Lithospheric Mantle Evolution beneath the Eifel (Germany): Constraints from Sr-Nd-Pb Isotopes and Trace Element Abundances in Spinel Peridotite and Pyroxenite Xenoliths

doi:10.1093/petrology/44.6.1077

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Journal of Petrology | Volume 44 | Number 6 | Pages 1077-1095 | 2003
© Oxford University Press 2003

Lithospheric Mantle Evolution beneath the Eifel (Germany): Constraints from Sr–Nd–Pb Isotopes and Trace Element Abundances in Spinel Peridotite and Pyroxenite Xenoliths

G. WITT-EICKSCHEN¹^,2^,3^,*, H. A. SECK¹, K. MEZGER³, S. M. EGGINS⁴ and R. ALTHERR²

¹ INSTITUT FÜR MINERALOGIE UND GEOCHEMIE DER UNIVERSITÄT KÖLN, ZÜLPICHER STR. 49B, D-50674 COLOGNE, GERMANY
² MINERALOGISCHES INSTITUT DER UNIVERSITÄT HEIDELBERG, IM NEUENHEIMER FELD 236, D-69120 HEIDELBERG, GERMANY
³ INSTITUT FÜR MINERALOGIE DER UNIVERSITÄT MÜNSTER, CORRENSSTR. 24, D-48149 MÜNSTER, GERMANY
⁴ RESEARCH SCHOOL OF EARTH SCIENCES, THE AUSTRALIAN NATIONAL UNIVERSITY, CANBERRA, A.C.T. 0200, AUSTRALIA

Present address: Institut für Mineralogie und Geochemie der Universität Köln, Zülpicher Str. 49B, D-50674 Cologne, Germany. Telephone: ++49 221 470 3170. Fax: ++49 221 470 5199. E-mail: Gudrun.Witt-Eickschen{at}uni-koeln.de

The Pb isotope compositions of amphiboles and clinopyroxenesin spinel peridotite and pyroxenite mantle xenoliths from theintra-plate Quaternary volcanic fields of the Eifel province(Germany) are strongly correlated with their Sr–Nd isotopeand trace element compositions. High-temperature anhydrous xenolithsfrom a depth of around 60 km have trace element and Sr–Nd–Pbisotope compositions similar to the depleted source of mid-oceanridge basalts (Depleted MORB Mantle, DMM). Amphibole-bearingxenoliths from shallower depths (<45 km) provide evidencefor three temporally distinct episodes of mantle metasomatismin the subcontinental lithosphere: (1) aqueous fluids from anisotopically enriched (EM-like) mantle reservoir caused amphiboleformation during deformation in the shallow continental lithosphericmantle and may be subduction related, probably associated withthe last major tectonic event that influenced the area (Hercynianorogeny). (2) During a second phase of mantle metasomatism theEM-like lithospheric mantle was affected by melts from an ancient,HIMU-like (high time-integrated µ = ²³⁸U/²⁰⁴Pb) mantlesource. The HIMU-like component introduced by these fluids hada much more radiogenic Pb isotope composition than the asthenosphericsource of the widespread Cenozoic magmatism in Europe and maybe linked to reactivation of ancient subducted crustal domainsduring the Hercynian orogeny or to early Cretaceous deep-sourcedmantle plumes. (3) During a brief final stage the heterogeneouslyenriched EM–HIMU subcontinental lithosphere was locallymodified by basaltic melts migrating along fractures and veinsthrough the upper mantle as a consequence of the Cenozoic Eifelvolcanism. Although a DMM component is completely lacking inthe metasomatic fluids of the metasomatic episodes 1 and 2,the vein melts of episode 3 and the Cenozoic Eifel lavas requiremantle sources containing three end-member components (DMM–HIMU–EM).Thus, mobilization of the more depleted mantle material occurredat the earliest in the Tertiary, contemporaneously with thedevelopment of the extensive rift system and main melt generationin Europe. Alternatively, the variety of Sr–Nd–Pbisotope signatures of the metasomatic agents may have been producedby melting of isotopically distinct mantle domains in a heterogeneousuprising mantle plume.

KEY WORDS: Eifel; Europe; mantle xenoliths; metasomatism; Pb isotopes

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