranean Conference, 23–25 February 2011, p. 24.Google Scholar
Ahmed, S. 2004. Biostratigraphical Report of Sindy-1 Well. Earth Resources Exploration, Egyptian General Petroleum Corporation (EGPC) report, 35 pp.Google Scholar
Ahmed, S. 2008. Biostratigraphical Report of Shahin-1 Well. Earth Resources Exploration, Egyptian General Petroleum Corporation (EGPC) report, 29 pp.Google Scholar
Ayyad, M. H. & Darwish, M. 1996. Syrian Arc structure: a unifying model of inverted basins and hydrocarbon occurrences in North Egypt. In Proceedings of the 13th Exploration and Production Conference, Cairo, Egypt, pp. 40–59. The Egyptian General Petroleum Corporation.Google Scholar
Booth, J. R., Duvernay, A. E., Pfeiffer, D. S. & Styzen, M. J. 2000. Sequence stratigraphic framework, depositional models, and stacking patterns of ponded and slope fan systems in the Auger Basin: Central Gulf of Mexico Slope. In Deep-Water Reservoirs of the World: Gulf Coast Section Society of Economic Paleontologists and Mineralogists Foundation, 20th Annual Bob F. Perkins Research Conference Proceedings vol. 20 (eds Weimer, P., Slatt, R. M., Coleman, J., Rosen, N. C., Nelson, H., Bouma, A. H., Styzen, M. J. & Lawrence, D. T.), pp. 82103.Google Scholar
Bosworth, W. 1994. A model for the three-dimensional evolution of continental rift basins, northeast Africa. Geologische Rundschau 83, 671–88.Google Scholar
Boucher, P. J., Dolson, J. C., Siok, J. & Heppard, P. D. 2004. Key challenges to realizing full potential in an emerging giant gas province: Nile Delta/Mediterranean offshore, deep water, Egypt. Houston Geological Society Bulletin 47, 25–7.Google Scholar
Bowman, S. A. 2011. Regional seismic interpretation of the hydrocarbon prospectivity of offshore Syria. GeoArabia 16 (3), 95124.Google Scholar
Chaimov, T., Barazangi, M., Al-Saad, D., Sawaf, T. & Khaddouri, T. 1993. Seismic fabric and 3-D structure of the southwestern intracontinental Palmyride fold belt, Syria. American Association of Petroleum Geologists Bulletin 77, 2032–47.Google Scholar
Chapin, M. A., Tiller, G. M. & Mahaffie, M. J. 1996. 3D architectural modeling using high resolution seismic data and sparse well control: example from Mars ‘Pink’ Reservoir, Mississippi Canyon area, Gulf of Mexico. American Association of Petroleum Geologists Studies in Geology 42, 123–32.Google Scholar
Dolson, J. C., Atta, M., Blanchard, D., Sehim, A., Villinski, J., Loutit, T. & Romine, K. 2014. Egypt's future petroleum resources: a revised look into the 21st century. In Petroleum Systems of the Tethyan Region (eds Marlow, L., Kendall, C. & Yose, L.), pp. 143–78. American Association of Petroleum Geologists Memoir no. 106.Google Scholar
Dolson, J. C., Boucher, P. J., Dodd, T. & Ismail, J. 2002 a. Petroleum potential of an emerging giant gas province, Nile Delta and Mediterranean Sea off Egypt. Oil and Gas Journal 100, 32–7.Google Scholar
Dolson, J. C., Boucher, P. J., Siok, J. & Heppard, P. D. 2005. Key challenges to realizing full potential in an emerging giant gas province: Nile Delta/Mediterranean offshore, deep water, Egypt. In Petroleum Geology: North-West Europe and Global Perspectives – Proceedings of the 6th Petroleum Geology Conference (eds Doré, A. G. & Vining, B. A.), pp. 607–24. Geological Society of London, Petroleum Geology Conference Series no. 6.Google Scholar
Dolson, J. C., El Barkooky, A. N., Wehr, F., Gingerich, P., Prochazka, N. & Shann, M. 2002 b. The Eocene and Oligocene paleo-ecology and paleo-geography of Whale Valley and the Fayoum Basins: implications for hydrocarbon eploration in the Nile Delta and eco-tourism in the Greater Fayoum Basin. AAPG, Search and Discovery Article #10030. http://www.searchanddiscovery.com/documents/cairo/index.htm.Google Scholar
Dolson, J. C., Shann, M. V., Matbouly, S., Harwood, C., Rashed, R. & Hammouda, H. 2001. The petroleum potential of Egypt. In Petroleum Provinces of the 21st Century (eds Downey, M. W., Threet, J. C. & Morgan, W. A.), pp. 453–82. American Association of Petroleum Geologists Memoir no. 74.Google Scholar
El-Heiny, I. & Enani, N. 1996. Regional stratigraphic interpretation pattern of Neogene sediments, northern Nile Delta, Egypt. Proceedings of the 13th Petroleum Exploration and Production Conference, Cairo, Egypt, pp. 270–90. The Egyptian General Petroleum Corporation.Google Scholar
Fahmy, S. E., Roveda, V. L. & Allen, L. O. 1978. Paleontological/Stratigraphical Final Report of Monaga-1 Well. Paleoservices, Egyptian General Petroleum Corporation (EGPC) report, 17 pp.Google Scholar
Farre, J. A., McGregor, B. A., Ryan, W. B. F. & Robb, J. M. 1983. Breaching the shelf break; passage from youthful to mature phase in submarine canyon evolution. In The Shelf Break; Critical Interface on Continental Margins (eds Stanley, D. J. & Moore, G. T.), pp. 2539. SEPM Special Publication no. 33.Google Scholar
Gardosh, M. A. & Druckman, Y. 2006. Seismic stratigraphy, structure and tectonic evolution of the Levantine Basin, offshore Israel. In Tectonic Development of the Eastern Mediterranean Region (eds Robertson, A. H. F. & Mounttrakis, D.), pp. 201–27. Geological Society of London, Special Publication no. 260.Google Scholar
Gradstein, F. M., Ogg, J. G., Schmitz, M. D. & Ogg, G. M. 2012. The Geologic Time Scale. Amsterdam: Elsevier, 1127 pp.Google Scholar
Hackbarth, C. J. & Shaw, R. D. 1994. Morphology and stratigraphy of a mid-Pleistocene turbidite leveed channel from seismic, core and log data, northeastern Gulf of Mexico. In Submarine Fans and Turbidite Systems: Gulf Coast Section Society of Economic Paleontologists and Mineralogists Foundation. 15th Annual Bob F. Perkins Research Conference Proceedings vol. 15 (eds Weimer, P., Bouma, A. H. & Perkins, B. F.), pp. 127–33.Google Scholar
Harms, J. C. & Wray, J. L. 1990. Nile Delta. In The Geology of Egypt (ed. Said, R.), pp. 329–44. Rotterdam: Balkema.Google Scholar
Hussein, I. M. & Abd-Allah, A. M. A. 2001. Tectonic evolution of the northeastern part of the African continental margin, Egypt. Journal of African Earth Sciences 33, 4968.Google Scholar
Johannessen, E. P. & Steel, R. J. 2005. Clinoforms and their exploration significance for deepwater sands. Basin Research 17, 521–50.CrossRefGoogle Scholar
Kellner, A., El Khawaga, H., Brink, G., Brink-Larsen, S., Hesham, M., Abu El Saad, H., Atef, A., Young, H. & Finlayson, B. 2009. Depositional history of the West Nile Delta – Upper Oligocene to Upper Pliocene. AAPG, Search and Discovery Article #30092. http://www.searchanddiscovery.com/pdfz/documents/2009/30092kellner/ndx_kellner.pdf.html.Google Scholar
Jiang, S., Weimer, P., Henriksen, S. & Hammon, W. S. 2012. 3D seismic stratigraphy and evolution of Upper Pleistocene deepwater depositional systems, Alaminos Canyon, northwestern deep Gulf of Mexico. In Application of the Principles of Seismic Geomorphology to Continental-Slope and Base-of-Slope Systems: Case Studies from Seafloor and Near-Seafloor Analogues (eds Prather, B. E., Deptuck, M. E., Mohrig, D., Van Hoorn, B. & Wynn, R. B.), pp. 309–27. SEPM Special Publication no. 99.Google Scholar
Khalil, M. H. & Franchino, A. 2002. Applied analog structural models in hydrocarbon exploration in the Offshore Mediterranean, Egypt. AAPG, Search and Discovery Article #90005. http://www.searchanddiscovery.com/documents/abstracts/cairo2002/images/khalil01.htm.Google Scholar
Krois, P., Hannke, K., Novotny, B, Bayoumi, T., Hussein, H. & Tari, G. 2010. The emerging deepwater province of northwest Egypt. AAPG, Search and Discovery Article #10241. http://www.searchanddiscovery.com/pdfz/documents/2010/10241krois/ndx_krois.pdf.html.Google Scholar
Loutit, T., Allard, D., Dolson, J. C., Schruers, J. & Laura, S. 2001. A new view of Egypt's hydrocarbon potential. In Proceedings of the Middle East and North Africa (MENA) Conference, London, 350 pp.Google Scholar
Lowe, D. R. 1982. Sediment gravity flows: II depositional models with special reference to the deposits of high-density turbidity currents. Journal of Sedimentary Research 52, 279–97.Google Scholar
Mahaffie, M. J. 1994. Reservoir classification for turbidite intervals at the Mars discovery, Mississippi Canyon 807, Gulf of Mexico. In Submarine Fans and Turbidite Systems: Gulf Coast Section Society of Economic Paleontologists and Mineralogists Foundation. 15th Annual Bob F. Perkins Research Conference Proceedings vol. 15 (eds Weimer, P., Bouma, A. H. & Perkins, B. F.), pp. 233–44.Google Scholar
Morley, C. K. & Leong, L. C. 2008. Evolution of deep-water synkinematic sedimentation in a piggyback basin, determined from three-dimensional seismic reflection data. Geosphere 4, 939–62.CrossRefGoogle Scholar
Mosconi, A., Rebora, A., Venturino, G., Bocc, P. & Khalil, M. H. 1996. Egypt-Nile Delta and North Sinai Cenozoic tectonic evolutionary model: a proposal. Proceedings of the 13th Petroleum Exploration and Production Conference, Cairo, Egypt, pp. 203–23. The Egyptian General Petroleum CorporationCrossRefGoogle Scholar
Moussa, D. S. & Matbouly, D. S. 1994. Nile Delta and North Sinai: Fields, Discoveries and Hydrocarbon Potentials (A Comprehensive Overview). Cairo: Egyptian General Petroleum Corporation, 387 pp.Google Scholar
Moustafa, A. R. & Khalil, M. H. 1989. North Sinai Structures and Tectonic Evolution. Earth Science Series 3. MERC, Middle East Research Center, Ain Shams University, pp. 215–31.Google Scholar
Moustafa, A. R. & Khalil, M. H. 1990. Structural characteristics and tectonic evolution of north Sinai fold belts. In The Geology of Egypt (ed. Said, R.), pp. 381–92. Rotterdam: Balkema.Google Scholar
Moustafa, A. R. & Khalil, M. H. 1994. Rejuvenation of the Eastern Mediterranean passive continental margin in northern and central Sinai: new data from the Themed fault. Geological Magazine 131, 435–48.Google Scholar
Niazi, M. & Dahi, M. 2004. Unexplored giant sandstone features in ultra deepwater, West Mediterranean, Egypt. In American Association of Petroleum Geologists International Conference: October 24–27, 2004; Cancun, Mexico. AAPG, Search and Discovery Article #90036. http://www.searchanddiscovery.com/pdfz/documents/abstracts/2004intl_cancun.html.Google Scholar
Orwig, E. R. 1982. Tectonic framework of northern Egypt and the eastern Mediterranean regime. In EGPC 6th Exploration Seminar, Egypt, 20 pp.Google Scholar
Ouda, K. 1998. Mid-Late tertiary foraminiferal events and stratigraphic hiatuses in Egypt. Neues Jahrbuch Geologie Paläontologie, Abhandlungen 209, 145–15.Google Scholar
Patton, T. L., Moustafa, A. R., Nelson, R. A. & Abdine, A. S. 1994. Tectonic evolution and structural setting of the Suez rift. In Interior Rift Basins (ed. London, S. M.), pp. 955. American Association of Petroleum Geologists Memoir no. 58.Google Scholar
Pirmez, C., Beaubouef, R. T., Friedmann, S. J. & Mohrig, D. C. 2000. Equilibrium profile and base-level in submarine channels: examples from Late Pleistocene systems and implications for the architecture of deepwater reservoirs. In Deep-Water Reservoirs of the World: Gulf Coast Section Society of Economic Paleontologists and Mineralogists Foundation. 20th Annual Bob F. Perkins Research Conference Proceedings vol. 20 (eds Weimer, P., Slatt, R. M., Coleman, J., Rosen, N. C., Nelson, H., Bouma, A. H., Styzen, M. J. & Lawrence, D. T.), pp. 782805.Google Scholar
Porebski, S. J. & Steel, R. J. 2003. Shelf-margin deltas: their stratigraphic significance and relation to deepwater sands. Earth-Science Reviews 62, 283326.Google Scholar
Posamentier, H. W., Allen, G. P., James, D. P. & Tesson, M. 1992. Forced regressions in a sequence stratigraphic framework: concepts, examples, and exploration significance. American Association of Petroleum Geologists Bulletin 76, 1687–709.Google Scholar
Posamentier, H. W. & Kolla, V. 2003. Seismic geomorphology and stratigraphy of depositional elements in deep-water settings. Journal of Sedimentary Research 73, 367–88.CrossRefGoogle Scholar
Posamentier, H. W. & Morris, W. R. 2000. Aspects of the stratal architecture of forced regressive deposits. In Sedimentary Responses to Forced Regressions (eds Hunt, D. & Gawthorpe, R. L.), pp. 1946. Geological Society of London, Special Publication no. 172.Google Scholar
Pratson, L. F., Nittrouer, C. A., Wiberg, P. L., Steckler, M. S., Swenson, J. B., Cacchione, D. A., Karson, J. A., Murray, A. B., Wolinsky, M. A., Gerber, T. P., Mullenbach, B. L., Spinelli, G. A., Fulthorpe, C. S., O'Grady, D. B., Parker, G., Driscoll, N. W., Burger, R. L., Paola, C., Orange, D. L., Field, M. E., Friedrichs, C. T. & Fedele, J. J. 2007. Seascape evolution on clastic continental shelves and slopes. In Continental Margin Sedimentation: From Sediment Transport to Sequence Stratigraphy (eds Nittrouer, C. A., Austin, J. A., Field, M. E., Kravitz, J. H., Syvitski, J. P. M. & Wiberg, P. L.), pp. 339–80. IAS Special Publication no. 37.Google Scholar
Rasmussen, E. S. 1994. The relationship between submarine canyon fill and sea-level change: an example from Middle Miocene offshore Gabon, West Africa. Sedimentary Geology 90, 6175.Google Scholar
Rossi, U., Biffi, U. & El Sharaby, S. 1983. Tineh and Wakar, New Formations of the Nile Delta and North West Sinai. Milan: AGIP.Google Scholar
Said, R. 1981. The Geological Evolution of the River Nile. Berlin: Springer-Verlag, 151 pp.Google Scholar
Said, R. 1990. Cenozoic. In The Geology of Egypt (ed. Said, R.), pp. 451–86. Rotterdam: Balkema.Google Scholar
Salem, R. 1976. Evolution of Eocene–Miocene sedimentation patterns in parts of northern Egypt. American Association of Petroleum Geologists Bulletin 60, 3464.Google Scholar
Sarhan, M. & Hemdan, K. 1994. North Nile Delta structural setting and trapping mechanism, Egypt. In 12th EGPC Petroleum Exploration and Production Conference, Egypt, pp. 1–18.Google Scholar
Selim, S. S., El Araby, A. A., Darwish, M. & Abu Khadrah, A. M. 2011. Transgressive-regressive cycles of the Upper Cretaceous–Paleogene in the North Eastern Desert basin – Egypt. In Abstracts: Geology of Nile Basin Countries Conference. Alexandria, Egypt.Google Scholar
Sestini, G. 1989. Nile Delta: a review of depositional environments and geological history. In Deltas: Sites and Traps for Fossil Fuels (eds Whately, M. K. G. & Pickering, K. T.), pp. 99127. Geological Society of London, Special Publication no. 41.Google Scholar
Shahar, J. 1994. The Syrian Arc system: an overview. Palaeogeography, Palaeoclimatology, Palaeoecology 112, 125–42.CrossRefGoogle Scholar
Shaw, J. H., Novoa, E. & Connors, C. D. 2004. Structural controls on growth stratigraphy in contractional fault-related folds. In Thrust Tectonics and Hydrocarbon Systems (ed. McClay, K. R.), pp. 400–12. American Association of Petroleum Geologists Memoir no. 82.Google Scholar
Sheikh, H. A. & Faris, M. 1985. The Eocene-Oligocene boundary in some wells of the Western Desert, Egypt. Neus Jahbruch der Geologie and Palaontologie, Monatshefte 1, 23–8.Google Scholar
Snedden, W. J. & Liu, C. 2010. A compilation of Phanerozoic sea-level change, coastal onlaps and recommended sequence designations. AAPG International Conference and Exhibition. AAPG, Search and Discovery Article #40594. http://www.searchanddiscovery.com/pdfz/documents/2010/40594snedden/ndx_snedden.pdf.html.Google Scholar
Soliman, I. S. & Orabi, H. O. 2000. Oligocene stratigraphy and paleoecology of two Mediterranean offshore wells, in North Sinai, Egypt. Al-Azhar Bulletin of Science 11 (1), 187201.Google Scholar
Spinelli, G. A. & Field, M. E. 2001. Evolution of continental slope gullies on the Northern California Margin. Journal of Sedimentary Research 71, 237–45.Google Scholar
Sydow, J. & Roberts, H. H. 1994. Stratigraphic framework of a Late Pleistocene shelf- edge delta, northeast Gulf of Mexico. American Association of Petroleum Geologists Bulletin 78, 1273–312.Google Scholar
Twichell, D. C., Kenyon, N. H., Parson, L. & McGregor, B. A. 1991. Depositional patterns of the Mississippi Fan surface: evidence from GLORIA II and high-resolution seismic profiles. In Seismic Facies and Sedimentary Processes of Submarine Fans and Turbidite Systems (eds Weimer, P. & Link, M. H.), pp. 349–63. New York: Springer.Google Scholar
Twichell, D. C., Schwab, W. C., Nelson, C. H., Kenyon, N. H. & Lee, H. J. 1992. Characteristics of a sandy depositional lobe on the outer Mississippi Fan from SeaMARC 1A sidescan sonar images. Geology 20, 689–92.Google Scholar
U. S. Geological Survey. 2010. Assessment of Undiscovered Oil and Gas Resources of the Nile Delta Basin Province, Eastern Mediterranean. Fact sheet 2010-3027. https://pubs.usgs.gov/fs/2010/3027/pdf/FS10-3027.pdf Google Scholar
Whaley, J. 2008. The Raven Field: planning for success. GEO ExPro 5, 3640.Google Scholar
Winker, C. D. & Booth, J. R. 2000. Sedimentary dynamics of the salt-dominated continental slope, Gulf of Mexico: integration of observations from the sea floor, near-surface and deep subsurface. In Deepwater Reservoirs of the World: Gulf Coast Section Society of Economic Paleontologists and Mineralogists Foundation, 20th Annual Bob F. Perkins Research Conference Proceedings vol. 20 (eds Weimer, P., Slatt, R. M., Coleman, J., Rosen, N. C., Nelson, H., Bouma, A. H., Styzen, M. J. & Lawrence, D. T.), pp. 1059–86.Google Scholar