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dc.contributor.author Xiong X.L.
dc.contributor.author Xia B.
dc.contributor.author Xu J.F.
dc.contributor.author Niu H.C.
dc.contributor.author Xiao W.S.
dc.date.accessioned 2024-09-22T02:54:19Z
dc.date.available 2024-09-22T02:54:19Z
dc.date.issued 2006
dc.identifier https://www.elibrary.ru/item.asp?id=14338629
dc.identifier.citation Chemical Geology, 2006, 229, 4, 273-292
dc.identifier.issn 0009-2541
dc.identifier.uri https://repository.geologyscience.ru/handle/123456789/45360
dc.description.abstract Interaction between slab-derived melt and mantle peridotite and the role of slab melt as a metasomatizing agent in the sub-arc mantle is being increasingly recognized. Adakite, the slab melt erupted on the surface, usually exhibits anomalously high MgO, CaO, Cr and Ni contents that indicate interaction with mantle peridotitite. Here we note that Cenozoic adakites have Na2O contents below 5.8 wt.% with ~95% samples lower than 5.0 wt.%, and are generally depleted in this component relative to experimental basalt partial melts (mostly beyond 5.0 wt.% and up to 9.0 wt.% Na2O) produced under 1.5-3.0 GPa conditions that are most relevant to adakite production. We interpret the adakite Na depletion to be also a consequence of the melt / rock reaction that takes place within the hot mantle wedge. During ascent and reaction with mantle peridotite, primary adakite melts gain mantle components MgO, CaO, Cr and Ni but lose Na2O, SiO2 and perhaps K2O to the mantle, leading to Na-rich mantle metasomatism. Selective assimilation of predominately mantle clinopyroxene, some spinel and minor olivine at high T/P has been considered to be an important process in producing high-Mg adakites from primary low-Mg slab melts [Killian, R., Stern, C. R., 2002. Constraints on the interaction between slab melts and the mantle wedge from adakitic glass in peridotite xenoliths. Eur. J. Mineral. 14, 25-36]. In such a process, Na depletion in the assimilated melt is the result of dilution due to the increase in melt mass. Phase relationships in the reaction system siliceous melt + peridotite and quantitative calculation suggest that assimilation of mantle clinopyroxene, olivine and spinel and fractional crystallization of sodic amphibole and orthopyroxene, under conditions of moderate T/P and increasing melt mass, is also an important process that modifies the composition of adakites and causes the Na depletion. © 2005 Elsevier B.V. All rights reserved.
dc.subject ADAKITE
dc.subject MELT / ROCK REACTION
dc.subject NA DEPLETION
dc.subject SUB-ARC MANTLE
dc.title NA DEPLETION IN MODERN ADAKITES VIA MELT / ROCK REACTION WITHIN THE SUB-ARC MANTLE
dc.type Статья
dc.identifier.doi 10.1016/j.chemgeo.2005.11.008


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