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U-Pb isotopic relationships in zircon suites from a para- and ortho-gneiss from the Ceneri Zone, Southern Switzerland

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Abstract

U-Pb isotopic analyses have been determined on four size splits from an orthogneiss zircon population and on seven size and magnetic splits from a paragneiss zircon population from the Ceneri Zone, Southern Switzerland. The orthogneiss zircon results suggest that a severe isotopic disturbance occurred in this region between 400–450 m. y. ago which, besides initiating new zircon growth, almost completely reconstituted older zircon. The U-Pb systems of the orthogneiss zircons are nearly concordant, except the coarsest size split where some older lead is present.

The paragneiss zircon U-Pb systems have Precambrian apparent ages and appear to be an old detrital zircon suite which has been severely isotopically disturbed by the same Caledonian event which affected the orthogneiss zircons. Zircon U-Pb data-points of paragneiss size-and-magnetic fractions are linearly correlated on a concordia plot. The age significance of this is not fully understood, however these results indicate that Precambrian crustal rocks, at least 1,500 m. y. old, contributed detritus to the original sediments of the Alpine gneisses.

The gneissic rocks in Southern Switzerland have been postulated as a possible source or root zone for petrologically and chemically similar gneisses in the Silvretta Nappe to the north. The close similarity of zircon U-Pb systems of orth- and para-gneisses between the two regions supports this hypothesis.

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  1. R. T. Pidgeon

    Present address: Scottish Research Reactor Centre, East Kilbride, Scotland

Authors and Affiliations

  1. Institut für Kristallographie und Petrographie, Eidgenössische Technische Hochschule, Sonneggstraße 5, CH-8006, Zürich

    R. T. Pidgeon, V. Köppel & M. Grünenfelder

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  1. R. T. Pidgeon
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  2. V. Köppel
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  3. M. Grünenfelder
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Pidgeon, R.T., Köppel, V. & Grünenfelder, M. U-Pb isotopic relationships in zircon suites from a para- and ortho-gneiss from the Ceneri Zone, Southern Switzerland. Contr. Mineral. and Petrol. 26, 1–11 (1970). https://doi.org/10.1007/BF00373336

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