Analytical Protocol for U-Th-Pb Chemical Dating of Monazite using CAMECA SXFive EPMA Installed at the Mantle Petrology Laboratory, Department of Geology, Banaras Hindu University, Varanasi, India
Authors
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Mantle Petrology Laboratory, Department of Geology, Center of Advanced Study, Institute of Science, Banaras Hindu University, Varanasi- 221005
Mayuri Pandey -
Mantle Petrology Laboratory, Department of Geology, Center of Advanced Study, Institute of Science, Banaras Hindu University, Varanasi- 221005
Dinesh Pandit
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Department of Geology, University of Delhi, Chhatra Marg, Delhi - 110 007
Devsamridhi Arora
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Mantle Petrology Laboratory, Department of Geology, Center of Advanced Study, Institute of Science, Banaras Hindu University, Varanasi- 221005
N.V. Chalapathi Rao
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Department of Geology, University of Delhi, Chhatra Marg, Delhi - 110 007
N. C. Pant
DOI:
https://doi.org/10.1007/s12594-019-1119-7Abstract
Chemical Th-U-total Pb method of dating monazite by an Electron Probe Micro Analyzer (EPMA) is a well-known technique for constraining chronology of geological events. In this communication, the analytical conditions of monazite dating using SXFive EPMA recently installed at the Department of Geology, Banaras Hindu University is reported. Consistency in the geochronological data of the monazites from the geochronologically well-constrained high grade metamorphic terrain of Bundelkhand craton, north central India, confirms the reliability of the BHU-EPMA facility for the U-Th-Pb geochemical dating of monazite.
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Cherniak, D.J., Watson, E.B., Grove, M. and Harrison, T.M. (2004) Pb diffusion in monazite: a combined RBS/SIMS study. Geochim. Cosmochim Acta, v.68, pp.829–840.
Foster, G., Parrish, R. R., Horstwood, M. S., Chenery, S., Pyle, J. and Gibson, H. D. (2004) The generation of prograde P–T–t points and paths; a textural, compositional, and chronological study of metamorphic monazite. Earth Planet. Sci. Lett., v.228(1-2), pp.125-142.
Jercinovic, M.J., Williams, M.L. and Lane, E.D. (2008) In-situ trace element analysis of monazite and other fine-grained accessory minerals by EPMA. Chem. Geol., v.254, pp.197–215.
Ludwig, K.R. (2001) User's manual for Isoplot/ex rev. 2.49: a geochronological toolkit for Microsoft Excel. Berkeley Geochron. Center. Spec. Publ., 1a, pp.1–56
Ludwig, K.R. (2012) Isoplot 3.75: A geochronological toolkit for Microsoft Excel, Spec. Publ., no. 5, Berkeley Geochronology Center, Berkeley, California, 75p.
Montel, J.M., Foret, S., Veschambre, M., Nicollet, C. and Provost, A. (1996) Electron microprobe dating of monazite. Chem. Geol., v.131, pp.37–53.
Pandey, R., Chalapathi Rao, N.V., Pandit, D., Sahoo, S. and Dhote, P. (2018) Imprints of modal metasomatism in the post- Deccan subcontinental lithospheric mantle: petrological evidence from an ultramafic xenolith in an Eocene lamprophyre, NW India. Geol. Soc. London Spec. Publ., v.463, pp.117-136.
Pant, N.C., Kundu, A., Joshi, S., Dey, A., Bhandari, A. and Joshi, A. (2009) Chemical dating of monazite: testing of an analytical protocol against independently dated standards. Indian Jour. Geosci., v.63, pp.311–318.
Parrish, R.R. (1990) U-Pb dating of monazite and its application to geological problems. Can. Jour. Earth Sci., v.27, pp.1431-1450
Pouchou, J.L. and Pichoir, F. (1985) "PAP” phi-rho-Z procedure for improved quantitative microanalysis. In: Armstrong, J.L. (Ed.), Microbeam Analysis. San Francisco Press Inc., San Francisco, pp.104–106.
Pyle, J.M. and Spear, F.S. (2003) Four generations of accessory-phase growth inlow-pressure migmatites from SW New Hampshire. Amer. Mineral., v.88(2–3), pp.338–351.
Saha, L., Pant, N.C., Pati, J.K., Upadhyay, D., Berndt, J., Bhattacharya, A. and Satynarayanan, M. (2011) Neoarchean high-pressure margarite– phengitic muscovite chlorite corona mantled corundum in quartz-free highMg, Al phlogopite–chlorite schists from the Bundelkhand craton, north central India. Contrib. Mineral. Petrol., v.161(4), pp.511-530.
Sambridge, M.S. and Compston, W. (1994) Mixture modeling of multicomponent data sets with application to ion-probe zircon ages. Earth Planet Sci Lett 128:373–390
Slagstad, T. (2005) Chemical (U-Th-Pb) dating of monazite using NGU's LEO 1450VP scanning electron microscope: Analytical protocol and examples. Norges geologiske undersí¸kelse Report- 006, 126p.
Slagstad, T. (2006) Chemical (U–Th–Pb) dating of monazite: Analytical protocol for a LEO 1450VP scanning electron microscope and examples from Rogaland and Finnmark, Norway. NGU-Bull., v.443, pp.11-18.
Williams, M.L., Jercinovic, M.J. and Terry, M.P. (1999) Age mapping and dating of monazite on the electron microprobe: Deconvoluting multistage tectonic histories. Geology, v.27, pp.1023-1026.
Williams, M.L., Jercinovic, M.J., Goncalves, P. and Mahan, K. (2006) Format and philosophy for collecting, compiling and reporting microprobe monazite ages. Chem. Geol., v.225, pp.1-1.
