| Citation: | Guoping Bai, B Keene John. Fluid Flow History in Lower Triassic Bulgo Sandstone, Central Sydney Basin, Australia. Journal of Earth Science, 2000, 11(1): 47-55.
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The fluid flow history during diagenesis of the Lower Triassic Bulgo sandstone has been investigated through integrated analyses of petrography, stable isotope and fluid inclusion. Combined application of these techniques was intended to constrain the temperature, timing, chemistry and source of pore fluids during diagenetic cementation events in the Lower Triassic Bulgo sandstone. The diagenesis proceeded in two different flow regimes: early dynamic fluid flow regime and late slow static fluid flow regime. The former was characterized by a slight increase of δ(18O) of pore waters form estimated -15×10-3 to -14×10-3 with the temperature increasing from ~10 ℃ to ~75 ℃. During early diagenesis, early clays and pore filling carbonates precipitated from the pore waters. The late slow flow/static fluid regime was characterized by a rapid18Oenrichment process. δ(18O) of pore waters increased from -14×10-3 to -5×10-3 with the temperature increasing from 75 ℃ to 110 ℃. During the late diagenesis, kaolin (generation Ⅱ), quartz and illite crystallized. Oil migrated to the sandstones of the Bulgo sandstone during quartz cementation.
| Bai G P, 1991. Petrology, Diagenesis and Reservoir Potential of Narrabeen Group Sandstones, Sydney Basin, New South Wales: [Disseration]. Sydney: University of Sydney. 393 |
| Bai G P, Keene, J B, 1996. Petrology and Diagenesis of Narrabeen Group Sandstones, Sydney Basin, New South Wales. Australian Journal of Earth Sciences, 43: 525-538 doi: 10.1080/08120099608728274 |
| Bembrick C S, Herbert C, Scheibner E, et al, 1973. Structural Subdivision of the New South Wales Portion of the Sydney-Bowen Basin. Quarterly Notes of Geological Survey of New South Wales, 11: 1-13 |
| Bigeleisen J, Perlman M L, Prosser H C, 1952. Conversion of Hydrogenic Materials to Hydrogen for Isotope Analysis. Analytical Chemistry, 24: 1356-1357 doi: 10.1021/ac60068a025 |
| Bird M I, Chivas A R, 1988. Stable Isotope Evidence for Low Temperature Kaolinitic Weathering and Post-Formational Hydrogen-Isotope Exchange in Permian Kaolinites. Chemical Geology, 72: 249-265 https://www.sciencedirect.com/science/article/pii/0168962288900280 |
| Brint J F, Hamilton P J, Haszeldine R S, et al, 1990. Oxygen Isotopic Analysis of Diagenetic Quartz Overgrowths from the Brent Sands: A Comparison of Two Preparation Methods. Journal of Sedimentary Petrology, 61: 527-533 |
| Burruss R C, 1981. Hydrocarbon Fluid Inclusions in Studies of Sedimentary Diagenesis. In: Hollister L S, Crawford M L, eds. Short Course in Fluid Inclusions: Applications to Petrology. Mineralogical Association of Canada Short Course Handbook, 6: 138-156 http://www.researchgate.net/publication/284401132_Hydrocarbon_fluid_inclusions_in_studies_of_sedimentary_diagenesis |
| Burruss R C, 1992. Phase Behaviour in Petroleum-Water (Brine) Systems Applied to Fluid Inclusions. Proceedings, Fourth Biennial Pan-American Conference on Research on Fluid Inclusions (PACROFI IV), 116-118 |
| Carothers W W, Adami L H, Rosenbauer R J, 1988. Experimental Oxygen Isotope Fractionation between Siderite-Water and Phosphoric Acid Liberated CO2-Siderite. Geochimica et Cosmochimica Acta, 52: 2445-2450 doi: 10.1016/0016-7037(88)90302-X |
| Clayton R N, Mayeda T K, 1963. The Use of BrF5 in the Extraction of Oxygen from Oxides and Silicates for Isotopic Analysis. Geochimica et Cosmochimica Acta, 27: 43-52 doi: 10.1016/0016-7037(63)90071-1 |
| Craig H, 1961. Standards for Reporting Concentrations of Deuterium and Oxygen-18 in Natural Waters. Science, 133: 1833-1834 doi: 10.1126/science.133.3467.1833 |
| Dutton S P, Land L S, 1985. Meteoric Burial Diagenesis of Pennsylvanian Arkosic Sandstones, Southwestern Anadarko Basin, Texas. American Association of Petroleum Geologists Bulletin, 69: 22-38 |
| Eadington P J, Hamilton P J, Green P, 1989. Hydrocarbon Fluid History in Relation to Diagenesis in the Hutton Sanstone, SouthWest Queesland. In: O'Neil B J, ed. The Cooper and Eromanga Basins, Australia. Proceedings of the Cooper and Eromanga Basins Conference, Adelaide. 601-618. |
| Embleton B J J, 1984. Continental Palaeomagnetism. In: Veevers J J, ed. Phanerozoic Earth History of Australia. Oxford, UK: Clarendon Press. 11-16 |
| Folk R L, Andrews P B, Lewis D W, 1970. Detrital Sedimentary Rock Classification and Nomenclature for Use in New Zealand. New Zealand Journal of Geology and Geophysics, 13: 937-968 doi: 10.1080/00288306.1970.10418211 |
| Friedman I, O'Neil J R, 1977. Compilation of Stable Isotope Fractionation Factors of Geochemical Interests. In: Fleischer M, ed. Data of Geochemistry. 6th ed. U S Geological Survey Professional Paper 440-KK: KK1-KK12 |
| Hamilton D S, Galloway W E, 1989. New Exploration Techniques in the Analysis of Diagenetically Complex Reservoir Sandstones, Sydney Basin, NSW. Australian Petroleum Exploration Association Journal, 29: 235-257 |
| Herbert C, 1980. Depositional Development of the Sydney Basin. In: Herbert C, Helby R J, eds. A Guide to the Sydney Basin. Geological Survey of New South Wales Bulletin, 26: 10-52 |
| Jackson M L, 1969. Soil Chemical Analysis— Advanced Course. 2nd ed. Wisconsin: Madison. 895 |
| Lambert S J, Epstein S, 1980. Stable Isotope Investigations of an Active Geothermal System in Valles Caldera, Jemez Mountains, New Mexico. Journal of Volcanology and Geothermal Research, 8: 111-129 doi: 10.1016/0377-0273(80)90010-4 |
| Land L S, Dutton S P, 1978. Cementation of a Pennsylvanian Deltaic Sandstone: Isotopic Data. Journal of Sedimentary Petrology, 48: 1167-1176 |
| Lee M, Savin S M, 1985. Isolation of Diagenetic Overgrowths on Quartz Sand Grains for Oxygen Isotope Analysis. Geochimica et Cosmochimica Acta, 49: 497-501 doi: 10.1016/0016-7037(85)90041-9 |
| Mayne S L, Nicholas E, Bigg-Wither A L, et al, 1974. Geology of the Sydney Basin— A Review. Bureau of Mineral Resources, Geology and Geophysics, Australia, Bulletin, 149: 229 |
| McCrea J M, 1950. On the Isotopic Chemistry of the Carbonates and a Paleotemperature Scale. Journal of Chemical Physics, 18: 849- 857 doi: 10.1063/1.1747785 |
| Pichavant M, Ramboz C, Weisbrod A, 1982. Fluid Immiscibility in Natural Processes: Use and Misuse of Fluid Inclusion DataⅠ, Phase Equilibria Analysis— A Theoretical and Geometrical Approach. Chemical Geology, 37: 1-27 doi: 10.1016/0009-2541(82)90064-X |
| Potter R W, Clynne M A, Brown D L, 1977. Freezing Point Depression of Aqueous Sodium Chloride Solutions. Economic Geology, 73: 284-285 https://pubs.geoscienceworld.org/segweb/economicgeology/article-abstract/73/2/284/19051/Freezing-point-depression-of-aqueous-sodium |
| Ramboz C, Pichavant M, Weisbrod A, 1982. Fluid Immiscibility in Natural Processes: Use and Misuse of Fluid Inclusion DataⅡ, Interpretation of Fluid Inclusion Data in Terms of Immiscibility. Chemical Geology, 37: 29-48 doi: 10.1016/0009-2541(82)90065-1 |
| Roedder E, 1981. Origin of Fluid Inclusions and Changes That Occur after Trapping. In: Hollister L S, Crawford M L, eds. Short Course in Fluid Inclusions. Applications to Geology, 6: 101-129 |
| Roedder E, 1984. Fluid Inclusions. Review in Mineralogy, 12: 644 https://www.sciencedirect.com/science/article/pii/S0191814199000395 |
| Rosenbaum J, Sheppard S M F, 1986. An Isotopic Study of Siderites, Dolomites and Ankerites at High Temperatures. Geochimica et Cosmochimica Acta, 50: 1147-1150 doi: 10.1016/0016-7037(86)90396-0 |
| Savin S M, Lee M, 1988. Isotopic Studies of Phyllosilicates. In: Bailey S W, ed. Hydrous Phyllosilicates (Exclusive of Micas). Reviews in Mineralogy, 19: 189-223 |
| Stuntz J, 1969. The Depositional and Structural Boundaries of the Sydney Basin. In: Abstracts of 4th Symposium on Advances in the Study of the Sydney Basin. NSW: Department of Geology, University of Newcastle. 51-53 |
| Tadras N Z, 1993. Introductory Notes. In: Tadros N Z, ed. The Gunnedah Basin, New South Wales. Geological Survey of NSW Memoir, 12: 95-134 |
| Yeh H W, 1980. D/H Ratios and Late Stage Dehydration of Shales during Burial. Geochimica et Cosmochimica Acta, 44: 341-352 doi: 10.1016/0016-7037(80)90142-8 |
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