Petroleum source rocks
Open Access
Issue
Bull. Soc. géol. Fr.
Volume 188, Number 5, 2017
Petroleum source rocks
Article Number 32
Number of page(s) 16
DOI https://doi.org/10.1051/bsgf/2017197
Published online 15 November 2017
  • Abbink O, Targarona J, Brinkhuis H, Visscher H. 2001. Late Jurassic to earliest Cretaceous palaeoclimatic evolution of the southern North Sea. Global and Planetary Change 30 (3): 231–256. [CrossRef] [Google Scholar]
  • Alsharhan AS, Magara K. 1994. The Jurassic of the Arabian Gulf Basin: Facies, depositional setting and hydrocarbon habitat. Pangea: Global Environment and Resources. Canadian Society of Petroleum Geologists Memoir 17: 397–412. [Google Scholar]
  • Armstrong HA, Wagner T, Herringshaw LG, Farnsworth AJ, Lunt DJ, Harland M, et al. 2016. Hadley circulation and precipitation changes controlling black shale deposition in the Late Jurassic Boreal Seaway. Paleoceanography 31: 1041–1053. [CrossRef] [Google Scholar]
  • Astruc JG, Bruxelles L, Ciszak R. 2008. La série stratigraphique des Causses du Quercy. Journées AFK/AGSO/CFH 5: 6–8. [Google Scholar]
  • Barron E, Sloan II JL, Harrison CG. 1980. Potential significance of land sea distribution and surface albedo variations as climatic forcing factor; 180 m.y. to the present. Palaeogeography, Palaeoclimatology, Palaeoecology 30: 17–40. [CrossRef] [Google Scholar]
  • Barron EJ, Harrison CG, Sloan II JL, Hay WW. 1981. Paleogeography, 180 million years ago to the present. Eclogae Geologicae Helvetiae 74: 443–470. [Google Scholar]
  • Baudin F. 1995. Depositional controls on the Mesozoic source rocks in the Tethys. AAPG Studies in Geology, Tulsa 40: 191–211. [Google Scholar]
  • Beydoun ZR. 1986. The petroleum resources of the Middle East: a review. Journal of Petroleum Geology 9 (1): 5–27. [CrossRef] [Google Scholar]
  • Bilotte M. 1995. Le Bassin d'Aquitaine. Évolution sédimentaire et structurale. Toulouse, 7 : Laboratoire de Géologie sédimentaire et Paléontologie, Université Paul Sabatier. [Google Scholar]
  • Birkenmajer K, Pugazewska H, Wierzbowski A. 1982. The Janusfjellet Formation (Jurassic-Lower Cretaceous) at Myklegardfjellet, east Spitsbergen. Acta Palaeontologica Polonica 43: 107–140. [EDP Sciences] [Google Scholar]
  • Biteau JJ, Le Marrec A, Le Vot M, Masset JM. 2006. The Aquitaine Basin. Petroleum Geoscience 12 (3): 247–273. [CrossRef] [Google Scholar]
  • Bordenave ML. 1993. The sedimentation of organic matter. In: Bordenave ML, ed. Applied Petroleum Geochemistry. Paris: Éditions Technip, pp. 15–76. [Google Scholar]
  • Brigaud B, Puceat E, Pellenard P, Vincent B, Joachimski MM. 2008. Climatic fluctuations and seasonality during the Late Jurassic (Oxfordian-Early Kimmeridgian) inferred from δ 18 O of Paris Basin oyster shells. Earth and Planetary Science Letters 273 (1): 58–67. [CrossRef] [Google Scholar]
  • Burchette TP, Wright VP. 1992. Carbonate ramp depositional systems. Sedimentary Geology 79 (1–4): 3–57. [CrossRef] [Google Scholar]
  • Bureau de recherches géologiques et minières. 1986. Aperçu de la géologie du Bassin Aquitain. Synthèse ANDRA-BRGM. [Google Scholar]
  • Canerot J, Lenoble JL. 1989. Le diapir du Lichançumendy (Pyrénées-Atlantiques), nouvel élément de la marge ibérique des Pyrénées occidentales. Comptes rendus de l'Académie des Sciences. Série 2, Mécanique, Physique, Chimie, Sciences de l'univers, Sciences de la Terre 308 (16): 1467–1472. [Google Scholar]
  • Cecca F, Azema J, Fourcade E, Baudin F, Guiraud R, Bonneau M, et al. 1993. Early Kimmeridgian palaeoenvironments. In: Dercourt J, Ricou LE, Vrielynck B, eds. Atlas Tethys palaeoenvironmental maps. Maps. Rueil-Malmaison: BEICIP-FRANLAB. [Google Scholar]
  • Churkin MJ, Trexler JH. 1981. Continental plates and accreted oceanic terranes in the Arctic. The Arctic Ocean. New York: Plenum Press, pp. 1–20. [Google Scholar]
  • Cubaynes R, Faure P, Hantzpergue P, Pelissie T, Rey J. 1989. Le Jurassique du Quercy : unités lithostratigraphiques, stratigraphie et organisation séquentielle, évolution sédimentaire. Géologie de la France 3: 33–62. [Google Scholar]
  • Cubaynes R, Hantzpergue P, Lezin C. 2004. Les dépôts littoraux du jurassique sur la bordure quercynoise (Aquitaine) : généralités. Livret-guide d'excursion. Toulouse : Laboratoire de Géologie sédimentaire et paléontologie de l'Université Paul Sabatier, vol. 42. [Google Scholar]
  • De Périère MD, Durlet C, Vennin E, Lambert L, Bourillot R, Caline B, et al. 2011. Morphometry of micrite particles in cretaceous microporous limestones of the Middle East: Influence on reservoir properties. Marine and Petroleum Geology 28 (9): 1727–1750. [CrossRef] [Google Scholar]
  • De Wever P, Baudin F. 1996. Paleogeography of radiolarite and organic-rich deposits in Mesozoic Tethys. Geologische Rundschau 85: 310–326. [CrossRef] [Google Scholar]
  • Delfaud J. 1969. Essais sur la géologie dynamique du domaine aquitano-pyrénéen durant le Jurassique et le Crétacé inférieur. Thèse de Doctorat d'État, Université de Bordeaux. [Google Scholar]
  • Dera G, Prunier J, Smith PL, Haggart JW, Popov E, Guzhov A, et al. 2015. Nd isotope constraints on ocean circulation, paleoclimate, and continental drainage during the Jurassic breakup of Pangea. Gondwana Research 27 (4): 1599–1615. [CrossRef] [Google Scholar]
  • Dercourt J, Fourcade E, Cecca F, Azema J, Enay R, Bassoullet JP, et al. 1994. Palaeoenvironment of the Jurassic system in the Western and Central Tethys (Toarcian, Callovian, Kimmeridgian, Tithonian): An overview. Geobios 27: 625–644. [CrossRef] [Google Scholar]
  • Disnar JR, Ramanampisoa L. 1995. Palaeoproduction control on anoxia and organic matter preservation and accumulation in the Kimmeridge Clay Formation of Yorkshire (GB): molecular assessment. In: Organic Matter Accumulation. Berlin Heidelberg: Springer, pp. 49–62. [Google Scholar]
  • Droste H. 1990. Depositional cycles and source rock development in an epeiric intra-platform basin: the Hanifa Formation of the Arabian peninsula. Sedimentary Geology 69 (3): 281–296. [CrossRef] [Google Scholar]
  • Espitalié J, Madec M, Tissot B, Leplat P. 1977. Source rock characterization method for petroleum exploration. Proceedings of the Offshore Technology Conference, Maggio 2–5, Houston, TX, pp. 439–444. [Google Scholar]
  • Espitalié J, Madec M, Leplat P, Paulet J. 1985. Method and device for determining the organic carbon content of a sample. U.S. Patent 4: 519, 983. [Google Scholar]
  • Flügel E. 2004. Microfacies of carbonate rocks: analysis, interpretation and application. Berlin: Springer. [Google Scholar]
  • Frakes LA, Francis JE, Syktus JI. 2005. Climate modes of the Phanerozoic. Cambridge: Cambridge University Press. [Google Scholar]
  • Golonka J, Krobicki M. 2012. Upwelling regime in the Carpathian Tethys: a Jurassic-Cretaceous palaeogeographic and paleoclimatic perspective. Geological Quarterly 45 (1): 15–32. [Google Scholar]
  • Gradstein FM, Ogg JG, Schmitz M, Ogg G. 2012. The geologic time scale 2012. Amsterdam: Elsevier, vol. 2. [Google Scholar]
  • Hallam A. 1975. Jurassic Environments. Cambridge: Cambridge University Press. [Google Scholar]
  • Hantzpergue P. 1987. Les ammonites kimmeridgiennes du haut-fond d'europe occidentale (perisphinctidae, aulacostephanidae et aspidoceratidae) : biochronologie, systématique, évolution, paléobiogéographie. Thèse de Doctorat, Université de Poitiers. [Google Scholar]
  • Hantzpergue P, Lafaurie G. 1983. Le Kimméridgien quercynois : un complément biostratigraphique du Jurassique supérieur d'Aquitaine. Geobios 16 (5): 601–611. [CrossRef] [Google Scholar]
  • Hantzpergue P, Baudin F, Mitta V, Olferiev A, Zakharov V. 1998. The Upper Jurassic of the Volga basin: ammonite biostratigraphy and occurrence of organic-carbon rich facies. Correlations between Boreal-Subboreal and Submediterranean Provinces. In: Crasquin-Soleau S, Barrier E, eds. Peri-Tethys Memoir 4: Epicratonic basins of Peri-Tethyan Platforms. Mém Muséum natn Hist Nat 179: 9–33. [Google Scholar]
  • Hardenbol J, Thierry J, Farley MB, Jacquin T, De Graciansky PC, Vail PR. 1998. Appendix To: Mesozoic and Cenozoic Sequence Chronostratigraphic Framework of European Basins. Special Publication-SEPM 60: 763–781. [Google Scholar]
  • Harris PMM, Katz BJ. 2005. Carbonate mud and carbonate source rocks. Calgary (Canada): AAPG. [Google Scholar]
  • Herbin JP, Geyssant JR. 1993. Ceintures organiques au Kimméridgien/Tithonien en Angleterre (Yorkshire, Dorset) et en France (Boulonnais). Comptes rendus de l'Académie des sciences. Série 2, Mécanique, Physique, Chimie, Sciences de l'univers, Sciences de la Terre 317 (10): 1309–1316. [Google Scholar]
  • Huret E. 2006. Analyse cyclostratigraphique des variations de la susceptibilité magnétique des argilites callovo-oxfordiennes de l'Est du Bassin de Paris : application à la recherche de hiatus sédimentaires. Thèse de Doctorat, Université Pierre et Marie Curie – Paris 6. [Google Scholar]
  • Lallier-Vergès E, Bertrand P, Tribovillard N, Desprairies A. 1995. Short-term organic cyclicities from the Kimmeridge Clay Formation of Yorkshire (GB): combined accumulation and degradation of organic carbon under the control of primary production variations. In: Organic Matter Accumulation. Berlin Heidelberg: Springer, pp. 3–13. [CrossRef] [Google Scholar]
  • Lamas F, Irigaray C, Oteo C, Chacon J. 2005. Selection of the most appropriate method to determine the carbonate content for engineering purposes with particular regard to marls. Engineering geology 81 (1): 32–41. [CrossRef] [Google Scholar]
  • Martinez M, Dera G. 2015. Orbital pacing of carbon fluxes by a 9-My eccentricity cycle during the Mesozoic. Proceedings of the National Academy of Sciences 112 (41): 12604–12609. [CrossRef] [Google Scholar]
  • Meyer M. 2000. Le complexe récifal kimméridgien-tithonien du Jura méridional interne (France), évolution multifactorielle, stratigraphique et tectonique. Thèse de Doctorat. Faculté Sciences, Université de Genève. [Google Scholar]
  • Müller PJ, Suess E. 1979. Productivity, sedimentation rate, and sedimentary organic matter in the oceans. I. Organic carbon preservation. Deep Sea Research Part A. Oceanographic Research Papers 26 (12): 1347–1362. [CrossRef] [Google Scholar]
  • Murris RJ. 1980. Hydrocarbon habitat of the Middle East. In: Miall AD, ed. Facts and Principles of World Petroleum Occurrence.Calgary (Canada): CSPG Mem, vol. 6, pp. 1–1004. [Google Scholar]
  • Myers KJ. 2009. Organic rich facies and hydrocarbon source rocks. Sequence Stratigraphy 11: 238–257. [Google Scholar]
  • Oschmann W. 1988. Kimmeridge Clay sedimentation – a new cyclic model. Palaeogeography, Palaeoclimatology, Palaeoecology 65: 217–251. [CrossRef] [Google Scholar]
  • Pedersen TF, Calvert SE. 1990. Anoxia vs. productivity: what controls the formation of organic-carbon-rich sediments and sedimentary rocks? AAPG Bulletin 74: 454–466. [Google Scholar]
  • Pélissié T. 1982. Le Causse jurassique de Limogne-en-Quercy : stratigraphie, sédimentologie, structure. Thèse 3e cycle. Toulouse : Université Paul Sabatier. [Google Scholar]
  • Pélissié T, Peybernes B, Rey J. 1984. Les grands foraminifères benthiques du Jurassique moyen/supérieur du sud-ouest de la France (Aquitaine, Causses, Pyrénées). Intérêt biostratigraphique, paléoécologique et paléobiogéographique. Benthos 83 (2): 479–489. [Google Scholar]
  • Pene F. 1956. Les Hydrocarbures dans le Bassin Aquitain. Bordeaux : Éditions Universitaires. [Google Scholar]
  • Poppelreiter MC, Kolkmann W, Hordijk H, Stevanovich M. 2012. Regional settings and characteristics of an Oxfordian hot shale. In: Fourth EAGE Workshop on Arabian Plate Geology. [Google Scholar]
  • Quirein JA, Gardner JS, Watson JT. 1982. Combined natural gamma-ray spectral litho-density measurements applied to clay mineral identification. AAPG Bulletin-American Association of Petroleum Geologists 66 (9): 1446–1446. [Google Scholar]
  • Riboulleau A, Baudin F, Daux V, Hantzpergue P, Renard M, Zakharov V. 1998. Évolution de la paléotempérature des eaux de la plate-forme russe au cours du Jurassique supérieur. Comptes Rendus de l'Académie des Sciences, Paris, Sciences de la Terre et des Planètes 326: 239–246. [Google Scholar]
  • Riboulleau A, Baudin F, Deconinck JF, Derenne S, Largeau C, Tribovillard N. 2003. Depositional conditions and organic matter preservation pathways in an epicontinental environment: the Upper Jurassic Kasphir Oil Shales (Volga Basin, Russia). Palaeogeography, Palaeoclimatology, Palaeoecology 197 (3–4): 1–27. [CrossRef] [Google Scholar]
  • Riboulleau A, Schnyder J, Riquier L, Lefevre V, Baudin F, Deconinck J-F. 2007. Environmental change during the Early Cretaceous in the Purbeck-type Durlston Bay section (Dorset, Southern England): a biomarker approach. Organic Geochemistry 38: 1804–1823. [CrossRef] [Google Scholar]
  • Schmoker JW. 1981. Determination of organic-matter content of Appalachian Devonian shales from gamma-ray logs. AAPG Bulletin 65 (7): 1285–1298. [Google Scholar]
  • Schnyder J, Gorin G, Deconinck JF, Baudin F, Soussi M. 2005. Enregistrement de la variation climatique du passage Jurassique/Crétacé sur la marge sud de la Téthys : minéralogie des argiles et palynofaciès de la coupe du Jebel Meloussi en Tunisie (formation Sidi Kralif). Bulletin de la Société géologique de France 176 (2): 171–182. [CrossRef] [Google Scholar]
  • Schnyder J, Baudin F, Deconinck JF. 2009. Occurrence of organic-matter-rich beds in Lower Cretaceous coastal evaporitic setting (Dorset, UK): a link to long-term palaeoclimate changes? Cretaceous Research 30: 356–366. [CrossRef] [Google Scholar]
  • Schnyder J, Deconinck JF, Baudin F, Colombie C, Du Chene RJ, Gardin S, et al. 2012. Purbeck beds (Late Jurassic) in the Phare de Chassiron section (Île d'Oléron, NW Aquitaine Basin, France): Refined age-assignment and long-term depositional sequences. Geobios 45 (5): 485–499. [CrossRef] [Google Scholar]
  • Serra O. 1979. Diagraphies différées. Bases de l'interprétation. Tome 1 : Acquisition des données diagraphiques. Bulletin du Centre de Recherche Exploration-Production Elf-Aquitaine. Pau : Éditions Technip, vol. 328. [Google Scholar]
  • Vogt PR, Peery RK, Feden RH, Fleming HS, Cherkis NZ. 1981. The Greenland-Norwegian Sea and Iceland environment. Arctic Ocean. New York, N.Y.: Plenum Press, pp. 493–581. [Google Scholar]
  • Volery C, Davaud E, Durlet C, Clavel B, Charollais J, Caline B. 2010. Microporous and tight limestones in the Urgonian Formation (late Hauterivian to early Aptian) of the French Jura Mountains: focus on the factors controlling the formation of microporous facies. Sedimentary Geology 230 (1): 21–34. [CrossRef] [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.