Pleistocene Underplating and Metasomatism of the Lower Continental Crust: a Xenolith Study

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Journal of Petrology | Volume 41 | Number 3 | Pages 331-356 | 2000
© Oxford University Press 2000

Pleistocene Underplating and Metasomatism of the Lower Continental Crust: a Xenolith Study

PETER M. SACHS^* and THOR H. HANSTEEN

GEOMAR FORSCHUNGSZENTRUM FÜR MARINE GEOWISSENSCHAFTEN AN DER CHRISTIAN-ALBRECHTS-UNIVERSITÄT KIEL, ABTEILUNG VULKANOLOGIE UND PETROLOGIE, WISCHHOFSTR. 1–3, D-24148 KIEL, GERMANY

Received October 1, 1998; Revised typescript accepted September 2, 1999

Abstract

Xenoliths from Engeln–Kempenich in the East Eifel volcanicfield (Germany) comprise gabbroic to ultramafic cumulates, andmeta-igneous and meta-sedimentary granulite- to amphibolite-facieslithologies. They provide evidence for Pleistocene heating andmetasomatism of the lower continental crust by mafic magmas.The metamorphic xenoliths were divided into three types: (1)primitive type P, which are little affected by metasomatic replacementstructures; (2) enriched type E1 defined by metasomatic replacementof primary pyroxene and garnet by pargasitic amphibole and biotite;(3) enriched type E2 defined by breakdown of hydrous phases.Type E rocks are geochemically related to type P and cumulatexenoliths by compositional trends. During modal metasomatism,type E rocks were oxidized. Type E1 rocks were typically enrichedin Rb, Th, U, Nb, K, light rare earth elements (LREE) and Zr,and E2 enriched in Rb, Th, U, Nb, K, REE, Zr, Ti and Y, relativeto type P rocks. Formation of the hydrous, chlorine-bearingphases amphibole and scapolite containing glass and fluid inclusionsin the E1 rocks provides evidence for a water and Cl-bearingfluid phase coexisting with silicate melt. Accordingly, we calculated10 mol % H₂O back into the CO₂-dominated fluid inclusions, inagreement with experimental data on the composition of a fluidphase coexisting with mafic alkaline melts at elevated pressure.Primary CO₂-dominated fluid inclusions coexisting with glassinclusions in metamorphic corona phases and neoblasts, and incumulate xenoliths, have overlapping densities. Fluid inclusionbarometry using the corrected densities indicates that bothcumulates and metamorphic xenoliths originated from the samedepth at 22–25 km (650 ± 50 MPa). This is interpretedas being a main magma reservoir level within the upper partof the lower crust close to the Conrad discontinuity, wherethe xenoliths represent wall-rocks. The Conrad discontinuityseparates an upper-crustal layer, consisting of preferentiallyductile granodioritic and tonalitic gneisses, and more brittlelower-crustal mafic granulites. The brittle–ductile transitionappears to be a preferred level of magma stagnation.

KEY WORDS: continental lower crust; fluids; magma chamber; metasomatism; xenoliths

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