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Experimental Constraints on the Role of Garnet Pyroxenite in the Genesis of High-Fe Mantle Plume Derived Melts |
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| Authors: | TUFF, J. TAKAHASHI, E. GIBSON, S. A. |
| Affiliation: | 1 DEPARTMENT OF EARTH SCIENCES, UNIVERSITY OF CAMBRIDGE, DOWNING STREET, CAMBRIDGE CB2 3EQ, UK 2 DEPARTMENT OF EARTH AND PLANETARY SCIENCES, TOKYO INSTITUTE OF TECHNOLOGY, MEGURO, TOKYO 152-8551, JAPAN 3 INSTITUTE FOR RESEARCH ON EARTH EVOLUTION, JAMSTEC, YOKOSUKA, JAPAN |
| Abstract: | The anhydrous phase relations of an uncontaminated (primitive),ferropicrite lava from the base of the Early Cretaceous ParanáEtendekacontinental flood basalt province have been determined between1 atm and 7 GPa. The sample has high contents of MgO ( 14·9wt %), FeO* (14·9 wt %) and Ni (660 ppm). Olivine phenocrystshave maximum Fo contents of 85 and are in equilibrium with thebulk rock, assuming a  of 0·32. A comparison of our results with previous experimental studiesof high-Mg rocks shows that the high FeO content of the ferropicritecauses an expansion of the liquidus crystallization field ofgarnet and clinopyroxene relative to olivine; orthopyroxenewas not observed in any of our experiments. The high FeO contentalso decreases solidus temperatures. Phase relations indicatethat the ferropicrite melt last equilibrated either at 2·2GPa with an olivineclinopyroxene residue, or at  5 GPawith a garnetclinopyroxene residue. The low bulk-rockAl2O3 content (9 wt %) and high [Gd/Yb]n ratio (3·1)are consistent with the presence of residual garnet in the ferropicritemelt source and favour high-pressure melting of a garnet pyroxenitesource. The garnet pyroxenite may represent subducted oceaniclithosphere entrained by the upwelling Tristan starting mantleplume head. During adiabatic decompression, intersection ofthe garnet pyroxenite solidus at 5 GPa would occur at a mantlepotential temperature of 1550°C and yield a ferropicriteprimary magma. Subsequent melting of the surrounding peridotiteat 4·5 GPa may be restricted by the thickness of theoverlying sub-continental lithosphere, such that dilution ofthe garnet pyroxenite melt component would be significantlyless than in intra-oceanic plate settings (where the lithosphereis thinner). This model may explain the limited occurrence offerropicrites at the base of continental flood basalt sequencesand their apparent absence in ocean-island basalt successions. KEY WORDS: continental flood basalt; ferropicrite; mantle heterogeneity; mantle melting; phase relations; pyroxenite |
| Keywords: | : continental flood basalt ferropicrite mantle heterogeneity mantle melting phase relations pyroxenite |
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