Seismic Sequence Stratigraphic Development of the Late Jurassic/Early Cretaceous Interval in the Egersund Basin, North Sea

AbstractIn this study, our attempt is to integrate sedimentological and petrophysical data for reservoir evaluation in the sequence stratigraphic framework. Petrographic analysis of the Late Jurassic–Early Cretaceous Fahliyan Formation reservoirs of two oilfields in the northwest of the Persian Gulf led to recognition of twelve microfacies. They can be classified into four facies associations, including open marine, shoal, lagoon and tidal flat, which are deposited in a homoclinal ramp carbonate. Sequence stratigraphy of the studied successions led to the recognition of three third-order depositional sequences based on vertical changes in microfacies and gamma ray analysis. Except for the upper boundary of the third sequence, the other sequence boundaries are type I (SBT.1). Dissolution is the most important diagenetic feature that affected the lower depositional sequence which is caused by the development of subaerial exposure after the deposition of the Fahliyan Formation, whereas cementation is the main diagenetic feature affecting the second- and third depositional sequences, causing their lower reservoir quality. In order to identify the flow units, the flow zone index methods, porosity throat radius (R35) and modified Lorenz based on stratigraphy were applied. The key wells studied in this area have shown good correlation throughout the studied oilfields which may potentially be used for hydrocarbon exploration and field development in the Late Jurassic–Early Cretaceous deposits of the Persian Gulf. This study integrates geological and petrophysical data (rock typing) toward sequence stratigraphic framework.

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AN EARLY CRETACEOUS SOURCE ROCK IN THE KENDREW TERRACE, DAMPIER SUB-BASIN?

The APPEA Journal ◽

10.1071/aj95026 ◽

1996 ◽

Vol 36 (1) ◽

pp. 477 ◽

Cited By ~ 1

Author(s):

S. Ryan-Grigor ◽

C. M. Griffiths

Keyword(s):

Source Rock ◽

North Sea ◽

Early Cretaceous ◽

Late Jurassic ◽

Large Scale ◽

Free Water ◽

Organic Content ◽

Source Rocks ◽

The North ◽

Northern North Sea

The Early to Middle Cretaceous is characterised worldwide by widespread distribution of dark shales with high gamma ray readings and high organic contents defined as dark coloured mudrocks having the sedimentary, palaeoecological and geochemical characteristics associated with deposition under oxygen-deficient or oxygen-free bottom waters. Factors that contributed to the formation of the Early to Middle Cretaceous 'hot shales' are: rising sea-level, a warm equable climate which promoted water stratification, and large scale palaeogeographic features that restrict free water mixing. In the northern North Sea, the main source rock is the Late Jurassic to Early Cretaceous Kimmeridge Clay/Draupne Formation 'hot shale' which occurs within the Viking Graben, a large fault-bounded graben, in a marine environment with restricted bottom circulation and often anaerobic conditions. Opening of the basin during a major trans-gressive event resulted in flushing, and deposition of normal open marine shales above the 'hot shales'. The Late Callovian to Berriasian sediments in the Dampier Sub-basin are considered to have been deposited in restricted marine conditions below a stratified water column, in a deep narrow bay. Late Jurassic to Early Cretaceous marine sequences that have been cored on the North West Shelf are generally of moderate quality, compared to the high quality source rocks of the northern North Sea, but it should be noted that the cores are from wells on structural highs. The 'hot shales' are not very organic-rich in the northern Dampier Sub-basin and are not yet within the oil window, however seismic data show a possible reduction in velocity to the southwest in the Kendrew Terrace, suggesting that further south in the basin the shales may be within the oil window and may also be richer in organic content. In this case, they may be productive source rocks, analogous to the main source rock of the North Sea.

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Early Cretaceous

Danmarks Geologiske Undersøgelse Serie B ◽

10.34194/serieb.v8.7068 ◽

1982 ◽

Vol 8 ◽

pp. 45-49

Author(s):

Jens Morgen Hansen ◽

Arne Buch

Keyword(s):

North Sea ◽

Early Cretaceous ◽

Late Cretaceous ◽

Late Jurassic ◽

Significant Feature ◽

Marine Clay ◽

The North ◽

Marine Sand ◽

The North Sea ◽

Early Late

The Early Cretaceous sea primarily covered the same basinal regions as the Late Jurassic sea but, late in the Early Cretaceous the sea also covered Late Jurassic land masses. During Early Cretaceous time the topography of the North Sea region became gradually buried. The following major transgression comprises the transition Early/Late Cretaceous. At the Jurassic/ Cretaceous transition, the Late Cimmerian unconformity is a significant feature (fig. 24), known from large parts of the North Sea region. The subsequent transgression and sedimentation of marine clay (the Valhall Formation), and marine sand (the LC-1 Unit), started late in Late Jurassic. Therefore, the formations described in the present chapter also comprise sediments of Late Jurassic age. Thicknesses of the Lower Cretaceous sediments are given in fig. 15.

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The tectonic modification of classic sequence stratigraphic models - Controls on late jurassic deposystems of the Central North Sea

55th EAEG Meeting ◽

10.3997/2214-4609.201411724 ◽

1993 ◽

Author(s):

J. R. Underhill ◽

M. A. Partington

Keyword(s):

North Sea ◽

Late Jurassic ◽

Sequence Stratigraphic ◽

Central North Sea

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The Sequence Stratigraphic Framework of Late Jurassic Clastic Reservoirs in the North Sea

AAPG Bulletin ◽

10.1306/f4c8ec24-1712-11d7-8645000102c1865d ◽

1992 ◽

Vol 76 ◽

Author(s):

PROSSER, SARAH D., University of Ed

Keyword(s):

North Sea ◽

Late Jurassic ◽

Sequence Stratigraphic ◽

The North ◽

Stratigraphic Framework ◽

The North Sea ◽

Clastic Reservoirs

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Upper Jurassic – Lower Cretaceous of the Danish Central Graben: structural framework and nomenclature

Geological Survey of Denmark and Greenland Bulletin ◽

10.34194/geusb.v1.4653 ◽

2003 ◽

Vol 1 ◽

pp. 231-246 ◽

Cited By ~ 4

Author(s):

Peter Japsen ◽

Peter Britze ◽

Claus Andersen

Keyword(s):

North Sea ◽

Early Cretaceous ◽

Lower Cretaceous ◽

Late Jurassic ◽

Upper Jurassic ◽

The South ◽

Structural Element ◽

Maximum Thickness ◽

The North ◽

Half Graben

The Danish Central Graben is part of the mainly Late Jurassic complex of grabens in the central and southern North Sea which form the Central Graben. The tectonic elements of the Danish Central Graben in the Late Jurassic are outlined and compared to those in the Early Cretaceous based on reduced versions of published maps (1:200 000), compiled on the basis of all 1994 public domain seismic and well data. The Tail End Graben, a half-graben which stretches for about 90 km along the East North Sea High, is the dominant Late Jurassic structural feature. The Rosa Basin (new name) is a narrow, north–south-trending basin extending from the south-western part of the Tail End Graben. The Tail End Graben ceased to exist as a coherent structural element during the Early Cretaceous and developed into three separate depocentres: the Iris and Gulnare Basins to the north and the Roar Basin to the south (new names). The Early Cretaceous saw a shift from subsidence focused along the East North Sea High during the Late Jurassic to a more even distribution of minor basins within the Danish Central Graben. The depth to the top of the Upper Jurassic – lowermost Cretaceous Farsund Formation reaches a maximum of 4800 m in the northern part of the study area, while the depth to the base of the Upper Jurassic reaches 7500 m in the Tail End Graben, where the Upper Jurassic attains a maximum thickness of 3600 m. The Lower Cretaceous Cromer Knoll Group attains a maximum thickness of 1100 m in the Outer Rough Basin.

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