Melting and Multi-stage Metasomatism in the Mantle Wedge beneath a Frontal Arc Inferred from Highly Depleted Peridotite Xenoliths from the Avacha Volcano, Southern Kamchatka

doi:10.1093/petrology/egl065

Journal of Petrology Advance Access published online on November 23, 2006
Journal of Petrology, doi:10.1093/petrology/egl065

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Melting and Multi-stage Metasomatism in the Mantle Wedge beneath a Frontal Arc Inferred from Highly Depleted Peridotite Xenoliths from the Avacha Volcano, Southern Kamchatka

Satoko Ishimaru¹^,*, Shoji Arai¹, Yoshito Ishida², Miki Shirasaka¹ and Victor M. Okrugin³

¹Department of Earth Sciences, Graduate School of Natural Science and Technology, Kanazawa University, Kakuma, Kanazawa 920-1192, Japan
²Department of Earth Sciences, Faculty of Science, Kanazawa University, Kakuma, Kanazawa 920-1192, Japan
³Department of Physical–Chemical Methods of Research and Mineralogy, Institute of Volcanology, Russian Academy of Science, 683006, Petropavlovsk-Kamchatky, Russia

Received June 15, 2006; Revised typescript accepted October 9, 2006

Abstract

Peridotite xenoliths from the Avacha volcano, Kamchatka, derivedfrom the mantle beneath the volcanic front of the Kamchatkaarc, are mainly highly depleted clinopyroxene-poor harzburgiteswith highly forsteritic olivine (Fo 90–92) and high Cr-numberspinel (0·5–0·7). The Avacha peridotiteshave experienced metasomatism to various extents, with the formationof metasomatic orthopyroxene replacing primary olivine, by infiltrationof SiO₂-rich fluids. The metasomatic orthopyroxenes can be subdividedinto two textural types; (1) radially aggregated prismatic grains(opx II-1); (2) stout grains associated with interstitial glassand metasomatic minerals (opx II-2). The Avacha peridotitesexhibit light rare earth element (LREE) enrichment relativeto heavy REE (HREE), even in primary lithologies with <2vol.% of metasomatic orthopyroxene. However, the metasomatismhas not altered the chemical characteristics of the Avacha peridotitessignificantly, and the Fo contents of olivine do not increasewith an increase in the Cr-number of spinel. The clinopyroxenein the most depleted primary peridotite, with the highest spinelCr-number, has the highest Ce_N (where subscript N indicatesnormalized to primitive mantle) and relatively low Yb_N contents.We conclude that the Avacha peridotites are residues of high-degreemelting induced by infiltration of an aqueous fluid with relativelyhigh Fe/Mg and LREE/HREE ratios. In situ analysis of olivinegrain boundaries by laser-ablation inductively coupled plasmamass spectrometry (ICP-MS) showed significant concentrationsof some trace elements (Ce and Ba), even on glass-free boundaries;such grain boundaries can be a repository for large-ion lithophileelements (LILE). Orthopyroxene and Ca-amphibole contribute tothe HREE and middle REE (MREE) budget, respectively, of thebulk peridotites. Three types of mantle metasomatism are recordedin the Avacha peridotites. The agent that formed HREE-poor opxII-1 was a slab-derived aqueous fluid rich in SiO₂. It was asuccessor of the fluid influx involved in the initial partialmelting event. On the other hand, the metasomatic minerals inhighly metasomatized peridotites have high LILE (Th, U and Sr)and LREE contents relative to HREE, indicating involvement ofa hydrous melt of adakitic affinity derived from the subductedslab. Glasses associated with opx II-2 are similar in theirtrace-element characteristics to the host Avacha volcanic rocks,indicating the likelihood that the metasomatic agent was a forerunnerof the recent Avacha arc magmatism.

KEY WORDS: Avacha volcano; southern Kamchatka arc; depleted peridotite xenoliths; hydrous melting; mantle metasomatism

*Corresponding author. +81-76-264-6513. +81-76-264-6545. jaja{at}earth.s.kanazawa-u.ac.jp

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