Migration–aggradation history and 3-D seismic geomorphology of submarine channels in the Pleistocene Benin-major Canyon, western Niger Delta slope
Tóm tắt
Từ khóa
Tài liệu tham khảo
Abreu, 2003, Architectural analysis of sinuous, erosionally confined channels: the under-appreciated deepwater channel type, Marine and Petroleum Geology, 20, 631, 10.1016/j.marpetgeo.2003.08.003
Allen, 1964, The Nigerian continental margin: bottom sediments, submarine morphology and geological evolution, Marine Geology, 1, 289, 10.1016/0025-3227(64)90018-0
Allen, 1965, Late Quaternary Niger Delta and adjacent areas: sedimentary environments and lithofacies, Bulletin of the AAPG, 49, 547
Babonneau, N., Savoye, B., Cremer, M., Bez, M., 2004. Mutliple terraces within the deep incised Zaire Valley (ZaiAngo Project): are they confined levees? In: Lomas, S.A., Joseph, P. (Eds.), Geological Society Special Publications, vol. 222, pp. 91–114.
Babonneau, 2002, Morphology and architecture of the present canyon and channel system of the Zaire deep-sea fan, Marine and Petroleum Geology, 19, 445, 10.1016/S0264-8172(02)00009-0
Chapin, 2002, Integrated seismic and subsurface characterization of Bonga Field, offshore Nigeria, The Leading Edge, 21, 1125, 10.1190/1.1523745
Clark, 1996
Cohen, 1996, Sedimentation and shale tectonics of the northwestern Niger Delta front, Marine and Petroleum Geology, 13, 313, 10.1016/0264-8172(95)00067-4
Damuth, 1994, Neogene gravity tectonics and depositional processes on the Niger delta continental margin, Marine and Petroleum Geology, 11, 320, 10.1016/0264-8172(94)90053-1
Davies, 2003, Kilometer-scale fluidization structures formed during early burial of a deep-water slope channel on the Niger Delta, Geology, 31, 949, 10.1130/G19835.1
Deptuck, M.E., 2003. Post-rift geology of the Jeanne d’Arc basin, with a focus on the early Paleogene submarine fans and insights from modern deep-water systems. Unpublished Ph.D. Thesis, Dalhousie University, Halifax, Nova Scotia, Canada, 369p.
Deptuck, 2003, Architecture and evolution of upper fan channel-belts on the Niger Delta slope and in the Arabian Sea, Marine and Petroleum Geology, 20, 649, 10.1016/j.marpetgeo.2003.01.004
De Ruig, 2006, Seismic facies and reservoir characteristics of a deep-marine channel belt in the Molasse foreland basin, Puchkirchen Formation, Austria, AAPG Bulletin, 90, 735, 10.1306/10210505018
Dixon, B.T., 2003. Slope channel morphology and depositional controls: the Pleistocene–Holocene Niger Delta slope as an analog for ancient slope systems. In: Abstract, AAPG Annual Meeting 2003.
Doust, H., Omatsola, E., 1989. Niger Delta. In: Edwards, J.D., Santogrossi, P.A. (Eds.), Divergent/Passive Margin Basins. AAPG Memoir 48, pp. 201–238.
Estrada, 2005, Quantitative study of a Magdalena submarine channel (Caribbean Sea): implications for sedimentary dynamics, Marine and Petroleum Geology, 22, 623, 10.1016/j.marpetgeo.2005.01.004
Gay, A., Lopez, M., Cochonat, P., Sultan, N., Cauquil, E., Brigaud, F., 2003. Sinuous pockmark belt as indicator of a shallow buried turbiditic channel on the lower slope of the Congo Basin, West African Margin. In: Van Rensbergen, P., Hillis, R.R., Maltman, A.J., Morley, C.K. (Eds.), Subsurface Sediment Mobilization, Geological Society of London, Special Publication, vol. 216, pp. 173–189.
Gee, 2006, Submarine channels controlled by salt tectonics: examples from 3D seismic data offshore Angola, Marine and Petroleum Geology, 23, 443, 10.1016/j.marpetgeo.2006.01.002
Heiniö, P., Davies, R. J., this volume. Knickpoint migration in submarine channels in response to fold growth, western Niger Delta. Marine and Petroleum Geology, doi:10.1016/j.marpetgeo.2006.09.002.
Hovland, 1997, Gas hydrate and free gas volumes in marine sediments: examples form the Niger Delta front, Marine and Petroleum Geology, 14, 245, 10.1016/S0264-8172(97)00012-3
Kassem, 2004, Three-dimensional modeling of density current: II. Flow in sinuous confined and unconfined channels, Journal of Hydraulogical Research, 42, 591, 10.1080/00221686.2004.9628313
Kastens, 1985, Depositional processes of a meandering channel on Mississippi fan, AAPG Bulletin, 69, 190
Keevil, 2006, Flow structure in sinuous submarine channels: velocity and turbulence structure of an experimental submarine channel, Marine Geology, 229, 241, 10.1016/j.margeo.2006.03.010
Kneller, 2003, The influence of flow parameters on turbidite slope channel architecture, Marine and Petroleum Geology, 20, 901, 10.1016/j.marpetgeo.2003.03.001
Kolla, 2001, Evolution of deep-water Tertiary sinuous channels offshore Angola (west Africa) and implications for reservoir architecture, AAPG Bulletin, 85, 1373
Lastras, 2004, Characterisation of the recent BIG’95 debris flow deposit on the Ebro margin, Western Mediterranean Sea, after a variety of seismic reflection data, Marine Geology, 213, 235, 10.1016/j.margeo.2004.10.008
Milliman, 1983, World-wide delivery of river sediment to the oceans, Journal of Geology, 91, 1, 10.1086/628741
Mayall, M., Stewart, I., 2000. The architecture of turbidite slope channels. In: Weimer, P., Slatt, R.M., Coleman, J., Rosen, N.C., Nelson, H., Bouma, A.H., Styzen, M.J., Lawrence, D.T. (Eds.), Deep-water Reservoirs of the World: GCSSEPM Foundation 20th Annual Research Conference, pp. 578–586.
Mohrig, D., Straub, K.M., Buttles, J., McElroy, B., Pirmez, C., 2006. Sedimentation patterns in zones of flow separation along the inner banks of bends in submarine channels. In: Abstract, Annual Meeting of the AAPG, Houston, TX.
Morley, 1996, Comparison of gravity-driven deformation styles and behavior associated with mobile shales and salt, Tectonics, 15, 1154, 10.1029/96TC01416
Mulder, 1995, Turbidity currents generated at river mouths during exceptional discharges to the world oceans, Journal of Geology, 103, 285, 10.1086/629747
Normark, W.R., Piper, D.J.W., 1991. Initiation processes and flow evolution of turbidity currents: implications for the depositional record. In: From shoreline to abyss. SEPM Special Publication No. 46, pp. 207–230.
Peakall, 2000, A process model for the evolution, morphology, and architecture of sinuous submarine channels, Journal of Sedimentary Research, 70, 434, 10.1306/2DC4091C-0E47-11D7-8643000102C1865D
Pickering, 1995, Architectural element analysis of turbidite systems, and selected topical problems for sand-prone deep-water systems, 1
Pirmez, C., 1994. Growth of a submarine meandering channel-levee system on the Amazon Fan. Unpublished Ph.D. Thesis, Columbia University, New York, 587p.
Pirmez, C., Beaubouef, R.T., Friedmann, S.J., Mohrig, D.C., 2000. Equilibrium profiles and baselevel in submarine channel: Examples from Late Pleistocene systems and implications for the architecture of deepwater reservoirs. In: Weimer, P., Slatt, R.M., Coleman, J., Rosen, N.C., Nelson, H., Bouma, A.H., Styzen, M.J. Lawrence, D.T. (Eds.), Deep-water Reservoirs of the World: GCSSEPM Foundation 20th Annual Research Conference, pp. 782–805.
Posamentier, 2003, Depositional elements associated with a basin floor channel–levee system: case study from the Gulf of Mexico, Marine and Petroleum Geology, 20, 677, 10.1016/j.marpetgeo.2003.01.002
Posamentier, 2003, Seismic geomorphology and stratigraphy of depositional elements in deep-water settings, Journal of Sedimentary Research, 73, 367, 10.1306/111302730367
Roden, 1999, The significance of phase to the interpreter: practical guidelines for phase analysis, The Leading Edge, 18, 774, 10.1190/1.1438375
Saugy, 2003, Fifty years of exploration in the Niger Delta (West Africa), AAPG Bulletin, 78, 211
Schwenk, 2005, The architecture and evolution of the Middle Bengal Fan in vicinity of the active channel–levee system imaged by high-resolution seismic data, Marine and Petroleum Geology, 22, 637, 10.1016/j.marpetgeo.2005.01.007
Sheriff R.E., 1977. Limitations on resolution of seismic reflections and geologic detail derivable from them. In: Seismic Stratigraphy—Application to Hydrocarbon Exploration. AAPG Memoir 26, pp. 3–14.