Component mobility at 900 °C and 18 kbar from experimentally grown coronas in a natural gabbro |
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| Authors: | Lukas M Keller Bernd Wunder Richard Wirth |
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| Institution: | a Institute of Geological Sciences, FU Berlin, Malteserstrasse 74-100, D-12249 Berlin, Germany
b GeoForschungsZentrum Potsdam, Department 4, Telegrafenberg, 14473 Potsdam, Germany |
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| Abstract: | Several approximately 100-μm-wide reaction zones were grown under experimental conditions of 900 °C and 18 kbar along former olivine-plagioclase contacts in a natural gabbro. The reaction zone comprises two distinct domains: (i) an irregularly bounded zone with idiomorphic grains of zoisite and minor corundum and kyanite immersed in a melt developed at the plagioclase side and (ii) a well-defined reaction band comprising a succession of mineral layers forming a corona structure around olivine. Between the olivine and the plagioclase reactant phases we observe the following layer sequence: olivine|pyroxene|garnet|partially molten domain|plagioclase. Within the pyroxene layer two micro-structurally distinct layers comprising enstatite and clinopyroxene can be discerned. Chemical potential gradients persisted for the CaO, Al2O3, SiO2, MgO and FeO components, which drove diffusion of Ca, Al and Si bearing species from the garnet-matrix interface to the pyroxene-olivine interface and diffusion of Mg- and Fe-bearing species in the opposite direction. The systematic mineralogical organization and chemical zoning across the corona suggest that the olivine corona was formed by a “diffusion-controlled” reaction. We estimate a set of diffusion coefficients and conclude that LAlAl < LCaCa < (LSiSi, LFeFe) < LMgMg during reaction rim growth. |
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