Volume 38: January - December 1997

Issue 4: April 1997

Abstract

Mantle upwelling and metasomatism beneath central Europe: geochemical and isotopic constraints from mantle xenoliths from the Rhon (Germany)

  • Mantle upwelling and metasomatism beneath central Europe: geochemical and isotopic constraints from mantle xenoliths from the Rhon (Germany)

    • G. Witt-Eickschen and U. Kramm2 1Institut fur Mineralogie und Geochemie der Universitat, Zulpicher Strasse 49b, D-50674 Koln, Germany and 2Institut fur Mineralogie und Lagerstattenkunde der Universitat, Wullnerstrasse 2, D-52056, Aachen, GermanyCorresponding author

    ABSTRACT

    Clinopyroxenes in protogranular, spinel-pyroxene-cluster bearing perdotite xenoliths from the Rhon (Germany) display (1) extremely depleted REE patterns inconsistent with their relatively primitive modal composition and (2) peculiarly high Nd isotopic signatures (143Nd/144Nd=0.5148) and Sm/Nd ratios (147Sm/144Nd=0.82-0.92), which have not been reported for clinopyroxene before. The high 143Nd/144Nd ratios require long-term high Sm/Nd ratios found, so far, only in garnet. Therefore, it is suggested that the isotopic signature reflects the former existence of a precursor garnet. When the clinopyroxene-hosting peridotites entered the spinel stability field, as a consequence of mantle uplift, the garnet crystals broke down, forming spinel-pyroxene clusters and forced their geochemical and isotopic signature upon the clinopyroxenes. A polybaric fractional melting model (beginning in the garnet and continuing into the spinel stability field), calculated from REE abundances, implies formation of partial melts during mantle upwelling. The P-T conditions, derived from equilibrated mineral phases, indicate that the peridotites were finally transported into the upper lithosphere (30-40 km) where they cooled from a minimum temperature of 1030oC to 850-950oC. In this new position, parts of the upper mantle were affected by a cryptic, chromatographic fractionation controlled metasomatism that eliminated to variable degrees the geochemical fingerprint of the precursor garnet with respect to trace elements. If the linear correlation observed in a 143Nd/144Nd vs 147Sm/144Nd plot for different clinopyroxene specimens, all affected by these processes, has an age significance and is not a mixing line, then the last isotopic homogenization occurred during Hercynian times. This implies that the last stage of melt extraction and the metasomatic event are of Hercynia age or may be older.

    Keywords: cryptic mantle metasomatism; mantle upwelling mantle xenoliths; Rhon, Sr-Nd isotopes

    Pages: 479 - 493

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