POLYPHASE INCLUSIONS IN GARNET-ORTHOPYROXENITE (DABIE SHAN, CHINA) AS MONITORS FOR METASOMATISM AND FLUID-RELATED TRACE ELEMENT TRANSFER IN SUBDUCTION ZONE PERIDOTITE

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dc.contributor.author Malaspina N.
dc.contributor.author Scambelluri M.
dc.contributor.author Hermann J.
dc.contributor.author Compagnoni R.
dc.date.accessioned 2024-10-18T08:57:25Z
dc.date.available 2024-10-18T08:57:25Z
dc.date.issued 2006
dc.identifier https://www.elibrary.ru/item.asp?id=14801745
dc.identifier.citation Earth and Planetary Science Letters, 2006, 249, 3-4, 173-187
dc.identifier.issn 0012-821X
dc.identifier.uri https://repository.geologyscience.ru/handle/123456789/45927
dc.description.abstract The ultrahigh-pressure (UHP) Maowu Ultramafic Complex (Dabie Shan, China) is hosted by coesite-bearing gneisses. Textural and geochemical data demonstrate that garnet-orthopyroxenites within the ultramafic complex derive from garnet-harzburgite precursors that have been metasomatised at peak UHP conditions (4.0 ± 1.0 GPa, 750 ± 50 °C) by the addition of a silica- and incompatible trace element-rich fluid phase (hydrous melt), sourced from the associated crustal rocks. This metasomatism produced poikilitic orthopyroxene with high LREE and Ni contents and inclusion-rich garnet porphyroblasts. Solid polyphase primary inclusions within peak metamorphic garnet display negative crystal shapes and constant volume ratios of infilling mineral phases. Experimental homogenisation of these inclusions at conditions close to the estimated metamorphic peak demonstrates that the polyphase inclusions derive from trapped solute-rich aqueous fluids. The trace element characteristics of the experimentally re-homogenised inclusions include high LREE contents, a pronounced enrichment in LILE, with spikes of Cs, Ba, Pb and high U/Th. The investigated UHP garnet-orthopyroxenites from Maowu represent a natural laboratory to constrain the trace element transfer from the subducted crust to the mantle wedge at sub-arc depths. The observed textures and chemical characteristics provide evidence for the infiltration of a felsic hydrous melt into garnet-peridotite, a circumstance comparable to expected interaction of sediment-derived melts with mantle wedge peridotites in subduction zones. The SiO2 and Al2O3 component of the hydrous melt reacted with olivine to form replacive orthopyroxene and new garnet. The neoblastic orthopyroxene is able to accommodate some of the LREE, whereas the H2O and LILE component of the melt were partitioned into a residual aqueous fluid phase. Remnants of such an aqueous fluid were trapped in the garnet and formed the polyphase inclusions. The trace element pattern of these inclusions is very similar to the incompatible element enrichment observed in arc lavas. We suggest that the residual fluid produced by the peridotite/hydrous melt reaction is able to transfer the characteristic LILE signature from the subducted sediments to the locus of partial melting in the mantle wedge. Moreover, this study provides evidence that polyphase inclusions are important tools for constraining the nature and composition of UHP fluids. © 2006 Elsevier B.V. All rights reserved.
dc.subject MANTLE WEDGE
dc.subject ORTHOPYROXENITE
dc.subject POLYPHASE INCLUSIONS
dc.subject SUBDUCTION
dc.subject TRACE ELEMENT TRANSFER
dc.subject UHP METASOMATISM
dc.title POLYPHASE INCLUSIONS IN GARNET-ORTHOPYROXENITE (DABIE SHAN, CHINA) AS MONITORS FOR METASOMATISM AND FLUID-RELATED TRACE ELEMENT TRANSFER IN SUBDUCTION ZONE PERIDOTITE
dc.type Статья
dc.identifier.doi 10.1016/j.epsl.2006.07.017


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