A New Model for the Development of the Gulf of Suez Rifting; Implications for Hydrocarbon Exploration and Production Potential
- Janpieter Van Dijk (Dragon Oil) | Ayodeji Temitope Ajayi (Dragon Oil) | Luca De Vincenzi (Dragon Oil) | Helby Ellen (Dragon Oil) | Hasan Guney (Dragon Oil) | Stefano Santoni (Dragon Oil)
- Document ID
- Society of Petroleum Engineers
- Abu Dhabi International Petroleum Exhibition & Conference, 12-15 November, Abu Dhabi, UAE
- Publication Date
- Document Type
- Conference Paper
- 2018. Society of Petroleum Engineers
- Hydrocarbons, G&G, Exploration, Tectonics, Gulf of Suez
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- 76 since 2007
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The Gulf of Suez Basin (GOS), a World Class Hydrocarbon Province, is a typical Continental Rift, but many perplexities arise from the different proposed evolutionary models.
Previous models describe extension along (N)NW-(S)SE faults with antithetic half grabens, but show numerous difficulties to capture all observed elements into one single frame, as reconstruction is hampered by low seismic resolution below the heterogeneous Upper Miocene salt. Our analyses (from outcrop, seismic, well logs, gravimetry, magnetometry, dipmeter, and seismic and magnetic reprocessing), over the last years, allows the definition of a new tectonic model better describing these features: The GOS evolution is placed in a sinistral transtensional regime, reinterpreting the Duwi (WNW-ESE), Clysmic (NW-SE), Aqaba (NNE-SSW), and Cross (NE-SW) trends and the two (twist) accomodation zones, showing two distinct episodes resulting in overprinting of differently trending and tilting fault blocks. Furthermore it tackles perplexities related to the link between subsidence amounts/rates (backstripping), and extension, strain distribution, and episodes/pulses/unconformities. It describes the increase in extension towards the south in the rift-sphenochasm, and resolves the enigmatic relationship between high angle faults (that dominate the area), low angle dipping older faults and rotated pre-rift successions.
Our model foresees a two staged evolution: Initial rifting (Early Miocene - E1; Abu Zenima, Nukhul, Rudeis series) occurred along WNW-ESE trending (Duwi) faults disposed in an en-echelon manner as a result of a sinistral transtension. These faults progressively rotated in some areas towards a low angle with accompanied high angle "antithetic" tilted pre-rift strata. Subsidence accelerated during the Early Miocene, and some of these tilted fault blocks show erosion surfaces partly related to the final Early Miocene tectonic pulse. In a second stage (Mio- Pliocene - E2; Kareem, Belayim series, South Garib salt, Zeit evaporates) this pattern is overprinted by a new set of high angle rift faults trending (N)NW-(S)SE (Clysmic) cross-cutting the previous faults, but without any major block rotation. The Late Pliocene-Pleistocene (E3; Post Zeit, Shulher series) large (accelerating) differential uplift and subsidence, shows "synthetic tilting" of the strata along the rift margins, local tectonic inversion, syn- sedimentary detachment along the mobile salt layer with the generation of en-echelon ridges, generating the present day complex fault pattern (sigmoidal intervening trends and cross trends), and differently tilted smaller fault blocks. The new model is fully compatible with the pulsating NNE-NE movement of the Sinai Plate, associated with the NE moving Arabian Plate and Red Sea rifting, and has severe consequences for further Exploration and Development in the GOS, as it describes the configuration of the Hydrocarbon Fields in a more comprehensive way and predicts the occurrences of undiscovered Prospects.
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Bosworth, W., Crevello, P., Winn Jr., R.D., and Steinmetz, J. (1998); Structure, sedimentation, and basin dynamics during rifting of the Gulf of Suez and northwestern Red Sea. In: B.H. Purser and D.W.J. Bosence, Eds., Sedimentation and tectonics of rift basins: Red Sea-Gulf of Aden. London, Chapman and Hall, pp. 77-96.
Rohais, Sebastien, Barrois, Aurelien, Colletta, Bernard, and Moretti, Isabelle (2016); Pre-salt to salt stratigraphic architecture in a rift basin: insights from a basin-scale study of the Gulf of Suez (Egypt). Arab J Geosciences, 10.1007/s12517-016-2327-8, pp. 1-24.