澳大利亚北卡那封盆地层序地层特征及对海平面变化的响应
|
摘要
澳大利亚西北大陆架北卡那封盆地上渐新统至中中新统以碳酸盐岩沉积为主偶夹碎屑岩,其地层整体特点从东南陆架向西北斜坡前积叠置。因此,该前积斜坡地层成为本论文研究的重点。
利用三维地震资料、测井、岩心、古生物及古海深等资料,识别6个三级层序界面,划分5个三级层序(SQ1-SQ5)。在建立层序格架的基础上,分析了层序的内部反射特征、外部几何形态及特殊地质现象的发育,研究各层序的沉积中心迁移规律,其沉积中心主要沿北西方向迁移。
以不同学者对碳酸盐岩台地沉积相模式为指导,分析本工区钻测井地震等资料,总结了北卡那封盆地目的层沉积相模式:从南东陆地向北西盆地依次为碳酸盐台地缓坡相、斜坡相至浅海盆地相。其中碳酸盐台地缓坡相又被分为内缓坡亚相、中缓坡亚相及外缓坡亚相;斜坡相被分为前缘斜坡亚相和斜坡脚亚相。利用钻井资料建立了沉积相纵向演变序列,根据地震相各参数的变化分析了沉积相的横向展布规律,并进而恢复了不同层序沉积相平面展布。
依据Vail等(1977)利用滨岸上超变化制作相对海平面变化曲线的方法,编制了相对海平面变化曲线。将该海平面相对变化曲线与Moss等(2004)利用古生物资料制作古海深曲线对比,表现出良好的一致性。从相对海平面变化曲线看出,层序SQ2和SQ3下部形成于海平面相对下降期,层序SQ3上部和SQ4形成于海平面相对上升期。在海平面相对下降期,层序SQ2内发育的小型沟谷可能是压实作用下流体溢出侵蚀形成的;层序界面SB3和上覆地层在外大陆架处发育丘形体,该丘形体代表生物建隆。SQ4虽然发育于海平面相对上升期,但其内部包括多个次级海平面升降旋回。层序界面SB4位于海平面相对下降期,发育台阶状不连续面,被认为是海平面或附近的波浪侵蚀作用形成的被埋藏并被保存的海岸悬崖。SQ5层序发育于中中新世-晚中新世时期,为气候干燥期,海平面相对较低、古海深度较浅,层序内部发育的下切侵蚀现象可能是沿前积方向的重力流和沿走向的等深环流共同作用形成的。
The strata of late Oligocene to mid Miocene are dominated by carbonate sediment and interbeded clastic sediment in Northern Carnavon Basin, North West of Australia. The character of the strata is progradational clinoform sediment from southeast to northwest. The progradational clinoform sediment is considered as a very good model to investigate the relationship between sedimentary system and relative sea level change.
Based on thred dimensional seismic data, well log data, well core data, paleontology and paleobathemetry, we recognized 6 third-order sequence boundaries (5 third order sequences: SQ1-SQ5) and 21 four-order sequence boundaries. We analyzed the the character of each sequence, including inner reflection, geometry and special geological phenomena. Then we generated TWT isopach maps of each sequence and depict the depocenter of each sequence. All sequences exhibit strike-oriented depocenters prograding northwest.
We apply seismic attributes extraction techniques to trace the boundaries of different lithology and facies, and also use seismic data and well data to construct the sedimentary facies distribution maps. From southeast to northwest, sediment facies of objective area are divided into carbonate platform ramp face, carbonate platform margin face and shallow sea basin face. Carbonate platform ramp face is divided into inner ramp sub-face, middle ramp sub-face and outer ramp sub-face. Carbonate platform margin face is divided into front of clinoform sub-face and toe of clinoform sub-face.
According to the method of making relative sea level change chart from Vail et al. (1977), we chose one seismic profile to build sea level relative chage curve. The chart shows relative sea level is low in SQ2 and the lower part of SQ3, but high in the higher part of SQ3 and SQ4. Then we compare this relative sea level change curve to the paleobathymetry of G7. The trend of these two curves mathced generally well except some parta. The relative sea level change chart can help us to understand the mechanism of developing of geological phenomena on sequence boundaries.
During the falling period of relative sea level, small gullies developed during SQ2. We propose that water derived from compaction can cause such features. The mounds grew on SB3 and overlying strata may represent biogenic buildups. Although SQ4 developed during the rising period of relative sea level, this sequence had several short term relative rise and fall cycles. From the chart, we observed that SB4 located in relative sea level fall period. The step-like discontinuity on SB4 stands for a rare example of a buried and preserved sea cliff, generated by wave erosion at ambient sea level. SQ5 was in the period of relative sea level fall and shallow paleobethmetry. We suggest that incisions in SQ5 may indicate two geological effects caused this phenomenon: gravity flow along progradation direction and contour current along strike orientation.
利用三维地震资料、测井、岩心、古生物及古海深等资料,识别6个三级层序界面,划分5个三级层序(SQ1-SQ5)。在建立层序格架的基础上,分析了层序的内部反射特征、外部几何形态及特殊地质现象的发育,研究各层序的沉积中心迁移规律,其沉积中心主要沿北西方向迁移。
以不同学者对碳酸盐岩台地沉积相模式为指导,分析本工区钻测井地震等资料,总结了北卡那封盆地目的层沉积相模式:从南东陆地向北西盆地依次为碳酸盐台地缓坡相、斜坡相至浅海盆地相。其中碳酸盐台地缓坡相又被分为内缓坡亚相、中缓坡亚相及外缓坡亚相;斜坡相被分为前缘斜坡亚相和斜坡脚亚相。利用钻井资料建立了沉积相纵向演变序列,根据地震相各参数的变化分析了沉积相的横向展布规律,并进而恢复了不同层序沉积相平面展布。
依据Vail等(1977)利用滨岸上超变化制作相对海平面变化曲线的方法,编制了相对海平面变化曲线。将该海平面相对变化曲线与Moss等(2004)利用古生物资料制作古海深曲线对比,表现出良好的一致性。从相对海平面变化曲线看出,层序SQ2和SQ3下部形成于海平面相对下降期,层序SQ3上部和SQ4形成于海平面相对上升期。在海平面相对下降期,层序SQ2内发育的小型沟谷可能是压实作用下流体溢出侵蚀形成的;层序界面SB3和上覆地层在外大陆架处发育丘形体,该丘形体代表生物建隆。SQ4虽然发育于海平面相对上升期,但其内部包括多个次级海平面升降旋回。层序界面SB4位于海平面相对下降期,发育台阶状不连续面,被认为是海平面或附近的波浪侵蚀作用形成的被埋藏并被保存的海岸悬崖。SQ5层序发育于中中新世-晚中新世时期,为气候干燥期,海平面相对较低、古海深度较浅,层序内部发育的下切侵蚀现象可能是沿前积方向的重力流和沿走向的等深环流共同作用形成的。
The strata of late Oligocene to mid Miocene are dominated by carbonate sediment and interbeded clastic sediment in Northern Carnavon Basin, North West of Australia. The character of the strata is progradational clinoform sediment from southeast to northwest. The progradational clinoform sediment is considered as a very good model to investigate the relationship between sedimentary system and relative sea level change.
Based on thred dimensional seismic data, well log data, well core data, paleontology and paleobathemetry, we recognized 6 third-order sequence boundaries (5 third order sequences: SQ1-SQ5) and 21 four-order sequence boundaries. We analyzed the the character of each sequence, including inner reflection, geometry and special geological phenomena. Then we generated TWT isopach maps of each sequence and depict the depocenter of each sequence. All sequences exhibit strike-oriented depocenters prograding northwest.
We apply seismic attributes extraction techniques to trace the boundaries of different lithology and facies, and also use seismic data and well data to construct the sedimentary facies distribution maps. From southeast to northwest, sediment facies of objective area are divided into carbonate platform ramp face, carbonate platform margin face and shallow sea basin face. Carbonate platform ramp face is divided into inner ramp sub-face, middle ramp sub-face and outer ramp sub-face. Carbonate platform margin face is divided into front of clinoform sub-face and toe of clinoform sub-face.
According to the method of making relative sea level change chart from Vail et al. (1977), we chose one seismic profile to build sea level relative chage curve. The chart shows relative sea level is low in SQ2 and the lower part of SQ3, but high in the higher part of SQ3 and SQ4. Then we compare this relative sea level change curve to the paleobathymetry of G7. The trend of these two curves mathced generally well except some parta. The relative sea level change chart can help us to understand the mechanism of developing of geological phenomena on sequence boundaries.
During the falling period of relative sea level, small gullies developed during SQ2. We propose that water derived from compaction can cause such features. The mounds grew on SB3 and overlying strata may represent biogenic buildups. Although SQ4 developed during the rising period of relative sea level, this sequence had several short term relative rise and fall cycles. From the chart, we observed that SB4 located in relative sea level fall period. The step-like discontinuity on SB4 stands for a rare example of a buried and preserved sea cliff, generated by wave erosion at ambient sea level. SQ5 was in the period of relative sea level fall and shallow paleobethmetry. We suggest that incisions in SQ5 may indicate two geological effects caused this phenomenon: gravity flow along progradation direction and contour current along strike orientation.
引文
AGSO North West Shelf Study Group, 1994. Deep reflections on the North West Shelf: changing perceptions of basin formation. In: Purcell, P.G., Purcell, R.R. (Eds.), The sedimentary Basins of Western Australia: Proceedings of Petroleum Exploration Society Australia Symposium, Perth, pp. 63-76.
Apthorpe, M., 1988. Cainozoic Depositional History of the North West Shelf. In: Purcell, P.G., and Purcell, R.R. (Eds.), The North West Shelf, Australia: Proceedings of Petroleum Exploration Society Australia Symposium, Perth, pp. 55-84.
Apthorpe, M., 1979. Paleoenvironmental analysis of the Brigadier-1 well based on Foraminifera: Unpublished Report.
Armstrong, A. K.., 1974. Carbonate Depositional Models, Preliminary Lithofacies and Paleotectonic Maps, Arctic Alaska. American Association of Petroleum Geologists Bulletin 58, 621-645.
Austin, J.A., Jr., Schlager W., and Comet P., et al., 1985. Proceedings of the Ocean Drilling Program, Volume 101. Scientific Results, Bahamas: College Station, TX.
Austin, J.A., Jr., Christie-Blick N., and Malone M. J., et al., 1998, Proceedings of the Ocean Drilling Program, Volume 174A. Initial Reports, continuing the New Jersey mid-Atlantic sea-level transect: College Station, TX.Bal, A.A., 1996. Valley fills and coastal cliffs buried beneath an alluvial plain; evidence from variation of permeabilities in gravel aquifers, Canterbury plains, New Zealand. Journal of Hydrology 35, 1-27.
Ballard, R.D., Coleman, D.F., Rosenberg, G.D., 2000. Further evidence of abrupt Holocene drowning of the Black Sea shelf. Marine Geology 170, 253-261.
Berggren, W.A., Kent, D.V., Swisher, C.C., Aubry, M.P., 1995. A revised Cenozoic geochronology and chronostratigraphy. In: Berggren, W.A., Kent, D.V., Aubry, M.-P., Hardenbol, J. (Eds.), Geochronology, Time Scales and Global Stratigraphic Correlations: A Unified Temporal Framework for an Historical Geology, Special Society of Economic Paleontologists and Mineralogists 54, pp. 129-212.
Boote, D.R.D., Kirk, R.B., 1989. Depositional wedge cycles on an evolving plate margin, western and northwestern Australia. American Association of Petroleum Geologists Bulletin 73, 216-243.
Brown A R., 1996. Seismic attributes and their classification. The Leading Edge, 15(10):1090.
Butcher, B.P., 1989. Northwest Shelf of Australia, in J.D. Edwards and P.A. Sangrossi, eds., Divergent/passive margin basins: American Association of Petroleum Geologists, Memoir 48, 81-115.
Cannon, S.H., Ellen, S.D., Graham, S.E., Graymer, R.W., Hampton, M.A., Hillhouse, J.W., Howell, D.G., Jayko, A.S., LaHusen, R.L., Lajoie, K.R., Pike, R.J., Ramsey, D.W., Reid, M.E., Richmond, B.M., Savage, W.Z., Wentworth, C.M., Wilson, R.C., 1998. Slope failure and shoreline retreat during Northern California’s latest EI Nino. GSA Today 8, 1-6.
Cartwright, J.A., Jackson, M.P.A., 2008. Initiation of gravitational collapse of an evaporite basin margin: The Messinian saline giant, Levant Basin, eastern Mediterranean. Geological Society of America Bulletin 120, 399-413.
Cathro, D.L., Austin, J.A., 2001. An early mid-Miocene, strike-parallel shelfal trough and possible karstification in the Northern Carnarvon Basin, northwest Australia. Marine Geology 178, 157-169.
Cathro, D.L., 2002. Three Dimensional Stratal Development of a Carbonate-Siliciclastic Sedimentary Regime, Northern Carnarvon Basin, Northwest Australia. Dissertation thesis, The University of Texas at Austin, Austin, Texas.
Cathro, D.L., Austin Jr., J.A., Moss, G.D., 2003. Progradation along a deeply submerged Oligocene-Miocene heterozoan carbonate shelf; how sensitive are clinoforms to sea level variations? American Association of Petroleum Geologists Bulletin 87, 1547-1574.
Cathro, D.L., Karner, G., 2006. Cretaceous–Tertiary inversion history of the Dampier Subbasin, northwest Australia: Insights from quantitative basin modelling. Marine and Petroleum Geology 23, 503-526.
Chaproniere, G.C.H., 1975. Paleoecology of Oligo-Miocene larger foraminifera, Australia. Alcheringa 1, 37-58.
Chaproniere, G.C.H., 1984. Oligocene and Miocene Larger Foraminiferida from Australia and New Zealand. Bulletin– Australia, Bureau of Mineral Resources, Geology and Geophysics 188, 98.
Chen Q, Sidney S., 1997. Seismic attribute technology for reservoir forecasting and monitoring. The Leading Edge 16(5):445- 456.
Clapp, F.G., 1925. A few observations on the geology and geography of North-West and Desert Basins, Western Australia. Proceedings of the Linnean Society of New South Wales 50, 47-66.
Condon, M.A., Johnstone, D., Perry, W.J.,Crespin, I., 1955. The Cape Range Structure. Bulletin– Australia, Bureau of Mineral Resources, Geology and Geophysics 21, 86.
Condon, M.A., 1968. The geology of the Carnarvon Basin, Western Australia; part 3, Post-Permian stratigraphy, structure, economic geology. Bulletin– Australia, Bureau of Minearal Resources, Geology and Geophysics 77, 68.
Davies, P.J., Symonds P.A., Feary D.A., and Pigram C.J., 1989. The evolution of the carbonate platforms of northeast Australia, in P. D. Crevello, J. J. Wilson, J. F. Sarg, and J. F. Read, eds., Controls on carbonate platform and basin development., Society of Economic Paleontologists and Mineralogists, Special Publication 44, pp. 233 - 258.
Driscoll, N.W., Karner, G.D., 1996. Tectonic and stratigraphic evolution of the Carnarvon Basin, Northwest Australia. Minerals and Energy Research Institute of Western Australia Special Publication 170, 153.
Driscoll, N.W., Karner, G.D., 1998. Lower crustal extension across the Northern Carnarvon basin, Australia: Evidence for an eastward dipping detachment. Journal of Geophysical Research 103, 4975-4992.
Dugan, B. and P.B. Flemings, 2001. Overpressure and fluid flow in the New Jersey continental slope: Implications for slope failure and cold seeps. Science, 289, 288-291.
Eberli, G., and Ginsberg R.N., 1989. Cenozoic progradation of northwestern Great Bahamas Bank, a record of lateral platform growth and sea-level fluctuations., in P.D. Crevello, J.J. Wilson, J.F. Sarg, and J.F. Read, eds., Controls on carbonate platform and basin development, Society of Economic Paleontologists and Mineralogists, Special Publication 44, 339-351.
Etheridge, M.A., and O'Brien G.W., 1994. Structural and tectonic evolution of the Western Australian margin basin system: Australian Petroleum Exploration Association Journal 34, 906-908.
Farre, J.A., B.A. McGregor, W.B.F. Ryan, and J.M. Robb, 1983. Breaching the shelfbreak: passage from youthful to mature phase in submarine canyon evolution: Society of Economic Paleontologists and Mineralogists Special Publication, 33, 25-39.
Faugères, J-C., D.A.V. Stow, P. Imbert, and A. Viana, 1999. Seismic features diagnostic of contourite drifts: Marine Geology, 162, 1-38.
Feary, D.A., James, N.P., 1995. Cenozoic biogenic mounds and buried Miocene (?) barrier reef on a predominantly cool-water carbonate continental margin-Eucla basin, western Great Australian Bight. Geology 23, 427-430.
Field, M.E., Gardner, J.V., Jennings, A.E., Edwards, B.D., 1982. Earthquake- induced sediment failure on a 0.25°slope, Klamath River delta, California. Geology 10, 542-546.
Flügel, E., 2004. Microfacies of carbonate rocks: analysis, interpretation and application. Springer-Verlag, New York.
Fulthorpe, C.S., Schlanger, S.O., 1989. Paleo-Oceanographic and tectonic settings of early Miocene reefs and associated carbonates of offshore southeast Asia. American Association of Petroleum Geologists Bulletin 73, 729-756.
Fulthorpe, C.S. and R.M. Carter, 1991, Continental-shelf progradation by sediment-drift accretion: Geological Society of America Bulletin 103, 300-309.
Fulthorpe, C.S., and J.A. Austin, Jr., 1998. Anatomy of rapid margin progradation: three-dimensional geometries of Miocene clinoforms, New Jersey margin: American Association of Petroleum Geologists, Bulletin 82, 251-273.
Fulthorpe, C.S., J.A. Austin, Jr., and G.S. Mountain, 1999. Buried fluvial channels off New Jersey; did sea-level lowstands expose the entire shelf during the Miocene?: Geology (Boulder) 27, 203 - 206.
Fulthorpe, C.S., Austin, J.A., Mountain, G.S., 2000. Morphology and distribution of Miocene slope incisions off New Jersey: Are they diagnostic of sequence boundaries? Geological Society of America Bulletin 112, 817-828.
Fulthorpe, C.S., Austin, J.A., Lavier L., Kerans C., Bradshaw M., Exon N., Cathro D. L., Howe R., Marshall N., 2005. North West Shelf, Australia: the next step in the global approach to understanding the role of eustasy in the generation and preservation of stratigraphy, Drilling Proposal 667-Full, Integrated Ocean Drilling Program..
Galloway, W., 1989. Genetic stratigraphic sequences in basin analysis I: Architecture and genesis of flooding-surface bounded depositional units: American Association of Petroleum Geologists, Bulletin 73(2), 125- 142.
Greenlee, S.M., Devlin W.J., Miller K.G., Mountain G.S., and Flemings P.B., 1992. Integrated sequence stratigraphy of Neogene deposits, New Jersey continental shelf and slope: comparison with the Exxon model: Geological Society of America, Bulletin 104, 1403-1411.
Greenlee, S.M., and Moore T.C., 1988. Recognition and interpretation of depositional sequences and calculation of sea level changes from stratigraphic data - offshore New Jersey and Alabama Tertiary, in C.K. Wilgus, B.S. Hastings, C.G.St.C. Kendall, H.W. Posamentier, C.A. Ross, and J.C. van Wagoner, eds., Sea-Level Changes: An Integrated Approach: Society of Economic Paleontologists and Mineralogists Special Publication 42, 329 - 353.
Hampton, M.A., 2002. Gravitational failure of sea cliffs in weakly lithified sediment. Environmental and Engineering Geoscience 8, 175-191.
Hampton, M.A.,Griggs, G.B., 2004. Formation, evolution, and stability of coastal cliffs; status and trends. U.S. Geological Survey Professional Paper 1693, 123.
Haq, B.U., Hardenbol, J., Vail, P.R., 1987. Chronology of fluctuating sea levels since the Triassic. Science 235, 1156-1167.
Haq, B.U., Hardenbol, J.,Vail, P.R., 1988. Mesozoic and Cenozoic chronostratigraphy and eustatic cycles, in: Wilgus, C.K., Hastings, B.S., Kendall, C.G.St.C., Posamentier, H.W., Ross, C.A., Van Wagoner, J.C. (Eds.), Sea-Level Changes: An Integrated Approach. Society of Economic Paleontologists and Mineralogists Special Publication 42, pp. 72-108.
Hardenbol, J., Jacquin, T., Farley, M.B., Graciansky, P.-C.d.,Vail, P.R., 1998. Mesozoic and Cenozoic sequence chronostratigraphic framework of European basins. In: Graciansky, P-C. de, Hardenbol, J., Jacquin, T., Vail, P.R. (Eds.), Mesozoic and Cenozoic sequence stratigraphy of European basins. SEPM Special Publication 60, pp. 3-13.
Heath, R.S., Apthorpe, M.C., 1984. New formation names for the Late Cretaceous and Tertiary sequence of the southern North West Shelf. Record - Geological Survey of Western Australia 7, 39.
Hocking, R.M., Moors, H.T., Graaff, W.J.E.v.d., 1987. Geology of the Carnarvon Basin, Western Australia. Bulletin - Geological Survey of Western Australia 133, 188.
Hull, J.N.F., Griffiths, C.M., 2002. Sequence stratigraphic evolution of the Albian to Recent section of the Dampier Sub-basin, North West Shelf, Australia. In Keep, M., Moss, S.J. (Eds.), The Sedimentary Basins of Western Australia 3: Proceedings of Petroleum Exploration Society of Austrialia Symposium, Perth, pp. 617-639.
Huvenne, V.A.I., Croker, P.F., Henriet, J.-P., 2002. A refreshing 3D view of an ancient sediment collapse and slope failure. Terra Nova 14, 33-40.
Irwin, M. L., 1965. General Theory of Epeiric Clear Water Sedimentation. American Association of Petroleum Geologists Bulletin 49, 445-459.
James, N.P., Feary, D.A., Surlyk, F., Simo, J.A.T., Betzler, C., Holbourn, A.E., Li, Q., Matsuda, H., Machiyama, H., Brooks, G.R., Andres, M.S., Hine, A.C., Malone, M.J.,Party, O.D.P.L.S., 2000. Quaternary bryozoan reef mounds in cool-water, upper slope envireonments: Great Australian Bight. Geology 28, 647-650.
Kaiko, A.R. and A.M. Tait, 2001, Post-rift tectonic subsidence and palaeo-water depths in the Northern Carnarvon Basin, Western Australia: The Australian Petroleum Production and Exploration Association (APPEA) Journal 41(1), 367-380.
Kalkomey C T., 1997. Potential risks when using seismic attributes as predictors of reservoir properties. The Leading Edge, 16(3):1553-1561.
Keep, M., Powell, C.M., Baillie, P.W., 1998. Neogene deformation of the North West Shelf, Australia. In: Purcell, P. G., Purcell, R. R. (Eds.), The Sedimentary Basins of WesternAustralia 2: Proceedings of Petroleum Exploration Society of Australia Symposium, Perth, pp. 81-91.
Labaume, P., Mutti, E., Seguret, M., 1987. Megaturbidites; a depositional model from the Eocene of the SW-Pyrenean foreland basin, Spain. Geo-Marine Letters 7, 91-101.
Laporte, L. F., 1967. Carbonate Deposition Near Mean Sea-level and Resultant Facies Mosaic:Manlius Formation (Lower Devonian) of New York State. American Association of Petroleum Geologists Bulletin 51, 73-101.
Lawver, L.A., Coffin M.F., Dalziel I.W.D., Gahagan L.M., and Schmitz R.M., 1999. The Plates 1999 Atlas of Paleogeographic Reconstructions (Plates Progress Report No. 235): University of Texas Institute for Geophysics Technical Report No. 187, pp. 84.
Lee, T.Y., Lawver, L.A., 1995. Cenozoic plate reconstruction of Southeast Asia. Tectonophysics 251, 85-138.
Lees, A., 1975. Possible influence of salinity and temperature on modern shelf carbonate sedimentation. Marine Geology 19, 159-198.
Longley, I.M., Buessenschuett, C., Clydsdale, L., Cubitt, C.J., Davis, R.C., Johnson, M.K., Marshall, N.M., Murray, A.P., Somerville, R., Spry, T.B., Thompson, N.B., 2002. The North West Shelf of Australia - a Woodside Perspective. In: Keep, M., Moss, S.J. (Eds.), The Sedimentary Basins of Western Australia 3: Proceedings Petroleum Exploration Society of Australia Symposium, Perth, pp. 27-88.
Malcolm, R.J., Pott, M.C., Delfos, E., 1991. A new tectonostratigraphic synthesis of the North West Cape area. Australian Petroleum Exploration Association Journal 31, 154-176.
McGowran, B., 1979. The Tertiary of Australia: foraminiferal overview. Marine Micropaleontology 4, 235-264.
McGowran, B., and Q. Li, 1996, Ecostratigraphy and sequence biostratigraphy, with a neritic foraminiferal example from the Miocene in southern Australia: Historical Biology, v. 11, p. 136-169.
McGowran, B., Li, Q., Cann, J., Padley, D., McKirdy, D.M.,Shafik, S., 1997. Biogeographic impact of the Leeuwin Current in southern Australia since the late middle Eocene. Palaeogeography, Palaeoclimatology, Palaeoecology 136, 19-40.
McKenzie, Davies J., P., and Palmer-Julson A., et al., 1991. Proceedings of the Ocean Drilling Program, Volume 133, Scientific Results, NE Australian Margin: College Station, TX.
Michaud,F., Chabert, A., Collot, J.Y., Sallares, V., 2005. Fields of multi-kilometer scale sub-circular depressions in the Carnegie Ridge sedimentary blanket: Effect of underwater carbonate dissolution? Marine Geology, 216(1): 205-219.
Moss, G.D., Cathro, D.L., Austin Jr., J.A., 2004. Sequence biostratigraphy of prograding clinoforms, Northern Carnarvon Basin, western Australia: a proxy for variations in Oligocene to Pliocene global sea level? Palaios 19, 206-226.
Mountain, G.S., Miller K.G., and Blum P., et al., 1993. Proceedings of the Ocean Drilling Program, Volume 150, Scientific Results, New Jersey Continental Slope and Rise: College Station, TX. Mullins, H.T., K.C. Heath, M. van Buren, and C.R. Newton, 1984. Anatomy of a modern open ocean carbonate slope:northern Little Bahama Bank: Sedimentology, 31, 141 - 168.
Mullins, H.T., Cook, H.E., 1986. Carbonate apron models: Alternatives to the submarine fan model for paleoenvironment analysis and hydrocarbon exploration. Sedimentary Geology 48, 37-79.
Nelson, C.S., 1978. Temperate shelf carbonate sediments in the Cenozoic of New Zealand. Sedimentology 25, 737-771.
Nelson, C.S., 1988. An introductory perspective on non-tropical shelf carbonates. Sedimentary Geology 60, 3-14.
Newman, S., 1994. Clues to the structural history of the Rankin Trend, from 3-D seismic data: The Sedimentary Basins of Western Australia, Proceedings of Petroleum Exploration Society of Australia Symposium, 497-507.
O’Brien, G.W., Etheridge, M.A., Willcox, J.B., Morse, M., Symonds, P., Norman, C. and Needham, D.J., 1993. The structural architecture of the Timor Sea, north-western Australia: implications for basin development and hydrocarbon exploration. The Australian Petroleum Exploration Association (APEA) Journal 33(1), 258-278.
Paton, D.A., van der Spuy, D., di Primio, R.,Horsfield, B., 2008. Tectonically induced adjustmentof passive-margin accommodation space; influence on the hydrocarbon potential of the Orange Basin, South Africa. American Association of Petroleum Geologists Bulletin 92, 589-609.
Pigram, C.J., Davies, H.L., 1987. Terranes and accretion history of the New Guinea orogen. Bulletin– Australian, Bureau of Mineral Resources, Geology and Geophysics 10, 193-211.
Posamentier, H.W., Jervey M.T., and Vail P.R., 1988. Eustatic controls on clastic deposition I - Conceptual framework, in C.K. Wilgus, B.S. Hastings. C.G.St.C. Kendall, H.W. Posamentier, C.A. Ross, J.C. van Wagoner, eds., Sea level changes - An integrated approach: Society of Economic Paleontologists and Mineralogists Special Publication 42, 109 - 124.
Pratson,L.F., Ryan, W.B.F., Mountain, G.S., Twichell, D.C., 1994. Evidence in late Cenozoic strat on the New Jersey continental slope: Geological Society of America Bulletin, 106(3): 395-412.
Pratson, L.F., and B.J. Coakley, 1996, A model for the headward erosion of submarine canyons induced by downslope-eroding sediment flows: Geological Society of America Bulletin, 108(2): 225-234.
Purcell, P.G., and Purcell R.R., 1994. The sedimentary basins of Western Australia: an introduction.: The Sedimentary Basins of Western Australia, Proceedings of Petroleum Exploration Society of Australia Symposium, pp. 3-18.
Purdy, E.G., 1974. Reef configurations: cause and effect. In: Laporte, L.F. (Eds.), Reefs in time and space: selected examples from the recent and ancient, Special publication– Society of Economic Paeontologists and Mineralogists 18, pp. 9-76.
Purdy, E.G., Bertram G.T., 1993. Carbonate concepts from the Maldives, Indian Ocean. American Association of Petroleum Geologists Studies in Geology 34, Tulsa, Oklahoma, U.S.A., pp.7-55.
Rader, B., Medvin, E., 2002. Shallow hazard detection in the near surface, a coherence cube processing application. The Leading Edge 21, 672-674.
Rasidi, J.S., 1995. Depositional sequence of the Withnell Formation, Dampier Sub-basin. Australian Petroleum Exploration Association Journal 35, 296-306.
Read, J.E., 1985. Carbonate platform facies models. American Association of Petroleum Geologists Bulletin 69, 1-21.
Richardson, A.N., Blundell, D.J., 1996. Continental collision in the Banda Arc. In: Hall R., Blundell (Eds.), Tectonic evolution of Southeast Asia. Geological Society, London, Special Publications 106, pp. 47-60.
Romine, K.K., Durrant, J.M., Cathro, D.L., Bernardel, G., 1997. Petroleum Play Element Prediction for the Cretaceous-Tertiary Basin Phase, Norhtern Carnarvon Basin. Australian Petroleum Production and Exploration Association Journal 37, 315-339.
Ryan, W.B.F., Pitman, W.C., Major, C.O., Shimkus, K., Moskalenko, V., Jones, G.A., Dimitrov, P., Gorur, N., Sakinc, M.,Yuce, H., 1997. An abrupt drowning of the Black Sea shelf. Marine Geology 138, 119-126.
Schuster, M.W., Eaton, S., Wakefield, L., Kloosterman, H.J., 1998. Neogene tectonics, Greater Timor Sea, offshore Australia: Implication for trap risk. Australian Petroleum Production and Exploration Association Journal 38, 351-379.
Sengor, A.M.C., 1987. Tectonics of the Tethysides: orogenic collage development in a collisional setting. Annual Review of Earth and Planetary Sciences 15, 213-244.
Shaw, A. B., 1964. Time in Strratigraphy: McGraw-Hill Pub. Co., 350.
Shipboard Scientific Party, 2001. Ocean Drilling Program, Leg 194, Preliminary report. Sea Level Magnitudes Recorded by continental margin sequences on the Marion Plateau, Northeast Australia. Available from World Wide Web:.
Spinelli, G.A., Field, M.E., 2001. Evolution of continental slope gullies on the northern California margin, Journal of Sedimentary Research, 71(2):237-245.
Stagg, H.M.J., Colwell, J.B., 1994. The structural foundations of the Northern Carnarvon Basin. In: Purcell, P.G. , Purcell R. R. (Eds.), The Sedimentary Basins of Western Australia: Proceedings of a Petroleum Exploration Society of Australia Symposium. Perth, pp. 349-365.
Steckler, M.S., G.S. Mountain, K.G. Miller, and N. Christie-Blick, 1999. Reconstruction of Tertiary progradation and clinoform development on the New Jersey passive margin by 2-D backstripping.: Marine Geology, 154 (1-4): 399-420.
Stow, D.A.V., and M. Mayall, 2000. Deep-water sedimentary systems: New models for the 21st century: Marine and Petroleum Geology, 17, 125-135.
Struckmeyer, H.I.M., Blevin, J.E., Sayers, J., Totterdell, J.M., Baxter, K., Cathro, D.L., 1998. In: Purcell, P.G., Purcell, R.R. (Eds), Structural evolution of the Browse Basin, North West Shelf: New concepts from deep seismic data. The Sedimentary Basins of Western Australia 2: Proceedings of Petroleum Exploration Society of Australia Symposium, Perth, pp. 345-367.
Swart, P.K., Eberli G.P., and Malone M.J., et al., 1996. Proceedings of the Ocean Drilling Program, Volume 166. Scientific Results, Bahama Transect: College Station, TX.
Symonds, P.A., Collins, C.D.N., Bradshaw, J., 1994. Deep structure of the Browse Basin: Implications for basin development and petroleum exploration. In: Purcell, P. G., Purcell, R. R. (Eds.), The Sedimentary Basins of Western Australia: Proceedings of Petroleum Exploration Society of Australia Symposium, Perth, pp. 315-331.
Tait, A.M., 1985. A depositional model for the Dupuy Member and the Barrow Group in the Barrow Sub-Basin, Northwestern Australia: Australian Petroleum Exploration Association, Journal 25, 282-290.
Tindale, K., N. Newell, J. Keall, and N. Smith, 1998, Structural evolution and charge history of the Exmouth Sub-basin, Northern Carnarvon Basin, Western Australia, in Purcell, P.G., and Purcell, R.R., eds., The sedimentary basins of Western Australia 2: Proceedings of West Australian Basins Symposium (WABS2), Perth, Western Australia, pp. 447-472.
van Buren, H.M., and H.T. Mullins, 1983. Seismic stratigraphy and geological development of an open-ocean carbonate slope; the northern margin of Little Bahama Bank, in R.E. Sheridan, F.M. Gradstein, and L.A. Barnard, et al. Initial reports of the Deep Sea Drilling Project, Leg 76, 749-762.
Vail, P.R., Mitchum, R.M., Thompson, S., 1977. Seismic Stratigraphy and Global Changes of Sea Level, Part 4: Global Cycles of Relative Changes of Sea Level. In: Payton, C.E. (Eds.), Seismic Stratigraphy - Applications to Hydrocarbon Exploration. American Association of Petroleum Geologists Memoir 26, pp. 83-97.
Vail, P.R., 1987. Seismic stratigraphy interpretation using sequence stratigraphy; Part 1, Seismic stratigraphy interpretation procedure. In: Bally, A.W. (Eds.), Atlas of seismic stratigraphy. American Association of Petroleum Geologists Studies in Geology 27, pp. 1-10.
Veevers, J.J., Tayton J.W., Johnson B.D., 1985. Prominent magnetic anomaly along the continental-ocean boundary between the western margin of Australia (Exmouth and Scott plateaus) and the Argo Abyssal Plain: Earth and Planetary Science Letters 72, 415-426.
Veevers, J., Powell, C.M., Roots, S.R., 1991. Review of seafloor spreading around Australia. Australian Journal of Earth Sciiences 38, 373-389.
von Rad, U., Exon, N.F., Haq, B., 1992. Rift to drift history in the Wombat Plateau, Northwest Australia. Triassic to Tertiary Leg 122 results. In: von Rad U., Haq B.U. et al., (Eds.), Proceedings of the Ocean Drilling Program, Scientific Results, 122. College Station, Texas, pp. 765-800.
Westphal, H. and T. Aigner, T., 1997. Seismic stratigraphy and subsidence analysis in the Barrow-Dampier Subbasin, Northwest Australia: American Association of Petroleum Geologists Bulletin 81(10), 1721-1749.
Woodside Offshore Petroleum, 1972a. Goodwyn 3 Well Completion Report.
Woodside Offshore Petroleum, 1972b. Goodwyn 2 Well Completion Report.
Woodside Offshore Petroleum, 1973. Goodwyn 4 Well Completion Report.
Woodside Offshore Petroleum, 1981. Goodwyn 6 Well Completion Report.
Woodside Offshore Petroleum, 1985. Goodwyn 7 Well Completion Report.
Wilson, J. L., 1975. Carbonate facies in Geologic History. Springer-Verlag Berlin Heidelberg New York.
Wynn, R. B., David J. W. Piper, Martin J. R. Gee, 2002. Generation and migration of oarse-grained sediment waves in turbidity current channels and channel–lobe transition zones, Marine Geology 192, 59-78
Yeates, A.N., Bradshaw M.T., Dickens J.M., Brakel A.T., Exon N.F., Langford R.P., Mulholland S.M., Totterdell J.M., and Yeung M., 1987. The Westralian Superbasin: An Australian link with Tethys, in K.G. McKenzie, ed., Shallow Tethys 2: Proceedings of an International Symposium, Shallow Tethys, Wagga Wagga, pp. 199-213.
Young, L. M., L. C. Fiddler, and R. W., Jones, 1972. Carbonate Facies in Ordovician of Northern Arkansas. American Association of Petroleum Geologists Bulletin 56, 68-82.
Zachos, J., Pagamo, M., Sloan, L., Thomas, E.,Billups, K., 2001. Trends, rhythms, and aberrations in global climate 65 Ma to present. Science 292, 686-693.
冯杨伟,屈红军,张功成等.澳大利亚西北陆架中生界生储盖组合特征[J].海洋地质动态,2010,26(6):16-23.
高林,杨勤勇.地震属性技术新进展[J].石油物探,2004,43(s):10- 16.
关士聪等,中国晚元古代至二叠纪海域沉积环境模式探讨[J].石油与大然气地质,1980,1(1):2-17.
李华等,2007.深水大型沉积物波的成因机制,海洋地质动态,2007,23(12):1-7.
李明,候连华.岩性地层油气藏地球物理勘探技术与应用[M].北京:石油工业出版社, 2005
瞿辉,郑民,李建忠等.国外被动陆缘深水油气勘探进展及启示[J].天然气地球科学,2010,21(2):193-200.
孙家振,李兰斌.多信息储层预测和油气判别(原理、方法与应用实例)[M].北京:中国地质大学出版社,1997.
许晓明,于水,骆宗强等.澳大利亚西北大陆架与尼日尔三角洲、坎波斯盆地油气地质条件的对比研究[J].石油实验地质,2010,32(2):28-34.
杨川恒,杜栩,潘和顺等.国外深水领域油气勘探新进展及我国南海北部陆坡深水区油气勘探潜力[J].地学前缘,2000,7(3):247-256.
张建球,钱桂华,郭念发.澳大利亚大型沉积盆地与油气成藏[M].北京:石油工业出版社,2008.
Apthorpe, M., 1988. Cainozoic Depositional History of the North West Shelf. In: Purcell, P.G., and Purcell, R.R. (Eds.), The North West Shelf, Australia: Proceedings of Petroleum Exploration Society Australia Symposium, Perth, pp. 55-84.
Apthorpe, M., 1979. Paleoenvironmental analysis of the Brigadier-1 well based on Foraminifera: Unpublished Report.
Armstrong, A. K.., 1974. Carbonate Depositional Models, Preliminary Lithofacies and Paleotectonic Maps, Arctic Alaska. American Association of Petroleum Geologists Bulletin 58, 621-645.
Austin, J.A., Jr., Schlager W., and Comet P., et al., 1985. Proceedings of the Ocean Drilling Program, Volume 101. Scientific Results, Bahamas: College Station, TX.
Austin, J.A., Jr., Christie-Blick N., and Malone M. J., et al., 1998, Proceedings of the Ocean Drilling Program, Volume 174A. Initial Reports, continuing the New Jersey mid-Atlantic sea-level transect: College Station, TX.Bal, A.A., 1996. Valley fills and coastal cliffs buried beneath an alluvial plain; evidence from variation of permeabilities in gravel aquifers, Canterbury plains, New Zealand. Journal of Hydrology 35, 1-27.
Ballard, R.D., Coleman, D.F., Rosenberg, G.D., 2000. Further evidence of abrupt Holocene drowning of the Black Sea shelf. Marine Geology 170, 253-261.
Berggren, W.A., Kent, D.V., Swisher, C.C., Aubry, M.P., 1995. A revised Cenozoic geochronology and chronostratigraphy. In: Berggren, W.A., Kent, D.V., Aubry, M.-P., Hardenbol, J. (Eds.), Geochronology, Time Scales and Global Stratigraphic Correlations: A Unified Temporal Framework for an Historical Geology, Special Society of Economic Paleontologists and Mineralogists 54, pp. 129-212.
Boote, D.R.D., Kirk, R.B., 1989. Depositional wedge cycles on an evolving plate margin, western and northwestern Australia. American Association of Petroleum Geologists Bulletin 73, 216-243.
Brown A R., 1996. Seismic attributes and their classification. The Leading Edge, 15(10):1090.
Butcher, B.P., 1989. Northwest Shelf of Australia, in J.D. Edwards and P.A. Sangrossi, eds., Divergent/passive margin basins: American Association of Petroleum Geologists, Memoir 48, 81-115.
Cannon, S.H., Ellen, S.D., Graham, S.E., Graymer, R.W., Hampton, M.A., Hillhouse, J.W., Howell, D.G., Jayko, A.S., LaHusen, R.L., Lajoie, K.R., Pike, R.J., Ramsey, D.W., Reid, M.E., Richmond, B.M., Savage, W.Z., Wentworth, C.M., Wilson, R.C., 1998. Slope failure and shoreline retreat during Northern California’s latest EI Nino. GSA Today 8, 1-6.
Cartwright, J.A., Jackson, M.P.A., 2008. Initiation of gravitational collapse of an evaporite basin margin: The Messinian saline giant, Levant Basin, eastern Mediterranean. Geological Society of America Bulletin 120, 399-413.
Cathro, D.L., Austin, J.A., 2001. An early mid-Miocene, strike-parallel shelfal trough and possible karstification in the Northern Carnarvon Basin, northwest Australia. Marine Geology 178, 157-169.
Cathro, D.L., 2002. Three Dimensional Stratal Development of a Carbonate-Siliciclastic Sedimentary Regime, Northern Carnarvon Basin, Northwest Australia. Dissertation thesis, The University of Texas at Austin, Austin, Texas.
Cathro, D.L., Austin Jr., J.A., Moss, G.D., 2003. Progradation along a deeply submerged Oligocene-Miocene heterozoan carbonate shelf; how sensitive are clinoforms to sea level variations? American Association of Petroleum Geologists Bulletin 87, 1547-1574.
Cathro, D.L., Karner, G., 2006. Cretaceous–Tertiary inversion history of the Dampier Subbasin, northwest Australia: Insights from quantitative basin modelling. Marine and Petroleum Geology 23, 503-526.
Chaproniere, G.C.H., 1975. Paleoecology of Oligo-Miocene larger foraminifera, Australia. Alcheringa 1, 37-58.
Chaproniere, G.C.H., 1984. Oligocene and Miocene Larger Foraminiferida from Australia and New Zealand. Bulletin– Australia, Bureau of Mineral Resources, Geology and Geophysics 188, 98.
Chen Q, Sidney S., 1997. Seismic attribute technology for reservoir forecasting and monitoring. The Leading Edge 16(5):445- 456.
Clapp, F.G., 1925. A few observations on the geology and geography of North-West and Desert Basins, Western Australia. Proceedings of the Linnean Society of New South Wales 50, 47-66.
Condon, M.A., Johnstone, D., Perry, W.J.,Crespin, I., 1955. The Cape Range Structure. Bulletin– Australia, Bureau of Mineral Resources, Geology and Geophysics 21, 86.
Condon, M.A., 1968. The geology of the Carnarvon Basin, Western Australia; part 3, Post-Permian stratigraphy, structure, economic geology. Bulletin– Australia, Bureau of Minearal Resources, Geology and Geophysics 77, 68.
Davies, P.J., Symonds P.A., Feary D.A., and Pigram C.J., 1989. The evolution of the carbonate platforms of northeast Australia, in P. D. Crevello, J. J. Wilson, J. F. Sarg, and J. F. Read, eds., Controls on carbonate platform and basin development., Society of Economic Paleontologists and Mineralogists, Special Publication 44, pp. 233 - 258.
Driscoll, N.W., Karner, G.D., 1996. Tectonic and stratigraphic evolution of the Carnarvon Basin, Northwest Australia. Minerals and Energy Research Institute of Western Australia Special Publication 170, 153.
Driscoll, N.W., Karner, G.D., 1998. Lower crustal extension across the Northern Carnarvon basin, Australia: Evidence for an eastward dipping detachment. Journal of Geophysical Research 103, 4975-4992.
Dugan, B. and P.B. Flemings, 2001. Overpressure and fluid flow in the New Jersey continental slope: Implications for slope failure and cold seeps. Science, 289, 288-291.
Eberli, G., and Ginsberg R.N., 1989. Cenozoic progradation of northwestern Great Bahamas Bank, a record of lateral platform growth and sea-level fluctuations., in P.D. Crevello, J.J. Wilson, J.F. Sarg, and J.F. Read, eds., Controls on carbonate platform and basin development, Society of Economic Paleontologists and Mineralogists, Special Publication 44, 339-351.
Etheridge, M.A., and O'Brien G.W., 1994. Structural and tectonic evolution of the Western Australian margin basin system: Australian Petroleum Exploration Association Journal 34, 906-908.
Farre, J.A., B.A. McGregor, W.B.F. Ryan, and J.M. Robb, 1983. Breaching the shelfbreak: passage from youthful to mature phase in submarine canyon evolution: Society of Economic Paleontologists and Mineralogists Special Publication, 33, 25-39.
Faugères, J-C., D.A.V. Stow, P. Imbert, and A. Viana, 1999. Seismic features diagnostic of contourite drifts: Marine Geology, 162, 1-38.
Feary, D.A., James, N.P., 1995. Cenozoic biogenic mounds and buried Miocene (?) barrier reef on a predominantly cool-water carbonate continental margin-Eucla basin, western Great Australian Bight. Geology 23, 427-430.
Field, M.E., Gardner, J.V., Jennings, A.E., Edwards, B.D., 1982. Earthquake- induced sediment failure on a 0.25°slope, Klamath River delta, California. Geology 10, 542-546.
Flügel, E., 2004. Microfacies of carbonate rocks: analysis, interpretation and application. Springer-Verlag, New York.
Fulthorpe, C.S., Schlanger, S.O., 1989. Paleo-Oceanographic and tectonic settings of early Miocene reefs and associated carbonates of offshore southeast Asia. American Association of Petroleum Geologists Bulletin 73, 729-756.
Fulthorpe, C.S. and R.M. Carter, 1991, Continental-shelf progradation by sediment-drift accretion: Geological Society of America Bulletin 103, 300-309.
Fulthorpe, C.S., and J.A. Austin, Jr., 1998. Anatomy of rapid margin progradation: three-dimensional geometries of Miocene clinoforms, New Jersey margin: American Association of Petroleum Geologists, Bulletin 82, 251-273.
Fulthorpe, C.S., J.A. Austin, Jr., and G.S. Mountain, 1999. Buried fluvial channels off New Jersey; did sea-level lowstands expose the entire shelf during the Miocene?: Geology (Boulder) 27, 203 - 206.
Fulthorpe, C.S., Austin, J.A., Mountain, G.S., 2000. Morphology and distribution of Miocene slope incisions off New Jersey: Are they diagnostic of sequence boundaries? Geological Society of America Bulletin 112, 817-828.
Fulthorpe, C.S., Austin, J.A., Lavier L., Kerans C., Bradshaw M., Exon N., Cathro D. L., Howe R., Marshall N., 2005. North West Shelf, Australia: the next step in the global approach to understanding the role of eustasy in the generation and preservation of stratigraphy, Drilling Proposal 667-Full, Integrated Ocean Drilling Program..
Galloway, W., 1989. Genetic stratigraphic sequences in basin analysis I: Architecture and genesis of flooding-surface bounded depositional units: American Association of Petroleum Geologists, Bulletin 73(2), 125- 142.
Greenlee, S.M., Devlin W.J., Miller K.G., Mountain G.S., and Flemings P.B., 1992. Integrated sequence stratigraphy of Neogene deposits, New Jersey continental shelf and slope: comparison with the Exxon model: Geological Society of America, Bulletin 104, 1403-1411.
Greenlee, S.M., and Moore T.C., 1988. Recognition and interpretation of depositional sequences and calculation of sea level changes from stratigraphic data - offshore New Jersey and Alabama Tertiary, in C.K. Wilgus, B.S. Hastings, C.G.St.C. Kendall, H.W. Posamentier, C.A. Ross, and J.C. van Wagoner, eds., Sea-Level Changes: An Integrated Approach: Society of Economic Paleontologists and Mineralogists Special Publication 42, 329 - 353.
Hampton, M.A., 2002. Gravitational failure of sea cliffs in weakly lithified sediment. Environmental and Engineering Geoscience 8, 175-191.
Hampton, M.A.,Griggs, G.B., 2004. Formation, evolution, and stability of coastal cliffs; status and trends. U.S. Geological Survey Professional Paper 1693, 123.
Haq, B.U., Hardenbol, J., Vail, P.R., 1987. Chronology of fluctuating sea levels since the Triassic. Science 235, 1156-1167.
Haq, B.U., Hardenbol, J.,Vail, P.R., 1988. Mesozoic and Cenozoic chronostratigraphy and eustatic cycles, in: Wilgus, C.K., Hastings, B.S., Kendall, C.G.St.C., Posamentier, H.W., Ross, C.A., Van Wagoner, J.C. (Eds.), Sea-Level Changes: An Integrated Approach. Society of Economic Paleontologists and Mineralogists Special Publication 42, pp. 72-108.
Hardenbol, J., Jacquin, T., Farley, M.B., Graciansky, P.-C.d.,Vail, P.R., 1998. Mesozoic and Cenozoic sequence chronostratigraphic framework of European basins. In: Graciansky, P-C. de, Hardenbol, J., Jacquin, T., Vail, P.R. (Eds.), Mesozoic and Cenozoic sequence stratigraphy of European basins. SEPM Special Publication 60, pp. 3-13.
Heath, R.S., Apthorpe, M.C., 1984. New formation names for the Late Cretaceous and Tertiary sequence of the southern North West Shelf. Record - Geological Survey of Western Australia 7, 39.
Hocking, R.M., Moors, H.T., Graaff, W.J.E.v.d., 1987. Geology of the Carnarvon Basin, Western Australia. Bulletin - Geological Survey of Western Australia 133, 188.
Hull, J.N.F., Griffiths, C.M., 2002. Sequence stratigraphic evolution of the Albian to Recent section of the Dampier Sub-basin, North West Shelf, Australia. In Keep, M., Moss, S.J. (Eds.), The Sedimentary Basins of Western Australia 3: Proceedings of Petroleum Exploration Society of Austrialia Symposium, Perth, pp. 617-639.
Huvenne, V.A.I., Croker, P.F., Henriet, J.-P., 2002. A refreshing 3D view of an ancient sediment collapse and slope failure. Terra Nova 14, 33-40.
Irwin, M. L., 1965. General Theory of Epeiric Clear Water Sedimentation. American Association of Petroleum Geologists Bulletin 49, 445-459.
James, N.P., Feary, D.A., Surlyk, F., Simo, J.A.T., Betzler, C., Holbourn, A.E., Li, Q., Matsuda, H., Machiyama, H., Brooks, G.R., Andres, M.S., Hine, A.C., Malone, M.J.,Party, O.D.P.L.S., 2000. Quaternary bryozoan reef mounds in cool-water, upper slope envireonments: Great Australian Bight. Geology 28, 647-650.
Kaiko, A.R. and A.M. Tait, 2001, Post-rift tectonic subsidence and palaeo-water depths in the Northern Carnarvon Basin, Western Australia: The Australian Petroleum Production and Exploration Association (APPEA) Journal 41(1), 367-380.
Kalkomey C T., 1997. Potential risks when using seismic attributes as predictors of reservoir properties. The Leading Edge, 16(3):1553-1561.
Keep, M., Powell, C.M., Baillie, P.W., 1998. Neogene deformation of the North West Shelf, Australia. In: Purcell, P. G., Purcell, R. R. (Eds.), The Sedimentary Basins of WesternAustralia 2: Proceedings of Petroleum Exploration Society of Australia Symposium, Perth, pp. 81-91.
Labaume, P., Mutti, E., Seguret, M., 1987. Megaturbidites; a depositional model from the Eocene of the SW-Pyrenean foreland basin, Spain. Geo-Marine Letters 7, 91-101.
Laporte, L. F., 1967. Carbonate Deposition Near Mean Sea-level and Resultant Facies Mosaic:Manlius Formation (Lower Devonian) of New York State. American Association of Petroleum Geologists Bulletin 51, 73-101.
Lawver, L.A., Coffin M.F., Dalziel I.W.D., Gahagan L.M., and Schmitz R.M., 1999. The Plates 1999 Atlas of Paleogeographic Reconstructions (Plates Progress Report No. 235): University of Texas Institute for Geophysics Technical Report No. 187, pp. 84.
Lee, T.Y., Lawver, L.A., 1995. Cenozoic plate reconstruction of Southeast Asia. Tectonophysics 251, 85-138.
Lees, A., 1975. Possible influence of salinity and temperature on modern shelf carbonate sedimentation. Marine Geology 19, 159-198.
Longley, I.M., Buessenschuett, C., Clydsdale, L., Cubitt, C.J., Davis, R.C., Johnson, M.K., Marshall, N.M., Murray, A.P., Somerville, R., Spry, T.B., Thompson, N.B., 2002. The North West Shelf of Australia - a Woodside Perspective. In: Keep, M., Moss, S.J. (Eds.), The Sedimentary Basins of Western Australia 3: Proceedings Petroleum Exploration Society of Australia Symposium, Perth, pp. 27-88.
Malcolm, R.J., Pott, M.C., Delfos, E., 1991. A new tectonostratigraphic synthesis of the North West Cape area. Australian Petroleum Exploration Association Journal 31, 154-176.
McGowran, B., 1979. The Tertiary of Australia: foraminiferal overview. Marine Micropaleontology 4, 235-264.
McGowran, B., and Q. Li, 1996, Ecostratigraphy and sequence biostratigraphy, with a neritic foraminiferal example from the Miocene in southern Australia: Historical Biology, v. 11, p. 136-169.
McGowran, B., Li, Q., Cann, J., Padley, D., McKirdy, D.M.,Shafik, S., 1997. Biogeographic impact of the Leeuwin Current in southern Australia since the late middle Eocene. Palaeogeography, Palaeoclimatology, Palaeoecology 136, 19-40.
McKenzie, Davies J., P., and Palmer-Julson A., et al., 1991. Proceedings of the Ocean Drilling Program, Volume 133, Scientific Results, NE Australian Margin: College Station, TX.
Michaud,F., Chabert, A., Collot, J.Y., Sallares, V., 2005. Fields of multi-kilometer scale sub-circular depressions in the Carnegie Ridge sedimentary blanket: Effect of underwater carbonate dissolution? Marine Geology, 216(1): 205-219.
Moss, G.D., Cathro, D.L., Austin Jr., J.A., 2004. Sequence biostratigraphy of prograding clinoforms, Northern Carnarvon Basin, western Australia: a proxy for variations in Oligocene to Pliocene global sea level? Palaios 19, 206-226.
Mountain, G.S., Miller K.G., and Blum P., et al., 1993. Proceedings of the Ocean Drilling Program, Volume 150, Scientific Results, New Jersey Continental Slope and Rise: College Station, TX. Mullins, H.T., K.C. Heath, M. van Buren, and C.R. Newton, 1984. Anatomy of a modern open ocean carbonate slope:northern Little Bahama Bank: Sedimentology, 31, 141 - 168.
Mullins, H.T., Cook, H.E., 1986. Carbonate apron models: Alternatives to the submarine fan model for paleoenvironment analysis and hydrocarbon exploration. Sedimentary Geology 48, 37-79.
Nelson, C.S., 1978. Temperate shelf carbonate sediments in the Cenozoic of New Zealand. Sedimentology 25, 737-771.
Nelson, C.S., 1988. An introductory perspective on non-tropical shelf carbonates. Sedimentary Geology 60, 3-14.
Newman, S., 1994. Clues to the structural history of the Rankin Trend, from 3-D seismic data: The Sedimentary Basins of Western Australia, Proceedings of Petroleum Exploration Society of Australia Symposium, 497-507.
O’Brien, G.W., Etheridge, M.A., Willcox, J.B., Morse, M., Symonds, P., Norman, C. and Needham, D.J., 1993. The structural architecture of the Timor Sea, north-western Australia: implications for basin development and hydrocarbon exploration. The Australian Petroleum Exploration Association (APEA) Journal 33(1), 258-278.
Paton, D.A., van der Spuy, D., di Primio, R.,Horsfield, B., 2008. Tectonically induced adjustmentof passive-margin accommodation space; influence on the hydrocarbon potential of the Orange Basin, South Africa. American Association of Petroleum Geologists Bulletin 92, 589-609.
Pigram, C.J., Davies, H.L., 1987. Terranes and accretion history of the New Guinea orogen. Bulletin– Australian, Bureau of Mineral Resources, Geology and Geophysics 10, 193-211.
Posamentier, H.W., Jervey M.T., and Vail P.R., 1988. Eustatic controls on clastic deposition I - Conceptual framework, in C.K. Wilgus, B.S. Hastings. C.G.St.C. Kendall, H.W. Posamentier, C.A. Ross, J.C. van Wagoner, eds., Sea level changes - An integrated approach: Society of Economic Paleontologists and Mineralogists Special Publication 42, 109 - 124.
Pratson,L.F., Ryan, W.B.F., Mountain, G.S., Twichell, D.C., 1994. Evidence in late Cenozoic strat on the New Jersey continental slope: Geological Society of America Bulletin, 106(3): 395-412.
Pratson, L.F., and B.J. Coakley, 1996, A model for the headward erosion of submarine canyons induced by downslope-eroding sediment flows: Geological Society of America Bulletin, 108(2): 225-234.
Purcell, P.G., and Purcell R.R., 1994. The sedimentary basins of Western Australia: an introduction.: The Sedimentary Basins of Western Australia, Proceedings of Petroleum Exploration Society of Australia Symposium, pp. 3-18.
Purdy, E.G., 1974. Reef configurations: cause and effect. In: Laporte, L.F. (Eds.), Reefs in time and space: selected examples from the recent and ancient, Special publication– Society of Economic Paeontologists and Mineralogists 18, pp. 9-76.
Purdy, E.G., Bertram G.T., 1993. Carbonate concepts from the Maldives, Indian Ocean. American Association of Petroleum Geologists Studies in Geology 34, Tulsa, Oklahoma, U.S.A., pp.7-55.
Rader, B., Medvin, E., 2002. Shallow hazard detection in the near surface, a coherence cube processing application. The Leading Edge 21, 672-674.
Rasidi, J.S., 1995. Depositional sequence of the Withnell Formation, Dampier Sub-basin. Australian Petroleum Exploration Association Journal 35, 296-306.
Read, J.E., 1985. Carbonate platform facies models. American Association of Petroleum Geologists Bulletin 69, 1-21.
Richardson, A.N., Blundell, D.J., 1996. Continental collision in the Banda Arc. In: Hall R., Blundell (Eds.), Tectonic evolution of Southeast Asia. Geological Society, London, Special Publications 106, pp. 47-60.
Romine, K.K., Durrant, J.M., Cathro, D.L., Bernardel, G., 1997. Petroleum Play Element Prediction for the Cretaceous-Tertiary Basin Phase, Norhtern Carnarvon Basin. Australian Petroleum Production and Exploration Association Journal 37, 315-339.
Ryan, W.B.F., Pitman, W.C., Major, C.O., Shimkus, K., Moskalenko, V., Jones, G.A., Dimitrov, P., Gorur, N., Sakinc, M.,Yuce, H., 1997. An abrupt drowning of the Black Sea shelf. Marine Geology 138, 119-126.
Schuster, M.W., Eaton, S., Wakefield, L., Kloosterman, H.J., 1998. Neogene tectonics, Greater Timor Sea, offshore Australia: Implication for trap risk. Australian Petroleum Production and Exploration Association Journal 38, 351-379.
Sengor, A.M.C., 1987. Tectonics of the Tethysides: orogenic collage development in a collisional setting. Annual Review of Earth and Planetary Sciences 15, 213-244.
Shaw, A. B., 1964. Time in Strratigraphy: McGraw-Hill Pub. Co., 350.
Shipboard Scientific Party, 2001. Ocean Drilling Program, Leg 194, Preliminary report. Sea Level Magnitudes Recorded by continental margin sequences on the Marion Plateau, Northeast Australia. Available from World Wide Web:
Spinelli, G.A., Field, M.E., 2001. Evolution of continental slope gullies on the northern California margin, Journal of Sedimentary Research, 71(2):237-245.
Stagg, H.M.J., Colwell, J.B., 1994. The structural foundations of the Northern Carnarvon Basin. In: Purcell, P.G. , Purcell R. R. (Eds.), The Sedimentary Basins of Western Australia: Proceedings of a Petroleum Exploration Society of Australia Symposium. Perth, pp. 349-365.
Steckler, M.S., G.S. Mountain, K.G. Miller, and N. Christie-Blick, 1999. Reconstruction of Tertiary progradation and clinoform development on the New Jersey passive margin by 2-D backstripping.: Marine Geology, 154 (1-4): 399-420.
Stow, D.A.V., and M. Mayall, 2000. Deep-water sedimentary systems: New models for the 21st century: Marine and Petroleum Geology, 17, 125-135.
Struckmeyer, H.I.M., Blevin, J.E., Sayers, J., Totterdell, J.M., Baxter, K., Cathro, D.L., 1998. In: Purcell, P.G., Purcell, R.R. (Eds), Structural evolution of the Browse Basin, North West Shelf: New concepts from deep seismic data. The Sedimentary Basins of Western Australia 2: Proceedings of Petroleum Exploration Society of Australia Symposium, Perth, pp. 345-367.
Swart, P.K., Eberli G.P., and Malone M.J., et al., 1996. Proceedings of the Ocean Drilling Program, Volume 166. Scientific Results, Bahama Transect: College Station, TX.
Symonds, P.A., Collins, C.D.N., Bradshaw, J., 1994. Deep structure of the Browse Basin: Implications for basin development and petroleum exploration. In: Purcell, P. G., Purcell, R. R. (Eds.), The Sedimentary Basins of Western Australia: Proceedings of Petroleum Exploration Society of Australia Symposium, Perth, pp. 315-331.
Tait, A.M., 1985. A depositional model for the Dupuy Member and the Barrow Group in the Barrow Sub-Basin, Northwestern Australia: Australian Petroleum Exploration Association, Journal 25, 282-290.
Tindale, K., N. Newell, J. Keall, and N. Smith, 1998, Structural evolution and charge history of the Exmouth Sub-basin, Northern Carnarvon Basin, Western Australia, in Purcell, P.G., and Purcell, R.R., eds., The sedimentary basins of Western Australia 2: Proceedings of West Australian Basins Symposium (WABS2), Perth, Western Australia, pp. 447-472.
van Buren, H.M., and H.T. Mullins, 1983. Seismic stratigraphy and geological development of an open-ocean carbonate slope; the northern margin of Little Bahama Bank, in R.E. Sheridan, F.M. Gradstein, and L.A. Barnard, et al. Initial reports of the Deep Sea Drilling Project, Leg 76, 749-762.
Vail, P.R., Mitchum, R.M., Thompson, S., 1977. Seismic Stratigraphy and Global Changes of Sea Level, Part 4: Global Cycles of Relative Changes of Sea Level. In: Payton, C.E. (Eds.), Seismic Stratigraphy - Applications to Hydrocarbon Exploration. American Association of Petroleum Geologists Memoir 26, pp. 83-97.
Vail, P.R., 1987. Seismic stratigraphy interpretation using sequence stratigraphy; Part 1, Seismic stratigraphy interpretation procedure. In: Bally, A.W. (Eds.), Atlas of seismic stratigraphy. American Association of Petroleum Geologists Studies in Geology 27, pp. 1-10.
Veevers, J.J., Tayton J.W., Johnson B.D., 1985. Prominent magnetic anomaly along the continental-ocean boundary between the western margin of Australia (Exmouth and Scott plateaus) and the Argo Abyssal Plain: Earth and Planetary Science Letters 72, 415-426.
Veevers, J., Powell, C.M., Roots, S.R., 1991. Review of seafloor spreading around Australia. Australian Journal of Earth Sciiences 38, 373-389.
von Rad, U., Exon, N.F., Haq, B., 1992. Rift to drift history in the Wombat Plateau, Northwest Australia. Triassic to Tertiary Leg 122 results. In: von Rad U., Haq B.U. et al., (Eds.), Proceedings of the Ocean Drilling Program, Scientific Results, 122. College Station, Texas, pp. 765-800.
Westphal, H. and T. Aigner, T., 1997. Seismic stratigraphy and subsidence analysis in the Barrow-Dampier Subbasin, Northwest Australia: American Association of Petroleum Geologists Bulletin 81(10), 1721-1749.
Woodside Offshore Petroleum, 1972a. Goodwyn 3 Well Completion Report.
Woodside Offshore Petroleum, 1972b. Goodwyn 2 Well Completion Report.
Woodside Offshore Petroleum, 1973. Goodwyn 4 Well Completion Report.
Woodside Offshore Petroleum, 1981. Goodwyn 6 Well Completion Report.
Woodside Offshore Petroleum, 1985. Goodwyn 7 Well Completion Report.
Wilson, J. L., 1975. Carbonate facies in Geologic History. Springer-Verlag Berlin Heidelberg New York.
Wynn, R. B., David J. W. Piper, Martin J. R. Gee, 2002. Generation and migration of oarse-grained sediment waves in turbidity current channels and channel–lobe transition zones, Marine Geology 192, 59-78
Yeates, A.N., Bradshaw M.T., Dickens J.M., Brakel A.T., Exon N.F., Langford R.P., Mulholland S.M., Totterdell J.M., and Yeung M., 1987. The Westralian Superbasin: An Australian link with Tethys, in K.G. McKenzie, ed., Shallow Tethys 2: Proceedings of an International Symposium, Shallow Tethys, Wagga Wagga, pp. 199-213.
Young, L. M., L. C. Fiddler, and R. W., Jones, 1972. Carbonate Facies in Ordovician of Northern Arkansas. American Association of Petroleum Geologists Bulletin 56, 68-82.
Zachos, J., Pagamo, M., Sloan, L., Thomas, E.,Billups, K., 2001. Trends, rhythms, and aberrations in global climate 65 Ma to present. Science 292, 686-693.
冯杨伟,屈红军,张功成等.澳大利亚西北陆架中生界生储盖组合特征[J].海洋地质动态,2010,26(6):16-23.
高林,杨勤勇.地震属性技术新进展[J].石油物探,2004,43(s):10- 16.
关士聪等,中国晚元古代至二叠纪海域沉积环境模式探讨[J].石油与大然气地质,1980,1(1):2-17.
李华等,2007.深水大型沉积物波的成因机制,海洋地质动态,2007,23(12):1-7.
李明,候连华.岩性地层油气藏地球物理勘探技术与应用[M].北京:石油工业出版社, 2005
瞿辉,郑民,李建忠等.国外被动陆缘深水油气勘探进展及启示[J].天然气地球科学,2010,21(2):193-200.
孙家振,李兰斌.多信息储层预测和油气判别(原理、方法与应用实例)[M].北京:中国地质大学出版社,1997.
许晓明,于水,骆宗强等.澳大利亚西北大陆架与尼日尔三角洲、坎波斯盆地油气地质条件的对比研究[J].石油实验地质,2010,32(2):28-34.
杨川恒,杜栩,潘和顺等.国外深水领域油气勘探新进展及我国南海北部陆坡深水区油气勘探潜力[J].地学前缘,2000,7(3):247-256.
张建球,钱桂华,郭念发.澳大利亚大型沉积盆地与油气成藏[M].北京:石油工业出版社,2008.