Abstract
The Schistes Carton was deposited within an epicontinental sea during the falciferum zone (early Toarcian), during a period of approximately 500 000 years. Available data suggest that deposition occurred under oxygen-depleted conditions. These shales typically obtain thicknesses between 10 and 20 m, with maximum values in excess of 50 m. The shales are dominated by illite and kaolinite, with only minor amounts of calcite and quartz. Total organic carbon content ranges from ~ 1 to ~ 12 wt.% organic carbon, with total generation potentials ranging from 0.5 to 85 mg HC/g rock. Thermally immature samples display hydrogen index values of ~ 600 mg HC/g TOC and atomic H/C ratios ~ 1.25. Visual kerogen analysis reveals that the samples are dominated by finely disseminated amorphous organic matter. The kerogen displays only a minor terrestrial background signal, i.e., only trace quantities of vitrinite are present. Studies of the associated bitumen fractions also reveal a predominantly marine character, with only a minor terrestrial overprint. Differences in the character of extracted bitumens from outcrop samples commonly ascribed to provincial differences appear more likely due to differences in the level of thermal maturity. The lack of significant amounts of vitrinite precludes its use in the determination of thermal maturity. Other thermal maturity indices, however, suggest that the onset of thermal hydrocarbon generation occurs within the Toarcian shales at a depth between 1500 and 2100 m, with the main stage of hydrocarbon generation and expulsion occurring at a depth of ~ 2400 m. Petroleum expulsion occurred primarily between 35 and 20 Ma B.P. Exploration for Schistes Carton-derived oils is largely limited by the unit’s low level of thermal maturity.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Alpern B, Cheymol D (1978) Réflectance et fluorescence des organoclastes du Toarcien du Bassin de Paris en fonction de la profondeur et de la température. Rev Inst Français Pétrole 33: 515–535
Besairie H, Collignon M (1972) Géologie de Madagascar. I. Les terrains sédimentaires. Madagascar Ann Géol 35, 463 pp
Bessereau G, Guillocheau F (1993) Stratigraphie séquentielle et distribution de la matière organique dans Lias du Bassin de Paris. C R Acad Sci Sér II, 316: 1271–1278
Bessereau G, Huc AY, Carpentier B (1992) Distribution of organic matter in the Liassic series of the Paris basin: an example of organic heterogeneity in a source rock interval. In: Spencer AM (ed) Generation, accumulation and production of Europe’s hydrocarbons II. Springer, Berlin Heidelberg New York, pp 117–125
Bissada KK (1982) Geochemical constraints on petroleum generation and migration — a review. Proc 2nd ASCOPE Conf, Manila, Oct, 1981, pp 69–87
Brasseil SC, Wardroper AMK, Thomson ID, Maxwell JR, Eglinton G (1981) Specific acyclic isoprenoids as biological markers of methanogenic bacteria in marine sediments. Nature 290: 693–696
Crostella A, Barter T (1980) Triassic-Jurassic depositional history of the Dampier and Beagle sub-basins, northwest shelf of Australia. Aust Petrol Explor Assoc J 20: 25–33
Durand B, Espitalié J, Nicaise G, Combaz A (1972) Etude de la matière organique insoluble (kérogène) des argiles du Toarcien du Bassin de Paris. Rev Inst Français du Pétrole 27: 865–884
Espitalié J, Madec M (1981) Les schistes bitumineux du Toarcien de la bordure orientale du Bassin de Paris. Bull Cent Rech Explor Prod Elf-Aquitaine 5: 461–472
Espitalié J, Laporte JL, Madec J, Marquis F, Leplat P, Paulet J, Boutefeau, A (1977) Methode rapide de caracterisation des roches mères de leur potential pétrolier et de leur degré d’évolution. Rev Inst Français du Pétrole 33: 23–42
Espitalié J, Marquis F, Sage L, Barsony I (1987) Géochimie organique du Bassin de Paris. Rev Inst Français du Pétrole 42: 271–302
Espitalié J, Maxwell JR, Chenat Y, Marquis F (1988) Aspects of hydrocarbon migration in the Mesozoic in the Paris basin as deduced from an organic geochemical survey. Org Geochem 13: 467–481
Farrimond P, Eglinton G, Brasseil SC, Jenkyns HC (1989) Toarcian anoxic event in Europe: an organic geochemical study. Mar Petrol Geol 6: 136–147
Fleet AJ, Clayton CJ, Jenkyns HC, Parkinson DN (1987) Liassic source rock deposition in western Europe. In: Brooks J, Glennie K (eds) Petroleum geology of North West Europe. Graham & Trotman, London, pp 59–70
Frebold H (1957) The Jurassic Fernie Group in the Canadian Rocky Mountains and foothills. Can Geol Surv Mem 287, 197 pp
Goy G, Noël D, Busson G (1978) Calcareous nannofossils in Lower Toarcian paper-shales from Paris basin (France): a contribution to their environmental knowledge. 10th Int Congr Sedimentol 1: 267–268 (Abst)
Hallam A (1981) A revised sea-level curve for the Early Jurassic. Geol Soc Lond J 138: 735–743
Hollander DJ, Bessereau G, Belin S, Huc AY, Houzay JP (1991) Organic matter in the early Toarcian Paris basin, France: a response to environmental changes. Rev Inst Français du Pétrole 46: 543–562
Huc AY (1976) Mise en evidence de provinces géochimiques dans les schistes bitumineux du Toarcien de l’est du Bassin de Paris. Rev Inst Français du Pétrole 31: 933–953
Huc AY (1977) Contribution de la géochimie organique a une esquisse paléoécologique des schistes bitumineux du Toarcien de l’est du bassin de Paris — étude de la matière organique insoluble (kérogènes). Rev Inst Français du Pétrole 32: 703–718
Huc AY (1990) Understanding organic facies: a key to improved quantitative petroleum evaluation of sedimentary basins. In: Huc AY (ed) Deposition of organic facies. Am Assoc Petrol Geol, Tulsa, Stud Geol 30: 1–11
Imlay RW (1952) Correlation of the Jurassic formations of North America, exclusive of Canada. Geol Soc Am Bull 63: 953–992
Jenkyns HC (1988) The Early Toarcian (Jurassic) anoxic event: stratigraphie, sedimentary, and geochemical evidence. Am J Sci 288: 101–151
Landais P, Monin J-C, Monthioux M, Poty B, Zaugg P (1989) Détermination expérimentale de l’évolution d’indicateurs de maturité de la matière organique. Application aux kérogènes du Toarcien du bassin de Paris. C R Acad Sci Sér II, 308: 1161–1166
Mackenzie AS, Patience RL, Maxwell JR, Vandenbroucke M, Durand B (1980) Molecular parameters of maturation in the Toarcian shales, Paris basin, France — 1. Changes in the configurations of acyclic isoprenoid alkanes, steranes and triterpanes. Geochim Cosmochim Acta 44: 1709–1721
Mouterde R, Tintant H, Alloue J, Gabilly J, Hanzo M, Lefavrais A, Rioult M, Delance J, Donze P, Ruget C (1980) Lias. In: Mégnien C, Mégnien F (eds) Synthèse géologique du Bassin de Paris — stratigraphie et paléogéographie. BRGM, Orléans, Mem 101:75–123
Poulet M, Espitalié J (1987) Hydrocarbon migration in the Paris basin. In: Doligez B (ed) Migration of hydrocarbons in sedimentary basins. Éditions Technip, Paris, pp 131–171
Prauss M, Riegel W (1989) Evidence from phytoplankton associations for causes of black shale formation in epicontinental seas. Neues Jahrb Geol Paläeontol Monatsh 11: 671–682
Riccardi AC (1983) The Jurassic of Argentina and Chile. In: Moullade M, Nairn AEM (eds) The Phanerozoic geology of the world. II. The Mesozoic. Elsevier, Amsterdam, pp 201–263
Tanabe K (1983) Mode of life of an inoceramid bivalve from the Lower Jurassic of Japan. Neues Jahrb Geol Paläeontol Monatsh 7: 419–428
Tissot B, Califet-Debyser Y, Deroo G, Oudin JL (1971) Origin and evolution of hydrocarbons in early Toarcian shales, Paris basin. Am Assoc Petrol Geol Bull 55: 2177–2193
Tissot B, Durand B, Espitalié J, Combaz A (1974) Influence of nature and diagenesis of organic matter in formation of petroleum. Am Assoc Petrol Geol Bull 58: 499–506
Tissot BP, Weite DH (1984) Petroleum formation and occurrence, 2nd edn. Springer, Berlin Heidelberg New York, 699 pp
van Graas G, De Leeuw JW, Schenck PA (1981) Kerogen of Toarcian shales of the Paris basin. A study of its maturation by flash pyrolysis techniques. Geochim Cosmochim Acta 45: 2465–2474
Wolff GA, Lamb NA, Maxwell JR (1986) The origin and fate of 4-methyl steroid hydrocarbons I. Diagenesis of 4-methyl steranes. Geochim Cosmochim Acta 50: 335–342
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1995 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Katz, B.J. (1995). The Schistes Carton — the Lower Toarcian of the Paris Basin. In: Katz, B.J. (eds) Petroleum Source Rocks. Casebooks in Earth Sciences. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-78911-3_4
Download citation
DOI: https://doi.org/10.1007/978-3-642-78911-3_4
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-78913-7
Online ISBN: 978-3-642-78911-3
eBook Packages: Springer Book Archive