K-Ar dating of authigenic illite-smectite clay material: application to complex mixtures of mixed-layer assemblages

J.-R. Mossmann

doi:10.1180/claymin.1991.026.2.04

Abstract

Genetically homogeneous clay fractions are not always available for K-Ar isotopic dating of authigenic sedimentary material, particularly when dating illitic mixed-layer clay minerals. Three populations of mixed-layer clay minerals have been recognized in Upper Triassic sandstones from the Paris Basin (France), their occurrences being related to the flow of allochthonous fluids across the stratigraphic sections of the basin during Mesozoic times. A method is described for interpreting the K-Ar mixture ages obtained on carefully selected fractions, resulting in constraints being able to be made on the timing of the movements of these fluids.

References

Aldrich, L.T. & Nier, A.O. (1948) Argon 40 in potassium minerals. Phys. Rev., 74, 876–877.Google Scholar

Aronson, J.L. & Hower, J. (1976) Diagenesis and the K-Ar dating of shales and clay minerals. Geol. Soc. Am. Bull. 87, 738–744.Google Scholar

Burley, S.D. & Flisch, M. (1989) K-Ar geochronology and the timing of detrital I-S clay illitization and authigenic illite precipitation in the Piper and Tartan Fields, outer Moray Firth, UK North Sea. Clay Miner., 24, 285–315.Google Scholar

Hamilton, P.J., Kelley, S. & Fallick, A.E. (1989) K-Ar dating of illite in hydrocarbon reservoirs. Clay Miner., 24, 215–231.Google Scholar

Lee, M., Aronson, J.L. & Savin, S.M. (1985) K-Ar dating of time of gas entrapment in Rotliegendes sandstone, The Netherlands. Am. Assoc. Petrol. Geologists Bull., 69, 1381–1385.Google Scholar

Liewig, N., Clauer, N. & Sommer, F. (1987a) Rb-Sr and K-Ar dating of clay diagenesis in Jurassic sandstone oil reservoir, North Sea. Am. Assoc. Petrol. Geologists Bull., 71, 1467–1474.Google Scholar

Liewig, N., Mossmann, J.R. & Clauer, N. (1987b) Datation isotopique K-Ar d'argiles diagénétiques de réservoirs gréseux: mise en évidence d'anomalies thermiques au Lias inferieur en Europe Nord-Occidentale. Comptes Hendus Acad. Sci. Paris, T303, Série II, 13, 707–710.Google Scholar

Lipson, J. (1958) Potassium-argon dating of sedimentary rocks. Geol. Soc. Am. Bull., 69, 137–150.Google Scholar

Mathieu, Y. & Velde, B. (1989) Identification of thermal anomalies using clay mineial composition. Clay Miner., 24, 591–602.Google Scholar

Mossmann, J.-R. (1987) Conditionsphysico-chimiques de reservoirs gréseux. Approchepetrologiquey mineralogique et isotopique. Application aux grès rhétiens du Bassin de Paris. Thèse Doc., Univ. Strasbourg, France.Google Scholar

Mossmann, J.-R., Clauer, N. & Liewig, N. (1991) Dating thermal anomalies in sedimentary basins: the diagenetic history of clay minerals in the Triassic sandstones of the Paris Basin (France). Submitted to Clay Miner. Google Scholar

Perry, E.A. Jr. (1974) Diagenesis and the K-Ar dating of shales and clay minerals. Geol. Soc. Am. Bull., 85, 827–830.Google Scholar

Steiger, R.H. & Jager, E. (1977) Subcommission on geochronology: convention on the use of decay constants in geo- and cosmochronology. Earth Planet. Sci. Letters, 36, 359–362.Google Scholar

Velde, B., Suzuki, T. & Nicot, E. (1986) Pressure temperature composition of illite/smectite mixed-layer minerals: Niger Delta mudstones and other examples. Clays Clay Miner., 34, 435–441.Google Scholar

Crossref Citations

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Godthelp, Henk Archer, Michael Cifelli, Richard Hand, Suzanne J. and Gilkeson, Coral F. 1992. Earliest known Australian Tertiary mammal fauna. Nature, Vol. 356, Issue. 6369, p. 514.

Gaulier, J. M. and Burrus, J. 1994. Hydrocarbon and Petroleum Geology of France. p. 61.

Hand, Suzanne Novacek, Michael Godthelp, Henk and Archer, Michael 1994. First Eocene bat from Australia. Journal of Vertebrate Paleontology, Vol. 14, Issue. 3, p. 375.

Ohr, Matthias Halliday, Alexander N and Peacor, Donald R 1994. Mobility and fractionation of rare earth elements in argillaceous sediments: Implications for dating diagenesis and low-grade metamorphism. Geochimica et Cosmochimica Acta, Vol. 58, Issue. 1, p. 289.

Clauer, N. O'neil, J. R. and Furlan, s. 1995. Clay minerals as records of temperature conditions and duration of thermal anomalies in the Paris Basin, France. Clay Minerals, Vol. 30, Issue. 1, p. 1.

Furlan, Sylvie Clauer, Norbert Chaudhuri, Sam and Sommer, Frédéric 1996. K Transfer during Burial Diagenesis in the Mahakam Delta Basin (Kalimantan, Indonesia). Clays and Clay Minerals, Vol. 44, Issue. 2, p. 157.

Spötl, C. Worden, R. H. and Walgenwitz, F. 1996. Clay minerals as records of temperature conditions and duration of thermal anomalies in the Paris Basin, France: discussion. Clay Minerals, Vol. 31, Issue. 2, p. 203.

Clauer, N. O'Neil, J. R. Furlan, S. and Mossmann, J. R. 1996. Clay minerals as records of temperature conditions and duration of thermal anomalies in the Paris Basin, France: a reply to the discussion by Spötl et al.. Clay Minerals, Vol. 31, Issue. 2, p. 209.

de Caritat, Patrice Bloch, John Hutcheon, Ian Longstaffe, Fred J. and Abercrombie, Hugh J. 1997. Comparison of the Mineralogical and Chemical Composition of 2 Shales from the Western Canada Sedimentary Basin and the United States Gulf Coast. Clays and Clay Minerals, Vol. 45, Issue. 3, p. 327.

Chaudhuri, Sam Środoń, Jan and Clauer, Norbert 1999. K-Ar Dating of Illitic Fractions of Estonian “Blue Clay” Treated With Alkylammonium Cations. Clays and Clay Minerals, Vol. 47, Issue. 1, p. 96.

Środoń, J. 1999. Extracting K-Ar ages from shales: a theoretical test. Clay Minerals, Vol. 34, Issue. 2, p. 375.

Środoń, J. 1999. Use of clay minerals in reconstructing geological processes: recent advances and some perspectives. Clay Minerals, Vol. 34, Issue. 1, p. 27.

Kirsimäe, Kalle and Jørgensen, Per 2000. Mineralogical and Rb-Sr Isotope Studies of Low-Temperature Diagenesis of Lower Cambrian Clays of the Baltic Paleobasin of north Estonia. Clays and Clay Minerals, Vol. 48, Issue. 1, p. 95.

Clauer, N. and Chaudhuri, S. 2001. Extracting K-Ar ages from shales: the analytical evidence. Clay Minerals, Vol. 36, Issue. 2, p. 227.

Clauer, Norbert 2006. Towards an isotopic modeling of the illitization process based on data of illite-type fundamental particles from mixed-layer illite-smectite. Clays and Clay Minerals, Vol. 54, Issue. 1, p. 116.

Gorokhov, I. M. Mel’nikov, N. N. Kuznetsov, A. B. Konstantinova, G. V. and Turchenko, T. L. 2007. Sm-Nd systematics of fine-grained fractions of the Lower Cambrian blue clay in northern Estonia. Lithology and Mineral Resources, Vol. 42, Issue. 5, p. 482.

Clauer, N. 2011. Another insight into illitization by K-Ar dating of micro- to nano-metric illite-type particles exchanged with alkylammonium cations. Clay Minerals, Vol. 46, Issue. 4, p. 593.

Clauer, Norbert O'Neil, James R. Honnorez, José and Buatier, Martine 2011. 87Sr/86Sr and 18O/16O ratios of clays from a hydrothermal area near the Galapagos rift as records of origin, crystallization temperature and fluid composition. Marine Geology, Vol. 288, Issue. 1-4, p. 32.

Qiu, Hua-Ning Wu, He-Yong Yun, Jian-Bing Feng, Zi-Hui Xu, Yi-Gang Mei, Lian-Fu and Wijbrans, J. R. 2011. High-precision 40Ar/39Ar age of the gas emplacement into the Songliao Basin. Geology, Vol. 39, Issue. 5, p. 451.

Clauer, Norbert 2013. The K-Ar and 40Ar/39Ar methods revisited for dating fine-grained K-bearing clay minerals. Chemical Geology, Vol. 354, Issue. , p. 163.

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K-Ar dating of authigenic illite-smectite clay material: application to complex mixtures of mixed-layer assemblages

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K-Ar dating of authigenic illite-smectite clay material: application to complex mixtures of mixed-layer assemblages

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