Tectono-Sedimentary Provinces of the Oligocene-Quaternary in the Offshore Nile Delta; Relevance to Hydrocarbon Trapping and Reservoirs Distribution
By
Lorenzo Meciani1, Sergio Laura1, Mesbah Khalil1
(1) IEOC (ENI-Agip), Cairo, Egypt
The offshore Nile Delta is a prolific and prospective hydrocarbon province
due to the potentiality of its Oligocene-Quaternary succession. The richness of
this system is related to the continuous source of clastic from south and to the
complex tectonic-sedimentary history that provides different reservoirs and
trapping mechanisms
.
The Messinian evaporites form a major horizontal tectonic separation between two different tectonic environments, while the sedimentary pattern remains relatively constant in the entire Oligocene-Quaternary, being formed by an overall prograding Deltaic sequence.
A number of tectono-sedimentary provinces, characterized by specific trap
mechanism and reservoir
facies, are identified.
Compressive/transpressive deformations prevail during Pre-Messinian; few
tectonic provinces can be defined, and predominant syn-depositional deformations
affect the sea-bed morphology, controlling reservoir
facies distribution.
Proven Messinian reservoirs are localized in the Abu Maadi paleo-valley;
potential for reservoir
facies is expected down-current.
Marked differences are recognized within the provinces of the Plio-Pleistocene.
Localized syn- and post-depositional deformations affect the sub-marine
topography and, along with sea level fluctuations and distance from clastic
supply, control facies distribution and trapping mechanisms
.
The extent to which Plio-Pleistocene can be considered a sedimentary analogue to pre-Messinian sequences is under debate, as analogies and differences are present.
Continuous source of clastics during Oligo-Quaternary is mainly related to the contemporaneous rising and erosion of the western shoulder of the Red Sea-Suez rift. The eroded clastics are transported westward to the Nile valley then through the main channel to the Nile Delta where entry points were available from Oligocene to present.