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Sedimentology and Diagenesis of the Miocene Nutaysh Member of the Burqan Formation in the Midyan Area, Northwestern Saudi Arabia

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Turbidite sandstones deposited in rift settings are currently among the main targets of hydrocarbon exploration. However, the impact of style of sedimentation, cyclicity and diagenesis on reservoir quality of such sandstones is relatively poorly explored in the literature. The sedimentology, stratigraphic architecture, and diagenetic alterations of deep marine sandstones of the Mocene Nutaysh member of the Burqan Formation in the Midyan area (Saudi Arabia) are described based on number of measured sedimentologic sections, lithofacies identification in the field and laboratory studies. Three lithofacies types are here identified in the measured sections. These are from bottom to top: (1) “Lithofacies A” consisting of massive to thickly-bedded, coarse-to-very coarse-grained sandstone and conglomerates; (2) “Lithofacies B” consisting of well-bedded, coarse-to-medium-grained, well-sorted sandstone, and (3) “Lithofacies C” consisting of thin-bedded, fine to very fine-grained, current-rippled sandstone, bioturbated shaley siltstone and marl. The main diagenetic processes in the sandstones include the formation of grain-coating smectite and rhombic dolomite. Small amounts of cements include the formation of authigenic kaolinite and calcite. The reservoir quality is anticipated to have been preserved under the transformation of smectite to deep burial illite, which is believed to prevent formation of quartz cements.
Słowa kluczowe
Rocznik
Strony
165–--174
Opis fizyczny
Bibliogr. 25 poz., rys., tab., wykr.
Twórcy
  • Department of Earth Sciences, King Fahd University of Petroleum and Minerals, Dhahran 3126, P.O. Box 1400, Saudi Arabia
autor
  • Chemical and Biochemical Engineering Department and Center for Global and Regional Environmental Research (CGRER), University of Iowa, Iowa City, Iowa 52242, USA
autor
  • Field geology consultant, Turkey
Bibliografia
  • 1. Abdullatif O., Olagoke S. (2010) The Early Miocene deep marine turbidites of Burqan Formation: facies, characteristics, and reservoir quality, Midyan region, Saudi Arabia. Geophysical Research Abstracts, 12, EGU2010-8093.
  • 2. Aoudjit H., Robert M., Elsass F., Curmi P. (1995) Detailed study of smectite genesis in granitic saprolites by analytical electron microsopy. Clays and Clay Minerals, 30: 135-147.
  • 3. Bender F. (1974) Geology of Jordan. Gebrueder Borntraeger Berlin.
  • 4. Bosworth W., McClay K. (2001) Structural and stratigraphic evolution of the Gulf of Suez rift, Egypt: a synthesis. Mémoires du Muséum d'Histoire Naturelle, 186: 567-606.
  • 5. Brański P. (2010) Kaolinite peaks in early Toarcian profiles from the Polish Basin - an inferred record of global warming. Geological Quarterly, 54(1): 15-24.
  • 6. Christidis G., Dunham A.C. (1993) Compositional variations in smectites. Part 1: alteration of intermediate volcanic rocks. A case study from Milos Island, Greece. Clays and Clay Minerals, 28: 255-273.
  • 7. Christidis G., Dunham A.C. (1997) Compositional variations in smectites. Part 2: alteration of acidic precursors, a case study from Milos Island, Greece. Clays and Clay Minerals, 32: 253-270.
  • 8. Clark M.D. (1986) Explanatory notes to the geologic map of the Al Bad'Quadrangle, sheet 28a, Kingdom of Saudi Arabia. Saudi Arabian Deputy Ministry for Mineral Resources Geoscience Map Series GM-81A, C, scale 1:250 000 (unpublished).
  • 9. Ehrenberg S.N. (1993) Preservation of anomalously high porosity in deeply buried sandstones by grain-coating chlorite: examples from the Norwegian continental shelf. AAPG Bulletin, 77: 1260-1286.
  • 10. Ferguson G.S., Senalp M. (1993) Sedimentology of the Nutaysh Formation (Burqan Group), and other stratigraphic insights; evidence from a field trip to the Midyan Area. Saudi Aramco Miscellaneous Report, 1001 (unpublished).
  • 11. Gawthorpe R.L., Fraser A., Collier R.E.Li. (1994) Sequence stratigraphy in active extensional basins: implications for the interpretation of ancient basin fills. Marine and Petroleum Geology, 11: 642-658.
  • 12. Haq B.U., Hardenbol J., Vail P.R. (1988) Mesozoic and Cenozoic chronostratigraphy and eustatic cycles. SEPM Special Publication, 42: 71-108.
  • 13. Hill I., Worden R.H., Meighan I.G. (2000) Geochemical evolution of a palaeolaterite: the interbasaltic formation, Northern Ireland. Chemical Geology, 166: 65-84.
  • 14. Hughes G.W., Johnson R.S. (2005) Lithostratigraphy of the Red Sea region. GeoArabia, 10: 49-126.
  • 15. Hughes G.W., Perincek D., Grainger D.J., Abu-Bshait A., Jarad A. (1999) Lithostratigraphy and depositional history of part of the Midyan region, northwestern Saudi Arabia. GeoArabia, 4: 503-542.
  • 16. Jackson C.A.L., Gawthorpe R.L., Carr I.D., Sharp I.R. (2005) Normal faulting as a control on the stratigraphic development of shallow marine syn-rift sequences: the Nukhul and Lower Rudeis Formations, Hammam Faraun fault block, Suez Rift, Egypt. Sedimentology, 52: 313-338.
  • 17. Johnson R.S., Rodgers D., Savage G.R. (1995) Red Sea exploration program, Saudi Arabia coastal plain. Saudi Aramco Miscellaneous Report, 1029 (unpublished).
  • 18. Mutti E., Tinterri R., Remacha E., Mavilla N., Angella S., Fava L. (2000) An introduction to the analysis of ancient turbidite basins from an outcrop perspective: Tulsa, Oklahoma. AAPG Continuing Education Course Note Series, 39.
  • 19. Patton T.L., Moustafa A.R., Nelson R.A., Abdine S.A. (1994) Tectonic evolution and stratigraphic setting of the Suez rift. AAPG Special Publication, 59: 7-55.
  • 20. Sohn Y.K., Kim. S.B., Hwang I.G., Bahk J.J., Choe M.Y., Chough S.K. (1997) Characteristics and depositional processes of large-scale gravelly Gilbert type foresets in the Miocene Doumsan fan delta, Pohang basin, SE Korea. Journal of Sedimentary Research, 67: 130-141.
  • 21. Stern R.J. (1985) The Najd Fault System, Saudi Arabia and Egypt: a late Precambrian rift related transform system? Tectonophysics, 4 (5): 497-511.
  • 22. Van Wagoner J.C., Mitchum R.M., Campion K.M., Rahmanian V.D. (1990) Siliciclastic sequence stratigraphy in well logs, cores, and outcrops. AAPG Methods in Exploration Series, 7.
  • 23. Wilgus C.K., Hastings B.S., Kendall C.G., Posamentier H.W., Ross A., van Wagoner J.C. (1988) Sea level changes: an integrated approach. SEPM Special Publication, 42.
  • 24. Worden R.H., Morad S. (2003) Clay minerals in sandstones: controls on formation distribution and evolution. IAS Special Publications, 34: 3-41.
  • 25. Young M.J., Gawthorpe R.L., Sharp I.R. (2000) Sedimentology and sequence stratigraphy of a transfer zone coarse-grained fan delta, Miocene Suez Rift, Egypt. Sedimentology, 47: 1081-1104.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1454d80a-01e2-49a3-ac96-99b1882375eb
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