Dossier: Insights into Petroleum Geochemistry
Open Access
Issue
Oil & Gas Science and Technology - Rev. IFP
Volume 58, Number 2, March-April 2003
Dossier: Insights into Petroleum Geochemistry
Page(s) 203 - 231
DOI https://doi.org/10.2516/ogst:2003014
Published online 01 December 2006
  • Abelson, P.P. (1963) Organic Geochemistry and the Formation of Petroleum. 6 th World Petr. Cong. Proc., 1, 397-407. [Google Scholar]
  • Albrecht, P. and Ourisson, G. (1969) Diagenèse des hydrocarbures saturés dans une série sédimentaire épaisse (Douala, Cameroun). Geoch. Cosmochim. Act., 33, 138-142. [CrossRef] [MathSciNet] [Google Scholar]
  • Albrecht, P. and Ourisson, G. (1971) Biogenic substances in sediments and fossils. Angew. Chem., Internat. Ed., 10, 209-286. [Google Scholar]
  • Allred, V.D. (1966) Kinetics of Oil Shale Pyrolysis. Chem. Eng. Prog., 62, 55-60. [Google Scholar]
  • Alpern, B. (ed.) (1975) Pétrographie de la matière organique des sédiments, relations avec la paléotempérature et le potentiel pétrolier, Éditions du CNRS, Paris. [Google Scholar]
  • Alpern, B., Durand, B., Espitali窠J. and Tissot, B. (1972) Localisation, caractérisation et classification pétrographique des substances organiques sédimentaires fossiles. In Advances in Organic Geochemistry 1971 (H.R. von Gaertner and H.R. Wehner eds.), Pergamon Press, 1-28. [Google Scholar]
  • Baker, E.G. (1959) Origin and Migration of Oil. Science, 129, 871-874. [CrossRef] [PubMed] [Google Scholar]
  • Béhar, F. and Vandenbroucke M. (1987) Chemical Modelling of Kerogens. Org. Geochem., 11, 15-24. [Google Scholar]
  • Béhar, F., Vandenbroucke, M., Tang,Y.,Marquis, F. and Espitalié, J. (1997) Thermal Cracking of Kerogen in Open and Closed Systems: Determination of Kinetics Parameters and Stoechiometric Coefficients for Oil and Gas Generation. Org. Geochem., 26, 321-339. [Google Scholar]
  • Berthelot, M. (1866) Sur l’origine des carbures et des combustibles minéraux. Ann. Chim. et Phys., 4e série, 9, 481-483. [Google Scholar]
  • Bessereau, G., Guillocheau, F. and Huc, A.Y. (1995) Source Rock Occurrence in a Sequence Stratigraphic Framework: The Example of the Lias of the Paris Basin. In AAPG Studies in Geology, 40, A.Y. Huc Ed., Tulsa, Oklahoma. [Google Scholar]
  • Bois, C., Bouché, and Pelet, R. (1982). Global Geological History and the Distribution of Hydrocarbon Reserves. Bull. Am. Assoc. Petr. Geol., 66, 1248-1270. [Google Scholar]
  • Bordenave, M., Combaz, A. and Giraud A. (1970) Influence de l’origine des matières organiques et de leur degré d’évolution sur les produits de pyrolyse du kérogène. In Advances in Organic Geochemistry, 1966, G.D. Hobson and G.C. Speers Eds., Pergamon Press, London, 389-405. [Google Scholar]
  • Bordenave, M.L. (ed.) (1993) Applied Petroleum Geochemistry, Ȥitions Technip, Paris. [Google Scholar]
  • Bordovsky, O.K. (1965) Accumulation and Transformation of Organic Substances in Marine Sediments. Marine Geology, 3, Elsevier, Amsterdam, 3-114. [Google Scholar]
  • Braun, R.L. and Rothman, A.J. (1975) Oil Shale Pyrolysis: Kinetics and Mechanism of Oil Production. Fuel, 54, 129-131. [CrossRef] [Google Scholar]
  • Bray, E.E. and Evans, E.D. (1961) Distribution of n-Paraffins as a Clue to Recognition of Source Beds. Geochim. Cosmochim. Acta, 22, 2-15. [CrossRef] [Google Scholar]
  • Breger, I. (ed.) (1963) Organic Geochemistry, Pergamon Press, Oxford. [Google Scholar]
  • Brown, F.S.,Baedeker, M.J.,Nissenbaum, A. and Kaplan, I.R. (1972) Early Diagenesis in a Reducing Fjord, Saanich Iinlet, British Columbia III. Changes in Organic Constituents of Sediment. Geochim. Cosmochim. Acta, 36, 1185-1203. [CrossRef] [Google Scholar]
  • Buchem van, F.S., Boer de, L., McCave, I.N. and Herbin, J.P. (1995) The Organic Carbon Distribution in Mesozoïc Marine Sediments and the Influence of Orbital Climatic Cycles (England and the Western North Atlantic), In AAPG Studies, 40, A.Y. Huc Ed., Am. Assoc. Petr. Geol., Tulsa, Oklahoma. [Google Scholar]
  • Burrus, J. (1997) Contribution à l’étude du fonctionnement des systèmes pétroliers : Apport d’une modélisation bidimensionnelle. PhD Thesis, École des Mines de Paris, 473. [Google Scholar]
  • Calvert, S.E. and Price, N.B. (1971) Recent Sediments of the South-West African Shelf. In Atlantic Continental Margins, London Inst. Geol. Sc., 175-185. [Google Scholar]
  • Chiarelli, A. (1973) Étude de nappes aquifères profondes- Contribution de l’hydrogéologie à la connaissance d'un bassin sédimentaire et à l’exploration pétrolière. PhD Thesis, Univ. Bordeaux, 401. [Google Scholar]
  • Claypool, G.E. and Reed, R. (1976) Thermal-Analysis Technique for Source Rock Evaluation: Quantitative Estimate of Organic Richness and Effects of Lithologic Variation. Bull. Am. Assoc. Petr. Geol., 60, 608-626. [Google Scholar]
  • Combaz, A. (1964) Les palynofaciès. Rev. Micropal., 205-208. [Google Scholar]
  • Combaz, A. (1980) Les kérogènes vus au microscope. In Kerogen (B. Durand Ed.), Éditions Technip, Paris, 55-111. [Google Scholar]
  • Connan, J. (1984) Biodegradation of Crude Oils in Reservoir. In Advances in Petroleum Geochemistry, Ed. by Brooks, J. and Welte, D.H., Academic Press, London, 1, 299-335. [Google Scholar]
  • Connan, J. (1987) Regards sur la géochimie pétrolière d’aujourd’hui. Bull. Centres Rech. Exploration-Production Elf- Aquitaine, 11, 103-115. [Google Scholar]
  • Correia, M. (1967) Relations possibles entre l’état de conservation des éléments figurés de la matière organique et l’existence de gisements d’hydrocarbures. Oil & Gas Science and Technology, 22, 1285-1306. [Google Scholar]
  • Datsko, V.G. (1959) Organic Matter in Soviet Southern Waters, Ird. Akad. Nauk SSSR Moscow (in Russian). [Google Scholar]
  • Datsko, V.G. (1961) Value of Phytoplankton Production in Balance of Organic Material in Marine Reservoir in Azov, Black and Caspian Seas. In Primary Production of Seas and Inland Waters-Minsk (in Russian). [Google Scholar]
  • Debyser, J. (1959) Contribution à l’étude géochimique des vases marines. Thèse, Université Paris. [Google Scholar]
  • Debyser, J. and Deroo, G. (1969) Faits d’observation sur la genèse du pétrole. Oil & Gas Science and Technology, 24, 21-48. [Google Scholar]
  • Degens, E.T., Herzen von, R. and Wong H.K. (1971) Lake Tanganyika: Water Chemistry, Sediments, Geological Structure. Naturwissenschaften, 58, 224-291. [CrossRef] [Google Scholar]
  • Degens, E.T., Herzen von R.,Wong, H.K.,Deuser, W.G. and Janash, H.W. (1973) Lake Kivu: Structure, Chemistry and Biology of an East African Rift Lake. Geol. Rundschau, 62, 245-277. [CrossRef] [Google Scholar]
  • Degens, E.T. and Ross, D.A. (ed) (1974) The Black Sea: Geology, Chemistry and Biology. Am. Assoc. Petr. Geol. Memoir 20, Tulsa, 629. [Google Scholar]
  • De Leeuw, J.W. (1986) High Molecular Weight Markers.In Biological Markers in the Sedimentary Record (R.B. Johns Ed.) Elsevier, Amsterdam, 256-258. [Google Scholar]
  • Demaison, G.J. and Moore, G.T. (1980) Anoxic Environments and Oil Source Bed Genesis. Bull. Am. Assoc. Petr. Geol., 64, 1179-1209. [Google Scholar]
  • Demaison, G.J. (1984) The Generative Basin Concept. In Petroleum Geochemistry and Basin Evaluation, Ed. by Demaison G.J. and Murris, R.J., Am. Assoc. Petr. Geol. Memoir 35, 1-14. [Google Scholar]
  • Demaison, G.J. and Huizinga, B.J. (1991) Genetic Classification of Petroleum Systems. Bull. Am. Assoc. Petr. Geol., 75, 1626-1643. [Google Scholar]
  • Deroo, G. (1976) Corrélations huiles brutes - roches-mères à l’échelle des bassins sédimentaires. Bull. Centre Rech. Pau, 10, 317-335. [Google Scholar]
  • Deroo, G., Tissot, B., McCrossan, R.G.and Der, F. (1974) Geochemistry of Heavy Oils of Alberta. Canadian Soc. Petr. Geol. Memoir 3, Calgary, Canada, Stacs Data Services, 148-167. [Google Scholar]
  • Disnar, J.R. and Sureau, J.F. (1990) Organic Matter in Ore Genesis: Progress and Perspectives. In Advances in Organic Geochemistry 1989 (B. Durand and F. B觡r Eds), Pergamon Press, 577-590. [Google Scholar]
  • Durand, B.,Fripiat, J.J. and Pelet, R. (1972) Alkylammonium Decomposition on Montmorillonite Surfaces in an Inert Atmosphere. Clays and Clay Minerals, 20, 19-33. [CrossRef] [Google Scholar]
  • Durand, B. and Espitalié, J. (1973) Évolution de la matière organique au cours de l’enfouissement des sédiments. C.R. Acad. Sci., Paris, 276, 2253-2256. [Google Scholar]
  • Durand, B. and Espitalié, J. (1975) Méthode et appareil permettant l’évaluation rapide du potentiel de production pétrolière de sédiments géologiques sur la base de faibles prélèvements. Brevet national 74/14347 (Rock-Eval). [Google Scholar]
  • Durand, B. and Espitali窠J. (1976) Geochemical Studies on the Organic Matter from the Douala Basin (Cameroon) II. Evolution of Kerogen. Geochim. et Cosmochim. Acta, 40, 801-808. [Google Scholar]
  • Durand, B., (ed.) (1980) Kerogen, Insoluble Organic Matter from Sedimentary Rocks, Ȥitions Technip, Paris. [Google Scholar]
  • Durand, B., Ungerer, P., Chiarelli, A. and Oudin, J.L. (1984) Modélisation de la migration de l’huile. Application à deux exemples de bassins sédimentaires. Proceedings of the 11th World Petr. Cong., London, 1981, 1, 3-15. [Google Scholar]
  • Durand, B. (1987) Du kérogène au pétrole et au charbon: les voies et les mécanismes des transformations des matières organiques sédimentaires au cours de l’enfouissement. Mém. Soc. Géol., France, nouvelle série, 151, 77-95. [Google Scholar]
  • Duval, B.C., Cramez, C.and Vail, R. (1998) Stratigraphic Cycles and Major Marine Source Rocks. In de Graciansky C., Hardenbol J., Jacquin T. and Vail, R. (eds.), Mesozoïc and Cenozoïc Sequence Stratigraphy of European Basins, SEPM Special Publication, 60, 43-51. [CrossRef] [Google Scholar]
  • Ekweozor, C.M.,Okogun, G.I.,Ekong, D.E.U. and Maxwell, J.E. (1979) Preliminary Organic Geochemical Studies of Samples from the Niger Delta, Nigeria. Chem. Geol., 27, 39-37. [CrossRef] [Google Scholar]
  • Engel, M.H. and Macko, S.A. (1993) Organic Geochemistry, Principles and Applications, Plenum Press, 871. [Google Scholar]
  • England, W.A. (1990) The Organic Geochemistry of Petroleum Reservoirs. Organic Geochemistry, 16, 415-425. [CrossRef] [Google Scholar]
  • Engler, C. (1888) D. Chem. Ger., 1816. [Google Scholar]
  • Engler, C. (1912) Die Bildung der Haupt-Bestandteile des Erdöls. Petroleum, 7. [Google Scholar]
  • Erdman, J.G., Marlett, E.M. and Hanson, W.E. (1958) The Occurrence and Distribution of Low Molecular Weight Aromatic Hydrocarbons in Recent and Ancient Sediments. Am. Chem. Soc., Petroleum Chemistry Div., Preprints Chicago Mtg., 3, 4, 39. [Google Scholar]
  • Espitalié, J.,Laporte, J.L.,Madec, M.,Marquis, F.,Leplat, P.,Paulet, J. and Boutefeu, A. (1977) Méthode rapide de caractérisation des roches-mères, de leur potentiel pétrolier et de leur degré d’évolution. Oil & Gas Science and Technology, 32, 23-42. [EDP Sciences] [Google Scholar]
  • Evans, C.R.,Rogers, M.A. and Bailey, N.J.L. (1971) Evolution and Alteration of Petroleum in Western Canada. Chem. Geol., 8, 147-170. [CrossRef] [Google Scholar]
  • Fausett, D.W. (1964) Mathematical Study of an Oil Shale Retort. PhD Thesis, Univ. of Wyoming. [Google Scholar]
  • Finenko, Z.Z. (1967) Primary Production in Southern Seas. In Problems of Bio-Oceanography (V.A. Vodianitsky, Ird Nau Kova Dumka, Kiev (in Russian). [Google Scholar]
  • Forsman, J. and Hunt, J.M. (1958) Insoluble Organic Matter (Kerogen) in Sedimentary Rocks of Marine Origin. In L.G. Weeks (Ed.), Habitat of Oil: A Symposium. Am. Assoc. Petr. Geol., Tulsa, Oklahoma, 747-778. [Google Scholar]
  • Fougeroux de Bondaroy, M. (1770) Second m謯ire sur le Pétrole et sur les vapeurs inflammables connues dans quelques parties de l’Italie, Histoire de l’Académie Royale des Sciences, 91. [Google Scholar]
  • Galimov, E.M. (1980) C13/C12 in Kerogen. In Kerogen (B. Durand Ed.), Editions Technip, Paris. [Google Scholar]
  • Gold, T. (1979) Terrestrial Sources of Carbon and Earthquake Outgasing. J. of Petr. Geol., 1, 3, 1-19. [CrossRef] [MathSciNet] [Google Scholar]
  • Goldstein, T. and Aizenshtat, Z. (1994) Thermochemical Sulfate Reduction, A Review. J. Therm. Anal., 42, 241-290. [CrossRef] [MathSciNet] [Google Scholar]
  • Gracianski de, P.C.,Deroo, G.,Herbin, J.,Jacquin, T.,Magniez, F.,Montadert, C.,Müller, C.,Ponsot, C.,Schaaf, A., and Sigal, J. (1982) Ocean-Wide Stagnation Episodes in the Late Cretaceous. Geol. Rundschau, 75, 17-41. [CrossRef] [Google Scholar]
  • Graciansky de, P.C., Hardenbol, J., Jacquin, T. and Vail, R. (eds.) (1998) Mesozoïc and Cenozoïc Sequence Statigraphy of European Basins. SEPM Special Publication, 60, 43-51. [Google Scholar]
  • Gransch, J.A. and Eisma, E. (1970) Characterisation of the Insoluble Organic Matter of Sediments by Pyrolysis. In Advances in Organic Geochemistry, 1966, (G.D. Hobson and G.C. Speers Eds.) 407-426. [Google Scholar]
  • Gutjahr, C.C.M. (1966) Carbonisation Measurements of Pollen Grains and Spores and their Application. Thesis, Leiden. [Google Scholar]
  • Huc, A.Y. and Durand, B. (1974). Étude des acides humiques et de l’humine de sediments récents considérés comme précurseurs des kérogènes. In Advances in Organic Geochemistry, 1973, Actes du 6e congrès de géochimie organique, Éditions Technip, Paris, 53-72. [Google Scholar]
  • Huc, A.Y. (ed.) (1995). AAPG Studies in Geology No. 40. Am. Assoc. Petr. Geol., Tulsa, Oklahoma. [Google Scholar]
  • Huc, A.Y., Carpentier, B., Guehenneux, G. and Magnier, C. (1999) Geochemistry in a Reservoir and Production Perspective. SPE Paper 53146. [Google Scholar]
  • Huc, A.Y.,Vandenbroucke, M.,Bertrand, Ph.,Gayet, J. and Stow, D.A.V. (2001) Organic Sedimentation in Deep Offshore Settings: The Quaternary Sediments Approach. Marine and Petroleum Geology, 18, 513-517. [CrossRef] [Google Scholar]
  • Hubbert, M.K. (1953). Entrapment of Oil under Hydrodynamic Conditions. Bull. Am. Assoc. Petr. Geol., 37, 1954-2026. [Google Scholar]
  • Huck, G., and Karweil, J. (1955) Physikalische Probleme der Inkohlung. Brennst. Chem., 36, 1-11. [Google Scholar]
  • Hunt, T.S. (1863) Report on the Geology of Canada. In Canadian Geol. Surv., Rep. 983 [Google Scholar]
  • Hunt, J.M. (1963) Geochemical Data on Organic Matter in Sediments. In V. Bese (Ed.) 3rd International Scientific Conference on Geochemistry, Microbiology and Petroleum Chemistry Proc., KULTURA, Budapest, 2, 394-412. [Google Scholar]
  • Hunt, J.M. (1972) Distribution of Carbon in Crust of Earth. Bull. Am. Assoc. Petr. Geol., 56, 2273-2277. [Google Scholar]
  • Hunt, J.M. (1979) Petroleum Geochemistry and Geology, Freeman, San Francisco. [Google Scholar]
  • Jaccard, A. (1895) Le pétrole, l’asphalte et le bitume au point de vue géologique, Félix Alcan, Paris. [Google Scholar]
  • Jeffrey, W.A. and Kaplan, I.R. (1988) Hydrocarbons and Inorganic Gases in the Gravberg-1 Well, Siljan Ring, Sweden. Chemical Geology, 71, 1-3, 237-257. [CrossRef] [Google Scholar]
  • Kartsev, A.A., Vassoevitch N.B., Geodekian, A.A., Neruchev, S.G., and Sokolov, V.A. (1971) The Principal Stage of Oil Formation. In 8th World Petrol., Cong. Proc., Applied Science Publishers, London, 2, 3-11. [Google Scholar]
  • Karweil, J. (1955) Die Metamorphose der Kohlen vom Standpunkt der physicalischen Chemie. Z. Dtsch. Geol. Ges., 107, 132-139. [Google Scholar]
  • Kaufman, R.L., Ahmed, A.S. and Elsinger, R.L. (1990) Gas Chromatography as a Development and Production Tool for Fingerprinting Oils from Individual Reservoirs: Application in the Gulf Coast of Mexico. Gulf Coast Section of the SEPM Foundation 9th Annual Research Conference Proceedings, 263-282. [Google Scholar]
  • Katz, B.J. and Pratt, L. (1993) Source Rocks in a Sequence Stratigraphic Framework. AAPG Studies in Geology, Tulsa, Oklahoma, 37, 237. [Google Scholar]
  • Katz, B.J. (1995) Petroleum Source Rocks, Springer-Verlag, 327. [Google Scholar]
  • Klemme, H.D. and Ulmishek, G.F. (1991) Effective Petroleum Source Rocks of the World: Stratigraphic Distribution and Controlling Depositional Factor. Bull. Am. Assoc. Petr. Geol., 75, 1809-1851. [Google Scholar]
  • Krevelen van, D.W. (1950) Graphical-Statistical Method for the Study of Structure and Reaction Processes of Coal. Fuel, 29, 269. [Google Scholar]
  • Krevelen van, D.W. (1961, 2nd ed. 1981) Coal: Typology, Chemistry, Physics, Constitution, Elsevier, Amsterdam. [Google Scholar]
  • Krooss, B. (1986) Diffusion of C1 to C5 Hydrocarbons in Water- Saturated Sedimentary Rocks. Erdöl und Kohle-Erdgas- Petrochemie, 39, 399-402. [Google Scholar]
  • Landais, P., Dubessy, J., Poty, B. and Robb, J.R. (1990) Three Examples Illustrating the Analysis of Organic Matter Associated with Uranium Ores. In Advances in Organic Geochemistry, 1989 (B. Durand and F. B觡r Eds.), Pergamon Press, 601-608. [Google Scholar]
  • Largeau, C., Derenne, S., Casadevall, E., Berkaloff, C., Corolleur, M., Lugardon, B., Raynaud, J.F., and Connan, J. (1990) In Advances in Organic Geochemistry, 1989 (B. Durand and F. B觡r Eds.), Pergamon Press, 889-895. [Google Scholar]
  • Larter, S.R., Horsfield, B. and Douglas, A.G. (1977) Pyrolysis as a Possible Mean of Determining the Petroleum Generation Potential of Sedimentary Organic Matter. In 3rd International Symposium of Analytical Pyrolysis, Elsevier, Amsterdam, 189-202. [Google Scholar]
  • Leplat, P. (1967) Application of Pyrolysis Gas Chromatography to the Study of the Non Volatile Petroleum Fraction. J. Gas Chromatography, 5, 128-135. [CrossRef] [Google Scholar]
  • Lewan, M.D.,Winters, J.C. and MacDonald, J.H. (1979) Generation of Oil-Like Pyrolysates from Organic Rich Shales. Science, 203, 897-899. [CrossRef] [PubMed] [Google Scholar]
  • Leythaeuser, D.,Schaefer, R.G. and Yükler, A. (1982) Role of Diffusion in Primary Migration of Hydrocarbons. Bull. Am. Assoc. Petr. Geol., 66, 408-429. [Google Scholar]
  • Lind, S.C. (1938) The Science of Petroleum, Oxford University Press, New York, 39-41 [Google Scholar]
  • Lopatin, N.V. (1971) Temperature and Geological Time as Factors of Carbonification. Akad. Nauk SSSR., Izs. Ser. Geol., 3, 95-106. [Google Scholar]
  • Louis, M. and Tissot, B. (1967) Influence de la temp象ture et de la pression sur la formation des hydrocarbures dans les argiles à kérogène. 7th World Petr. Cong. Proc., 2, 47-60. [Google Scholar]
  • Mackenzie, A.S. (1984) Application of Biological Markers in Petroleum Geochemistry. In Advances in Petroleum Organic Geochemistry (J. Brooks and D.H. Welte Eds.), Academic Press, 115-214. [Google Scholar]
  • Matavelli, L. and Novelli L. (1988) Geochemistry and Habitat of Matural Gas in Italy. Organic Geoch., 13, 1-13. [CrossRef] [Google Scholar]
  • McAuliffe, C.D. (1966) Solubility in Water of Paraffin, Cyclo- Paraffin, Olefin, Acetylene, Cycloolefin and Aromatic Hydrocarbons. J. Phys. Chem., 70, 1267-1275. [CrossRef] [Google Scholar]
  • McAuliffe, C.D. (1980) Oil and Gas Migration: Chemical and Physical Constraints. In AAPG Studies in Geology no. 10, Problems of Petroleum Migration (W.H. Roberts III and J.R. Cordell Eds), 89-107. [Google Scholar]
  • Mc Coy, A.W. and Trager, P. (1919) Notes on Principles of Oil Accumulation. J. Geol., 27, 252-262. [CrossRef] [Google Scholar]
  • McIver, R.D. (1967) Composition of Kerogen Clue to its Role in the Origin of Petroleum. 7th World Petr. Cong. Proc., 2, 25-36. [Google Scholar]
  • McKirdy, D.M., Aldridge, A.K. and Ypma, J.M. (1983) A Geochemical Comparison of Some Crude Oils from Pre-Ordovician Carbonate Rocks. In Advances in Organic Geochemistry, 1981 (M. Bjoroy et al. Ed.), Wiley, Chichester, 99-107. [Google Scholar]
  • Mendeleiev, D.I. (1878) Revue Scientif., XIII, 409. [Google Scholar]
  • Menschein, W.G. (1959) Origin of Petroleum. Bull. Am. Assoc. Petr. Geol., 43, 925-943. [Google Scholar]
  • Moldowan, J.M., Albrecht, P., Philp, R. (1992) Biological Markers in Sediments and Petroleum, Prentice Hall, 411. [Google Scholar]
  • Müller, J. and Stoffers, P (1974) Mineralogy and Petrology of Black Sea Sediments. In the Black Sea, Geology, Chemistry and Biology (E.T. Degens and D.A. Ross, Eds.). Am. Assoc. Petr. Geol., Memoir 20, 200-248. [Google Scholar]
  • Nogaret, E. (1983) Solubilité des hydrocarbures dans le gaz naturel comprimé. Application à la migration du pétrole dans les bassins sédimentaires. PhD Thesis, École des Mines de Paris. [Google Scholar]
  • Oberlin, A.,Boulmier, J.L. and Durand, B. (1974) Electron Microscopic Investigation of the Structure of Naturally and Artificially Metamorphosed Kerogen. Geochimica et Cosmochimica Acta, 38, 647-650. [CrossRef] [Google Scholar]
  • Oh, C.H., Trichet, J., Oh, J.H. and Rouzaud, J.N. (1990) Relation Between the Thermal Behaviour and the Structure of Kerogen in the Gosean Uranium Deposit, Korea. In Advances in Organic Geochemistry, 1989 (B. Durand and F. Béhar Eds.), Pergamon Press, 609-620. [Google Scholar]
  • Ourisson, G.,Albrecht, P. and Rohmer, M. (1979) The Hopanoids. Paleochemistry and Biochemistry of a Group of Natural Products. Pure Appl. Chem., 51, 709-729. [CrossRef] [Google Scholar]
  • Pakhomova, A.S. (1961) Organic Matter in the Bottom Deposits of the Caspian, Tr. Gos. Okeanogr. Inst., 6, 18, (in Russian). [Google Scholar]
  • Peake, E., and Hodgson, G.W. (1965) Alkanes in Natural Aqueous Systems: Accommodation of C20-C33 n-Alkanes in Distilled Water and Occurrence in Natural Water Systems. Bull. Am. Oil Chem. Soc., 56th Annual Spring Meeting, Houston, Texas. [Google Scholar]
  • Pelet, R., Debyser, Y., Combaz, A. et al. (1977, 1978, 1979, 1981, 1983) Géochimie organique des sédiments marins profonds. CEPM-CNEXO, Comité d’études géochimiques marines, Ȥitions du CNRS. [Google Scholar]
  • Peters, K.E. and Moldowan, J.M. (1993) The Biomarkers Guide, Prentice Hall, 363. [Google Scholar]
  • Philippi, G.T. (1965) On the Depth, Time and Mechanism of Petroleum Generation. Geochim. Cosmochim. Acta, 29, 1021-1049. [CrossRef] [Google Scholar]
  • Petrov, A.A. (1987) Petroleum Hydrocarbons, Springer Verlag. Pratt, W.E. (1943) Oil in the Earth, Lawrence, Univ. of Kansas Press, 106. [Google Scholar]
  • Prinzhofer, A. and Huc, A.Y. (1995) Genetic and Post-Genetic Molecular and Isotopic Fractionations in Natural Gases. Chemical Geology, 126, 281-290. [CrossRef] [Google Scholar]
  • Prinzhofer, A.,Mello, M.R. and Takaki, T. (2000) Geochemical Characterization of Natural Gas: A Physical Multivariable Approach and its Applications in Maturity and Migration Estimates. Bull. Am. Assoc. Petr. Geol., 84, 1152-1172. [Google Scholar]
  • Radke, M. (1987) Organic Geochemistry of Aromatic Hydrocarbons. In Advances in Petroleum Organic Geochemistry (J. Brooks, and D.H. Welte, Eds.), Academic Press, London, 2, 141-217. [Google Scholar]
  • Reed, J.D., Illich, H.A. and Horsfield, B. (1986) Biochemical Evolutionary Significance of Ordovician oils and their Sources. In Advances in Organic Geochemistry, 1985 (L.D. Leythaeuser and J. Rullkötter Eds.), Academic Press, London, 141-217. [Google Scholar]
  • Rice, D.D. and Claypool, G.E. (1981) Generation, Accumulation and Resource Potential of Biogenic Gas. Bull. Am. Assoc. Petr. Geol., 65, 5-25. [Google Scholar]
  • Romankevitch, Y.A. (1977) Geochemistry of Organic Matter in the Oceans, Dokl. Acad. Nauk SSSR (in Russian). [Google Scholar]
  • Robert, P. (1985 ) Histoire géothermique et diagenèse organique. Bull. Centres Rech. Explor.-Prod., Elf-Aquitaine, Mém. 8, Pau. [Google Scholar]
  • Rullkötter, J. and Michaelis, W. (1990) The Structure of Kerogen and Related Materials. A Review of Recent Progress and Future Trends. In Advances in Organic Geochemistry, 1989 (B. Durand and F. Béhar eds.), Pergamon Press, 829-852. [Google Scholar]
  • Sackett, W.M., Bernard, B. and Brooks, J. (1975) Isotopic and Molecular Compositions of Seep Gases in the Gulf of Mexico. Paper Presented at the Southern Regional Organic Geochemists' Meeting, Nov. 1975, Port Aransas, Texas. [Google Scholar]
  • Schoell, M. (1983) Genetic Characterization of Natural Gases. Bull. Am. Assoc. Petr. Geol., 67, 2225-2238. [Google Scholar]
  • Schneider, F.,Wolf, S.,Faille, I. and Pot, D. (2000) A 3D Model for Hydrocarbon Potential Evaluation: Application to Congo Offshore. Oil and Gas Science and Technology, 1, 3-13. [Google Scholar]
  • Seifert, W.K. and Moldowan, J.M. (1981) Paleoreconstruction by Biological Markers. Geochim. Cosmochim. Acta, 45, 783-794. [CrossRef] [Google Scholar]
  • Schochardt, M. (1943) Grunlagen und neuere Erkenntnisse der angewandten Braunkohlenpetrographie, Knapp, Halle. [Google Scholar]
  • Silverman, S.R. and Epstein (1958) Carbon Isotopic Composition of Petroleums and Other Sedimentary Organic Materials. Bull. Am. Assoc. Petr. Geol., 42, 998-1012. [Google Scholar]
  • Silverman, S.R. (1965) Migration and Segregation of Oil and Gas. In Fluids in Subsurface Environments, Am. Assoc. Petr. Geol., Memoir 4, Tulsa, Oklahoma, 53-65. [Google Scholar]
  • Shimkus, K.M. and Trimonis, E.S. (1974) Modern Sedimentation in Black Sea. In the Black Sea, Geology, Chemistry and Biology (E.T. Degens and D.A. Ross, Eds). Am. Assoc. Petr. Geol., Memoir 20, 249-278. [Google Scholar]
  • Smalley, C. and England, W.A. (1992) Assessing Reservoir Compartimentalisation During Field Appraisal: How Geochemistry Can Help. SPE Paper 25005. [Google Scholar]
  • Smith, V. (1954) Studies on the Origin of Petroleum, Occurrence of Hydrocarbons in Recent Sediments. Bull. Am. Assoc. Petr. Geol., 38, 377-404. [Google Scholar]
  • Sokolov, V. (1974) G讣himie des gaz naturels, Ȥitions Mir, Moscou. [Google Scholar]
  • Stach, E. (1935) Lehrbuch des Kohlenpetrographie, Borntraeger, Berlin. [Google Scholar]
  • Stach, E., Mackowsky, M.Th., Teichmüller, M., Taylor, G.H., Chandra, D. and Teichmüller, R. (1982) Coal Petrology, Borntraeger, Berlin. [Google Scholar]
  • Stahl, W.J. (1977) Carbon and Nitrogen Isotopes in Hydrocarbon Research and Exploration. Chem. Geol., 20, 121-140. [CrossRef] [Google Scholar]
  • Stevens, N., (1956) Origin of Petroleum, A Review. Bull. Am. Assoc. Petr. Geol., 40, 51-61. [Google Scholar]
  • Stevens, N.,Bray, E.E. and Evans, D. (1956) Hydrocarbons in Sediments of Gulf of Mexico. Bull. Am. Assoc. Petr. Geol., 40, 975-983. [Google Scholar]
  • Stone, R.W. and ZoBell, C.E. (1952) Bacterial Aspects of the Origin of Petroleum. Indus. Eng. Chem., 44, 2564-2567. [CrossRef] [Google Scholar]
  • Stopes, M.C. (1919) Proc. Roy. Soc. London, B 90, 470. [Google Scholar]
  • Stopes, M.C. (1935) Fuel, 14, 4. [Google Scholar]
  • Teichmüller, M. (1958) Métamorphisme du charbon et prospection du pétrole. Rev. Ind. Minér., numéro spécial, 99-113. [Google Scholar]
  • Teichmüller M. (1986) Organic Petrology of Source Rocks, State of the Art. In Organic Geochemistry, 10, 581-599. [CrossRef] [Google Scholar]
  • Tissot, B. (1969) Premières données sur les mécanismes et la cinétique de la formation du pétrole dans les bassins sédimentaires. Simulation d'un schéma réactionnel sur ordinateur. Oil & Gas Science and Technology, 24, 470-501. [Google Scholar]
  • Tissot, B. (1973) Vers l’évaluation quantitative du pétrole ormé dans les bassins sédimentaires. Revue Assoc. Fr. Tech. Pétr., 222, 27-31. [Google Scholar]
  • Tissot, B., Durand, B., Espitalié, J. and Combaz, A (1974) Influence of the Nature and Diagenesis of Organic Matter in Formation of Petroleum. Am. Assoc. Petr. Geol., 58, 499-506. [Google Scholar]
  • Tissot, B.,Deroo, G. and Espitalié, J. (1975) Étude comparée de l’époque de formation et d’expulsion du pétrole dans diverses provinces géologiques. Proc. 9th World Pet. Congr., Applied Science Publ., 2, 159-169. [Google Scholar]
  • Tissot, B. and Welte, D.H. (1978, 2nd edition 1984) Petroleum Formation and Occurrence, Springer Verlag. [Google Scholar]
  • Tissot, B. (1979) Effect on Prolific Petroleum Source Rocks and Major Coal Deposits Caused by Sea Level Changes. Nature, 277, 462-465. [CrossRef] [Google Scholar]
  • Tissot, B., Deroo, G. and Herbin, J. (1979) Organic Matter in Cretaceous Sediments of the North Atlantic: Contribution to Sedimentology and Paleogeography. In Deep Drilling Results in the Atlantic Ocean: Continental Margins and Paleoenvironments, Talwian, M., Hay W., Ryan, W.B.F. Maurice Ewing Series, 3, Am. Geoph. Union, 362-374. [Google Scholar]
  • Tissot, B. and Bessereau, G. (1982) Géochimie des gaz naturels et origine des gisements de gaz en Europe occidentale. Oil & Gas Science and Technology, 37, 63-77. [EDP Sciences] [Google Scholar]
  • Trask, D. and Wu, C.C. (1930) Does Petroleum Forms in Sediments at Time of Deposition? Bull. Am. Assoc. Petr. Geol., 14, 1451-1463. [Google Scholar]
  • Trask, D., Hammar, H.E. and Wu, C.C. (1932) Origin and Environment of Source Sediments of Petroleum, Gulf Publications, Houston. [Google Scholar]
  • Trask, D., and Patnode, H.W. (1942) Source Beds of Petroleum. Am. Assoc. Petr. Geol., Tulsa, Oklahoma, 566. [Google Scholar]
  • Treibs, A. (1934) Chlorophyll und Häminderivate in bituminösen Gesteinen, Erdölen, Erdwachsen und Asphalten. Ann. Chem., 510, 42-62. [CrossRef] [Google Scholar]
  • Ungerer, P., Béhar, E. and Discamps, D. (1983) Tentative Calculation of the Overall Expansion of Organic Matter During Hydrocarbon Genesis from Geochemistry Data. Implications for Primary Migration. In Advances in Organic Geochemistry, 1981, (M. Bjoroy Ed.), Wiley, 129-135. [Google Scholar]
  • Ungerer, P. and Pelet, R. (1987) Extrapolation of Kinetics of Oil and Gas Formation from Laboratory Experiments to Sedimentary Basins. Nature, 327, 52-54. [CrossRef] [Google Scholar]
  • Ungerer, P., Espitalié, J., Béhar, F. and Eggen, S. (1988) Modélisation mathématique des interactions entre craquage thermique et migration lors de la formation du pétrole et du gaz. C.R. Acad. Sc. Ser. II, Paris, 927-934. [Google Scholar]
  • Ungerer, P.,Burrus, J.,Doligez, B.,Chenet, Y. and Bessis, F. (1990) Basin Evaluation by Integrated 2D Modelling of Heat Transfer, Fluid Flow, Hydrocarbon Generation and Migration. Bull. Am. Assoc. Petr. Geol., 74, 309-335. [Google Scholar]
  • Ungerer, P. (1993) Modelling of Petroleum Generation and Migration. In Applied Petroleum Geochemistry (M.L. Bordenave Ed.), Éditions Technip, Paris. [Google Scholar]
  • Vassoevich, N.B.,Korchagina, Yu.I.,Lopatin, N.V. and Chernyshev, V.V. (1969) Principal Phase of oil Formation. Moskow Univ. Vestnik 6, 3-6 (in Russian), English Translation, Int. Geol. Rev. 1970, 12, 11,1276-1296. [Google Scholar]
  • Vandenbroucke, M., Bordenave, M.L. and Durand, B. (1993) Transformation of Organic Matter with Increasing Burial of Sediments and the Formation of Petroleum in Source Rocks (1993) In Applied Petroleum Geochemistry (M.L. Bordenave Ed.), Éditions Technip, Paris. [Google Scholar]
  • Vernadsky, V.I. (1934) Outlines of Geochemistry ONTI, Gornogeolog. Neft. Izd. [Google Scholar]
  • Vially, R. (ed.) (1992) Bacterial Gas, Éditions Technip, Paris.Waples, D.W. (1980) Time and Temperature in Petroleum Formation/Application of Lopatin’s Method to Petroleum Exploration. Bull. Am. Assoc. Petr. Geol., 64, 916-926. [Google Scholar]
  • Waples, D.W. (1985) Geochemistry in Petroleum Exploration, Reidel Publish. Cy, Dordrechts, 232. [Google Scholar]
  • Welte, D.H., Hagemann, H.W., Hollerbach, A., Leythaeuser, D. and Stahl, W. (1975) Correlation Between Petroleum and Source Rock. 9th World Petr. Cong. Proc., 2, 179-191. [Google Scholar]
  • Welte, D.H., Horsfield, B. and Baker, D.R. (1997) Petroleum and Basin Evolution. Insights from Petroleum Geochemistry, Geology and Basin Modelling, Springer-Verlag. [Google Scholar]
  • White, D. (1915) Geology: Some Relations in Origin Between Coal and Petroleum. J. Wash. Acad. Sci., 6, 189-212. [Google Scholar]
  • White, D. and Thiessen (1913) The Origin of Coal. USBM Bull., 38. [Google Scholar]
  • Whitehead, W.L. (1951) Studies of the Effect of Radio Activity in the Transformation of Marine Organic Materials into Petroleum Hydrocarbons. Fundamental Research on Occurrence and Recovery of Petroleum, American Petroleum Institute, 192-201. [Google Scholar]
  • ZoBell, C.E. (1947) Microbial Transformation of Molecular Hydrogen in Marine Sediments with Particular Reference to Petroleum. Bull. Am. Assoc. Petr. Geol., 31, 1709-1751. [Google Scholar]

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