Dossier: Diagenesis - Fluid-Rocks Interactions
Open Access
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 67, Numéro 1, January-February 2012
Dossier: Diagenesis - Fluid-Rocks Interactions
Page(s) 97 - 122
Publié en ligne 27 février 2012
  • Abeger G., Serrano A., Quesada S. (2005) Petroleum geology of the onshore Cantabrian basin, in : Martinez del Olmo W. (ed.), Associación de Geólogos y Geofisicos Españoles del Petróleo AGGEP, pp. 155-162. [Google Scholar]
  • Adams J.E., Rhodes M.L. (1960) Dolomitisation by seepage reflux, AAPG Bull. 44, 1912-1920. [Google Scholar]
  • Aranburu A., Gómez-Perez I., Fernández-Mendiola P.A., Garcia-Mondéjar J. (1994) Control tectónico sinsedimentario de la serie estratigráfica del sector de Guenes (Albiense, Bizkaia), Geogaceta 16, 82-85. [Google Scholar]
  • Badiozamani K. (1973) The dorag dolomitisation model – Application to the middle Ordovician of Wisconsin, J. Sediment. Petrol. 43, 965-984. [Google Scholar]
  • Beales F.W., Hardy J.W. (1980) Criteria for recognition of diverse dolomite types with an emphasis on studies of host rocks for Mississippi Valley-type ore deposits, in : Zenger D.H., Dunham J.R., Ethington R.L. (eds), Concepts and Models of Dolomitisation SEPM Spec. Publ. 28, 197-214. [Google Scholar]
  • Berger Z., Davies G.R. (1999) The development of linear hydrothermal dolomite (HTD) reservoir facies along wrench or strike-slip fault systems in the western Canada sedimentary basin, Can. Soc. Petrol. Geol. Reservoir 26, 34-38. [Google Scholar]
  • Boillot G., Malod J. (1988) The north and north-western Spanish continental margin : a review, Revista de la Sociedad Geologica de España 1, 3-4, 295-316. [Google Scholar]
  • Boni M., Parente G., Vivo B.D., Lannace A. (2000) Hydrothermal dolomites in SW Sardinia (Italy) : Evidence for a widespread late- Variscan fluid flow event, Sediment. Geol. 131, 181-200. [CrossRef] [Google Scholar]
  • Bosák P. (1998) The evolution of karst and caves in the Koněprusy region (Bohemion karst, Czech Republic), Part-II Hydrothermal Paleokarst, Acta Carsologica XXVII/ 2-3, 41-61. [Google Scholar]
  • Braithwaite C.J.R., Rizzi G., Darke G. (2004) The geometry and petrogenesis of dolomite hydrocarbon reservoirs, Geol. Soc. London Spec. Publ. 235, 1-6. [CrossRef] [Google Scholar]
  • Bustillo M., Fort R., Ordonez S. (1992) Genetic implications of trace-element distributions in carbonate and non-carbonate phases of limestones and dolostones from western Cantabria, Spain, Chem. Geol. 97, 273-283. [Google Scholar]
  • Cantrell D., Swart P., Hagerty R. (2004) Genesis and characterization of dolomite, Arab-D reservoir, Ghawar field, Saudi Arabia, GeoArabia 9, 2, 1-26. [Google Scholar]
  • Cervato C. (1990) Hydrothermal dolomitisation of Jurassic- Cretaceous limestones in the Alps (Italy) : Relation to tectonics and volcanism, Geology 18, 458-461. [Google Scholar]
  • Choquette P.W., James N.P. (1988) Introduction, in Paleokarst James N.P., Choquette P.W. (eds), Springer-Verlag, New York, pp. 1-21. [Google Scholar]
  • Conliffe J., Azmy K., Gleeson S.A., Lavoie D. (2010) Fluids associated with hydrothermal dolomitisation in St. George Group, western Newfoundland, Canada, Geofluids 10, 422-437. [CrossRef] [Google Scholar]
  • Davies G.R., Smith L.B. Jr (2006) Structurally controlled hydrothermal dolomite reservoir facies : An overview, AAPG Bull. 90, 11, 1641-1690. [CrossRef] [Google Scholar]
  • Dickson J.A.D. (1966) Carbonate identification and genesis as revealed by staining, J. Sediment. Petrol. 36, 491-505. [Google Scholar]
  • Dorobek S.L., Smith T.M., Whitsitt P.M. (1993) Microfabrics and geochemistry of meteorically altered dolomite in Devonian and Mississipian carbonates, Montana and Idaho, in : Rezak R., Lavoie D.L. (eds), Carbonate Microfabrics, Springer-Verlag, New York, pp. 205-225. [Google Scholar]
  • Emrich K., Ehhalt D.H., Vogel J.C. (1970) Carbon isotope fractionation during the precipitation of calcium carbonate, Earth Planet. Sci. Lett. 8, 363-371. [Google Scholar]
  • Garcia-Mondéjar J. (1985) Carbonate platform-basin transitions in the Soba reef area (Aptian-Albian of western Basque-Cantabrian region northern Spain), in : Mila M.D., Rosell J. (eds), Sedimentation and Tectonics in the Western Basque-Cantabrian area (northern Spain) during Cretaceous and Tertiary Times, 6th European Regional Meeting of Sedimentology, Abstracts book, Int. Assoc. Sedimentol., pp. 172-175. [Google Scholar]
  • Garcia-Mondéjar J. (1989) Strike-slip subsidence of the Basque- Cantabrian basin of northern Spain and its relationship to Aptian- Albian opening of Bay of Biscay, in : Tankard A.J., Balkwill H.R. (eds), Extensional tectonics and stratigraphy of the North Atlantic Margins, AAPG Memoir 46, 395-409. [Google Scholar]
  • Garcia-Mondéjar J. (1996) Plate reconstruction of the Bay of Biscay, Geology 24, 635-638. [Google Scholar]
  • Garcia-Mondéjar J., Pujalte V. (1975) Contemporaneous tectonics in the Early Cretaceous of central Santander province, North Spain, IXe Congrès International de Sedimentologie, in : Mangin J.Ph. (ed.), Nice, 4, pp. 131-137. [Google Scholar]
  • Garcia-Mondéjar J., Agirrezabala L.M., Aranburu A., Fernandez-Mendiola P.A., Gomez-Perez I., Lopez-Horgue M., Rosales I. (1996) Aptian-Albian tectonic pattern of the Basque-Cantabrian basin (northern Spain), Geol. J. 31, 13-45. [Google Scholar]
  • Garcia-Mondéjar J., Lopez-Horgue M.A., Aranburu A., Fernandez-Mendiola P.A. (2005) Pulsating subsidence during a rift episode : Stratigraphic and tectonic consequences (Aptian-Albian, northern Spain), Terra Nova 17, 517-525. [CrossRef] [Google Scholar]
  • Gasparrini M. (2003) Large-scale hydrothermal dolomitisation in the southwestern Cantabrian Zone (NW Spain) : Causes and controls of the process and origin of the dolomitizing fluids, PhD Thesis [Google Scholar]
  • Gasparrini M., Bechstadt T., Boni M. (2006) Massive hydrothermal dolomites in the southwestern Cantabrian Zone (Spain) and their relation to the Late Variscan evolution, Mar. Petrol. Geol. 23 543-568. [CrossRef] [Google Scholar]
  • Gibbons W., Moreno M.T. (eds) (2002) The Geology of Spain Geological Society, London [Google Scholar]
  • Giles M.R., de Boer R.B. (1989) Secondary porosity : creation of enhanced porosities in the subsurface from the dissolution of carbonate cements as a result of cooling formation waters, Mar. Petrol. Geol. 6, 261-269. [CrossRef] [Google Scholar]
  • Graybeal A.L., Heath R.G. (1984) Remobilization of transition metals in surficial pelagic sediments from the eastern Pacific, Geochim. Cosmochim. Acta 48, 965-975. [Google Scholar]
  • Gregg J.M., Shelton K.L. (1989) Minor and trace element distributions in the Bonneterre Dolomite (Cambrian), southeast Missouri : Evidence for possible multiple-basin fluid sources and pathways during lead-zinc mineralisation, Geol. Soc. Am. Bull. 101 221-230. [Google Scholar]
  • Grimaud S., Boillot G., Collette B.J., Mauffret A., Miles P.R., Roberts D.B. (1982) Western extension of the Iberian-European plate boundary during the Early Cenozoic (Pyrenean) convergence : a new model, Mar. Geol. 45, 63-77. [Google Scholar]
  • Jones B., Robert L.W., Macneil A.J. (2001) Powder X-ray diffraction analysis of homogeneous and heterogeneous sedimentary dolostones, J. Sediment. Res. 71, 790-799. [CrossRef] [Google Scholar]
  • Land L.S. (1983) The application of stable isotopes to studies of the origin of dolomite and to problems of diagenesis of clastic sediments, in : Arthur M.A., Anderson T.F. (eds), Stable isotopes in Sedimentary Geology, Soc. Econ. Paleont. Miner. Short Course No. 10, 4.1-4.22. [Google Scholar]
  • Leach D.L., Sangster D.F., Kelley K.D., Large R.R., Garven G., Allen A.R., Gutzmer J., Walter S. (2005) Sediment-hosted Lead- Zinc deposits : a global perspective, Economic Geology, 100th Anniversary Volume, 561-607. [Google Scholar]
  • Lopéz-Horgue M., Fernandez-Mendiola P., Iriarte E., Sudrie M., Caline B., Gomez J., Corneyllie H. (2005) Fault - Related Hydrothermal Dolomite Bodies in Early Cretaceous Platform Carbonates Karrantza Area (North Spain) : Outcrop Analogue for Dolomite Reservoir Characterization, 10e Congrès Français de Sédimentologie, Presqu’ile de Giens, France, 7-10 octobre, Abstract. [Google Scholar]
  • Lopéz-Horgue M.A., Iriarte E., Schroder S., Fernandez-Mendiola P.A., Caline B., Corneyllie H., Fremont J., Sudrie M., Zerti S. (2010) Structurally controlled hydrothermal dolomites in Albian carbonates of the Ason valley, Basque Cantabrian Basin, Northern Spain, Mar. Petrol. Geol. 27, 1069-1092. [CrossRef] [Google Scholar]
  • Lopéz-Horgue M.A., Owen H.G., Aranburu A., Fernandez-Mendiola P.A., Garcia-Mondejar J. (2009) Early late Albian (Cretaceous) of the central region of the Basque-Cantabrian Basin, northern Spain : Biostratigraphy based on ammonites and orbitolinids, Cretac. Res. 30, 385-400. [Google Scholar]
  • Lumsden D.N. (1979) Discrepancy between thin section and X-ray estimates of dolomite in limestone, J. Sediment. Petrol. 49, 429-436. [Google Scholar]
  • Lumsden D.N., Chimahusky J.S. (1980) Relationship between dolomite nonstoichiometry and carbonate facies parameters, SEPM Spec. Publ., Tulsa, 28, 123-137. [Google Scholar]
  • Machel H.G. (2004) Concepts and models of dolomitisation : A critical reappraisal, Geol. Soc. London Spec. Publ. 235, 7, 63. [Google Scholar]
  • Machel H.G., Mountjoy E.W. (1987) General constraints on extensive pervasive dolomitisation – and their application to the Devonian carbonates of western Canada, Bull. Can. Pet. Geol. 35 143-158. [Google Scholar]
  • Malod J.A., Mauffret A. (1990) Iberian plate motions during the Mesozoic, Tectonophysics 184, 261-278. [Google Scholar]
  • McArthur J.M., Howarth R.J., Bailey T.R. (2001) Strontium isotope stratigraphy : LOWESS Version 3. Best-fit line to the marine Sr-isotope curve for 0 to 509 Ma and accompanying look-up table for deriving numerical age, J. Geol. 109, 155-169. [Google Scholar]
  • Meyers W.J. (1991) Calcite cement stratigraphy, in : Baker C.E., Kopp O.C. (eds), Luminescence microscopy and spectroscopy : Qualitative and quantitative aspects, SEPM short course 25, 133-148. [Google Scholar]
  • Montadert L., Roberts D.G., de Charpal O., Guennoc P. (1979) Rifting and subsidence of the northern continental margin of the Bay of Biscay, in Initial reports of the deep sea drilling project, 48, United States Government Printing office, Washington, pp. 1025-1059. [Google Scholar]
  • Moore C.H. (2001) Carbonate Reservoirs : Porosity evolution and diagenesis in a sequence stratigraphic framework, Development in Sedimentology, Elsevier Science B.V., Amsterdam. [Google Scholar]
  • Nader F.H., Swennen R. (2004) The hydrocarbon potential of Lebanon : New insights from regional correlations and studies of Jurassic dolomitisation, J. Petrol. Geol. 27, 253-275. [CrossRef] [Google Scholar]
  • Nader F.H., Dumont C., Shah M.M., Garcia D., Swennen R., Daniel J.-M., Lerat O., Doligez B. (2009) From field study to numerical modelling of hydrothermal dolomitisation in Early Cretaceous platform carbonates (Cantabrian mountains, northern Spain), J. Geochem. Explor. 101, 73. [Google Scholar]
  • Nader F.H., Lopéz-Horgue M.A., Shah M.M., Dewit J., Garcia D., Swennen R., Iriarte E., Muchez Ph., Caline B. (2011) The Ranero hydrothermal dolomites (Albian, Karrantza valley, northwestern Spain) : An outstanding case-study of HTD, Oil Gas Sci. Technol. - Rev. IFP Energies nouvelles (in press). [Google Scholar]
  • Nader F.H., Swennen R., Ellam R. (2007) Field geometry, petrography and geochemistry of a dolomitisation front (Late Jurassic, central Lebanon), Sedimentology 54, 1093-1119. [Google Scholar]
  • Nader F.H., Swennen R., Keppens E. (2008) Calcitization/ dedolomitisation of Jurassic dolostones (Lebanon) : results from petrographic and sequential geochemical analyses, Sedimentology 55, 1467-1485. [Google Scholar]
  • Nielsen P., Swennen R., Keppens E. (1994) Multiple – step recrystallization within massive ancient dolomite units : an example from the Dinantian of Belgium, Sedimentology 41, 567-584. [Google Scholar]
  • Niemann J.C., Read J.F. (1988) Regional cementation from unconformity-recharge aquifer and burial fluids. Mississipian Newman Limestone, Kentucky, J. Sediment. Petrol. 58, 688-705. [Google Scholar]
  • Olivet J.L. (1996) La cinématique de la plaque ibérique, Bulletin des Centres de Recherches Exploration-Production Elf-Aquitaine 20 131-195. [Google Scholar]
  • Pujalte V. (1977) Sedimentary succession and paleo-environments within a fault-controlled basin : the “Wealden” of the Santander area, northern Spain, Sediment. Geol. 28, 293-325. [Google Scholar]
  • Qing H., Mountjoy E.W. (1989) Multistage dolomitisation in rainbow buildup, Middle Devonian Keg River Formation, Alberta, Canada, J. Sediment. Petrol. 59, 114-126. [Google Scholar]
  • Radke B.M., Mathis R.L. (1980) On the formation and occurrence of saddle dolomites, J. Sediment. Res. 50, 4, 1149-1168. [Google Scholar]
  • Rat P. (1959) Les pays cretacés Basco-Cantabriques (Espagne), Thèse, Publication de l’Universitè de Dijon, 23, 525 p. [Google Scholar]
  • Reeder R.J. (1991) An over-view of zoning in carbonate minerals, in : Baker C.E., Kopp O.C. (eds), Luminescence microscopy and spectroscopy : Qualitative and quantitative aspects, SEPM short course 25, 77-82. [Google Scholar]
  • Ronchi P., Jadoul F., Ceriani A., Di-Giulio A., Scotti P., Ortenzi A., Massara E.P. (2011) Multistage dolomitisation and distribution of dolomitised bodies in Early Jurassic carbonate platforms (Southern Alps, Italy), Sedimentology 58, 532-565. [Google Scholar]
  • Rosales I. (1995) La plataforma carbonatada de Castro Urdiales (Aptiense-Albiense, Cantabria), Thesis Doctoral, Univ. Pais Vasco, p. 496. [Google Scholar]
  • Rosales I., Pérez-Garcia A. (2010) Porosity development, diagenesis and basin modelling of a Lower Cretaceous (Albian) carbonate platform from northern Spain, Geol. Soc. London Spec. Publ. 329, 317-342. [CrossRef] [Google Scholar]
  • Rosenbaum J., Sheppard S.M. (1986) An isotopic study of siderites, dolomites and ankerites at high temperatures, Geochim. Cosmochim. Acta 50, 1147-1150. [Google Scholar]
  • Schärer U., de Perseval P., Polvé M., de Saint Blanquat M. (1999) Formation of the Trimouns talc-chlorite deposit (Pyrenees) from the persistent hydrothermal activity between 112-97 Ma, Terra Nova 11, 1, 30-37. [CrossRef] [Google Scholar]
  • Shah M.M. (2008) Petrographic, geochemical and petrophysical characteristics of the hydrothermal dolomites (Cretaceous) in the Cantabrian mountains, Ranero area (Spain), DES report IFP, No. 60, 532, p. 88. [Google Scholar]
  • Shah M.M. (2011) Dolomies hydrothermales dans les carbonates de plateformes (Albien précoce) de la zone de Ranero (Espagne du NW) : Distribution, pétrographie, géochimie et genèse, PhD Thesis pp. 1-245, unpublished. [Google Scholar]
  • Shah M.M., Nader F.H., Dewit J., Swennen R., Garcia D. (2010) Fault-related hydrothermal dolomites in Cretaceous carbonates (Cantabria, northern Spain) : Results of petrographic, geochemical and petrophysical studies, Bull. Soc. Géol. Fr. 181, 4, 391-407. [CrossRef] [Google Scholar]
  • Sudrie M., Caline B., Lopez-Horgue M.A., Fernandez-Mendolia P.A., Iriarte E. (2006) Fault – related hydrothermal dolomites in Cretaceous platform carbonates from the Karrantza area (north Spain) : Outcrop analogues for dolomite reservoir characterization, 7th Middle East Geosciences Conference and Exhibition, Behrain, Conference Program, CD format. [Google Scholar]
  • Swennen R., Dewit J., Fierens E., Muchez Ph., Nader F., Shah M., Hunt D. (2011) Multiple fluid flow dolomitisation events along the Ranero Fault (Pozalagua Quarry, Basque-Cantabrian Basin) explained by episodic earthquake activity, Sedimentology (in press). [Google Scholar]
  • Swennen, R., Vandeginste, V., Ellam, R. (2003) Genesis of zebra dolomites (Cathedral Formation : Canadian cordillera fold and thrust belt, British Columbia), J. Geochem. Explor. 78-79, 571-577. [Google Scholar]
  • Symons D.T., Lewchuk M.T., Kawasaki K., Velasco F., Leach D.L. (2009) The Reocin zinc-lead deposit, Spain : paleomagnetic dating of a late Tertiary ore body, Miner. Deposita 44, 867-880. [CrossRef] [Google Scholar]
  • Thiébaut J., Debeaux M., Durand-Wackeneheim C., Souquet P., Gourinard Y., Bandet Y., Fondecave-Wallez M.J. (1988) Métamorphisme et halocinèse cretacés dans les évaporites de Betchat le long du Chevauchement Frontal Nord-Pyrénéen (Haute- Garonne et Ariège, France), C. R. Acad. Sci., Sér. 2, Sci. Terre Planètes 307, 1535-1540. [Google Scholar]
  • Tompkins L.A., Murray J.R., Groves D.A. (1994) Evaporites : In situ source for rhythmically bounded ore in the Cadjebut Mississipi valley type Zn-Pb deposits, western Australia, Econ. Geol. 89, 467-492. [Google Scholar]
  • Vandeginste V., Swennen R., Gleeson S.A., Ellam R. (2005) Zebra dolomitisation as a result of focused fluid flow in the rocky mountains fold and thrust belt, Canada, Sedimentology 52, 1067-1095. [Google Scholar]
  • Veizer J., Ala D., Azmy K., Bruckschen P., Buhl D., Bruhn F., Carden G.A.F., Diener A., Ebneth S., Godderis Y., Jasper T., Korte C., Pawellek F., Podlaha O., Strauss H. (1999) 87Sr/86Sr, δ13C and δ18O evolution of Phanerozoic seawater, Chem. Geol. 161, 59-88. [Google Scholar]
  • Velasco F., Herrero J.M., Yusta I., Alonso J.A., Seebold I., Leach D. (2003) Geology and geochemistry of the Reocin Zinc-Lead deposit, Basque-Cantabrian Basin, Northern Spain, Econ. Geol. 98 1371-1396. [Google Scholar]
  • Vicente-Bravo J.C., Robles S. (1995) Large scale mesotopographic bedforms from the Albian Black Flysch, northern Spain : Characterization, setting and comparison with recent analogues, in : Pickering K.T., Hiscott R.N., Kenyon N.H., Ricci Lucchi F., Smith R.D.A. (eds), Atlas of Deep Water Environments : Architectural Style in Turbidite Systems, Chapman and Hall, London, pp. 216-226. [Google Scholar]
  • Wachter E., Hayes J.M. (1985) Exchange of oxygen isotopes in carbon-dioxide-phosphoric acid systems, Chem. Geol. 52, 365-374. [Google Scholar]
  • Warren J.K. (2000) Dolomite : occurrence, evolution and economically important associations, Earth-Sci. Rev. 52, 1-81. [CrossRef] [Google Scholar]
  • Wilson E.N., Hardie L.A., Philips O.M. (1990) Dolomitisation front geometry, fluid flow patterns and the origin of massive dolomite : the Triassic Latemar buildup, Northern Italy, Am. J. Sci. 290 741-796. [Google Scholar]
  • Zhao W., Luo P., Chen G., Cao H., Zhang B. (2005) Origin and reservoir rock characteristics of dolostones in the Early Triassic Feixianguan, NE Sichuan Basin, China : significance for future gas exploration, J. Petrol. Geol. 28, 83-100. [CrossRef] [Google Scholar]

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