New data on the conditions and time of formation of eclogites in the Atbashi Ridge (South Tien Shan) were obtained. The PT-conditions of crystallization of high-pressure minerals from eclogites have been established: 23–25 kbar, 510–570 °C. Analysis of fluid inclusions showed that the metamorphic processes of the eclogite formation involved salt-aqueous fluids (up to 6–12 wt.% NaCl). Primary fluid inclusions were trapped by omphacite and garnet on their high-pressure (23–25 kbar) crystallization. The pressures determined from thermodynamic data on the inclusions (6–7.2 kbar) reflect the adaptation of the host-mineral matrix to the decrease in ambient parameters, which led to the fluid re-equilibration in the inclusions. The pseudosecondary inclusions in omphacite, quartz, and garnet reflect the conditions of regressive processes running on the ascent of eclogites at pressures of up to 4.5–6.2 kbar. The stepwise 40Ar/39Ar dating showed that the high-pressure minerals from the Atbashi Ridge eclogites crystallized at 324–327 Ma. Data on trace and rare-earth elements indicate that the protoliths of two established types of eclogites (with characteristics of N-MORB and plateau basalts) formed synchronously as a result of the interaction of MOR magmatic systems with plateau-basaltic plume magmatism. These protoliths were basic paleo-oceanic complexes, whose fragments are localized as ophiolites in the Atbashi Ridge structures. The maximum time gap between the formation of ancient oceanic crust and the eclogite metamorphism in the subduction zones of the studied associations is ~120 Myr.
Abstract:The area of studies covers the north-eastern part of the Siberian craton (the Birekte terrain), Russia. The influence of metasomatic and magmatic processes on the mantle lithosphere is studied based on results of analyses of phlogopite-and phlogopite-amphibole-containing deep-seated xenoliths from kimberlites of the Kuoika field. In the kimberlitic pipes, deep-seated xenoliths with mantle phlogopite-and phlogopite-amphibole mineralization are developed in two genetically different rock series: magnesian (Mg) pyroxenite-peridotite series (with magnesian composition of rocks and minerals) and phlogopite-ilmenite (Phl-Ilm) hyperbasite series (with ferrous types of rocks and minerals). This paper is focused on issues of petrography and mineralogy of the xenoliths and describes the evidence of metasomatic / magmatic genesis of phlogopite and amphibole. We report here the first data set of 40 Ar/ 39 Ar age determinations for phlogopite from the rocks of the magnesian pyroxenite-peridotite series and the ferrous Phl-Ilm hyperbasite series.The Mg series is represented by a continuous transition of rocks from Sp, Sp-Grt, Grt clinopyroxenite and ortopyroxenite to websterite and lherzolite. Many researchers consider it as a layered intrusion in the mantle [Ukhanov et al., 1988;Solov'eva et al., 1994]. The mantle metasomatic phlogopite and amphibole are revealed in all petrographic types of the rocks in this series and compose transverse veins and irregular patchs at grain boundaries of primary minerals. At contacts of xenolith and its host kimberlite, grains of phlogopite and amphibole are often cut off, which gives an evidence of the development of metasomatic phlogopite-amphibole mineralization in the rocks before its' entraiment into the kimberlite. In the xenoliths with exsolution pyroxene megacrystalls, comprising parallel plates of clino-and orthopyroxene ± garnet ± spinel (former high-temperature pigeonite [Solov'eva et al., 1994]), the metasomatic phlogopite-amphibole aggregate mainly replace laminar intergrowths of one of pyroxenes and garnet and also develops in the re-crystallized fine-grained rock matrix. This suggests a considerable period of time between the crystallization of rocks of the pyroxenite-peridotite series and the development of phlogopite-amphibole metasomatism.The Phl-Ilm hyperbasites comprise a complex association of parageneses represented by garnet-and garnetless pyroxenites, websterites, olivine websterites, orthopyroxenites, lherzolites and olivinites. A specific feature of this series is high contents of K, Ti and Fe in the rocks and minerals. The content of phlogopite is widely variable, from a few percent to 40-80 %. The content of ilmenite ranges from a few percent to 15 %, rarely to 30-40 %. Mica and ilmenite contents sharply decrease in garnetized xenolithes, where these two minerals, as soon as olivine and pyroxenes are replaced by garnet.Euhedral, subhedral, sideronitic and porphyraceous structures in garnetless xenoliths suggest the primary magmatic genesis of the rocks. I...
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