Extracting K-Ar ages from shales: a theoretical test

J. Środoń

doi:10.1180/000985599546163

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Diagenetic evolution of illite-smectite in shales corresponds more closely than in other rocks to the thermal history of a sedimentary basin. In bentonites, illitization can be significantly retarded by the diffusion of K+ (Altaner et al., 1984; Clauer et al., 1997), and in sandstones it can be related to a localized hot fluid flow (e.g. Whitney & Northrop, 1987). Thus, extracting the diagenetic ages of illite-smectite from shales remains an important opportunity for the verification of basin history models.

References

Altaner, S.P., Hower, J., Whitney, G. & Aronson, J.L. (1984) Model for K-bentonite formation: Evidence from zoned K-bentonites in the disturbed belt, Montana. Geology, 12, 412–415.2.0.CO;2>CrossRef Google Scholar

Bechtel, A., Elliott, W.C., Wampler, J.M. & Oszczepalski, S. (1999) Clay mineralogy, crystallinity and K-Ar ages of illites within the Polish Zechstein Basin: implications for the age of Kupferschiefer mineralization. Econ. Geol. 94(2) (in press)Google Scholar

Clauer, N., Srodon L, Francu, J. & Šucha, V. (1997) K-Ar dating of illite fundamental particles separated from illite-smectite. Clay Miner. 32, 181–196.Google Scholar

Ehrenberg, S.N. & Nadeau, P.H. (1989) Formation of diagenetic illite in sandstones of the Garn Formation, Haltenbanken area, mid-Norwegian continental shelf. Clay Miner. 24, 233–254.CrossRef Google Scholar

Hamilton, P.J., Kelley, S. & Fallick, A.E. (1989) K-Ar dating of illite in hydrocarbon reservoirs. Clay Miner. 24, 215–232.Google Scholar

Mossman, J.-R. (1991) K-Ar dating of authigenic illite/ smectite material: application to complex mixtures of mixed-layer assemblages. Clay Miner. 26, 189–198.Google Scholar

Pevear, D.R. (1992) Illite age analysis, a new tool for basin thermal history analysis. Pp. 1251-1254 in: Proc. 7th Int. Sym. Water-Rock Interactions (Kharaka, Y.K. & Maest, A.S., editors), Park City, Utah.Google Scholar

Środoń, J., Elsass, F., McHardy, W.J. & Morgan, D.J. (1992) Chemistry of illite-smectite inferred from TEM measurements of fundamental particles. Clay Miner. 27, 137-158.CrossRef Google Scholar

Whitney, G. & Northop, H.R. (1987) Diagenesis and fluid flow in the San Juan Basin, New Mexico — regional zonation in the mineralogy and stable isotope composition of clay minerals in sandstone. Am. J. Sci. 287, 253-282.Google Scholar

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Środoń, J . 2000. Reply to discussion of “Extracting K-Ar ages from shales: a theoretical test”. Clay Minerals, Vol. 35, Issue. 3, p. 605.

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

Środoń, J. 2002. Quantitative mineralogy of sedimentary rocks with emphasis on clays and with applications to K-Ar dating. Mineralogical Magazine, Vol. 66, Issue. 5, p. 677.

Yang, Zhongfang Ji, Junfeng Che, Chen and Zhou, Fengying 2002. Alkylammonium cations treating and K-Ar dating of illite from mudstones. Chinese Science Bulletin, Vol. 47, Issue. 19, p. 1669.

Meunier, Alain Velde, Bruce and Zalba, Patricia 2004. Illite K–Ar dating and crystal growth processes in diagenetic environments: a critical review. Terra Nova, Vol. 16, Issue. 5, p. 296.

Elliott, W. Crawford Basu, Ankan Wampler, J. Marion Elmore, R. Douglas and Grathoff, Georg H. 2006. Comparison of K-Ar Ages of Diagenetic Illite-Smectite to the Age of a Chemical Remanent Magnetization (CRM): An Example from the Isle of Skye, Scotland. Clays and Clay Minerals, Vol. 54, Issue. 3, p. 314.

Solum, John G. and van der Pluijm, Ben A. 2007. Special Paper 433: Whence the Mountains? Inquiries into the Evolution of Orogenic Systems: A Volume in Honor of Raymond A. Price. Vol. 433, Issue. , p. 183.

Burzo, E. 2007. Phyllosilicates. p. 318.

Tohver, E. Weil, A.B. Solum, J.G. and Hall, C.M. 2008. Direct dating of carbonate remagnetization by 40Ar/39Ar analysis of the smectite–illite transformation. Earth and Planetary Science Letters, Vol. 274, Issue. 3-4, p. 524.

Hints, Rutt Kirsimäe, Kalle Somelar, Peeter Kallaste, Toivo and Kiipli, Tarmo 2008. Multiphase Silurian bentonites in the Baltic Palaeobasin. Sedimentary Geology, Vol. 209, Issue. 1-4, p. 69.

Somelar, P. Kirsimäe, K. and Środoń, J. 2009. Mixed-layer illite-smectite in the Kinnekulle K-bentonite, northern Baltic Basin. Clay Minerals, Vol. 44, Issue. 4, p. 455.

Szczerba, Marek and Środoń, Jan 2009. Extraction of diagenetic and detrital ages and of the 40Kdetrital/40Kdiagenetic ratio from K-Ar dates of clay fractions. Clays and Clay Minerals, Vol. 57, Issue. 1, p. 93.

Somelar, Peeter Kirsimäe, Kalle Hints, Rutt and Kirs, Juho 2010. Illitization of Early Paleozoic K-Bentonites in the Baltic Basin: Decoupling of Burial- and Fluid-Driven Processes. Clays and Clay Minerals, Vol. 58, Issue. 3, p. 388.

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.

Verdel, Charles van der Pluijm, Ben A. and Niemi, Nathan 2012. Variation of illite/muscovite 40Ar/39Ar age spectra during progressive low-grade metamorphism: an example from the US Cordillera. Contributions to Mineralogy and Petrology, Vol. 164, Issue. 3, p. 521.

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.

Szczerba, Marek Derkowski, Arkadiusz Kalinichev, Andrey G. and Środoń, Jan 2015. Molecular modeling of the effects of 40Ar recoil in illite particles on their K–Ar isotope dating. Geochimica et Cosmochimica Acta, Vol. 159, Issue. , p. 162.

Tonai, Satoshi Ito, Shun Hashimoto, Yoshitaka Tamura, Hajimu and Tomioka, Naotaka 2016. Complete 40Ar resetting in an ultracataclasite by reactivation of a fossil seismogenic fault along the subducting plate interface in the Mugi Mélange of the Shimanto accretionary complex, southwest Japan. Journal of Structural Geology, Vol. 89, Issue. , p. 19.

Collo, Gilda Dávila, Federico M. Teixeira, Wilson Nóbile, Julieta C. Sant′ Anna, Lucy G. and Carter, Andrew 2017. Isotopic and thermochronologic evidence of extremely cold lithosphere associated with a slab flattening in the Central Andes of Argentina. Basin Research, Vol. 29, Issue. 1, p. 16.

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Extracting K-Ar ages from shales: a theoretical test

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