Structure and age of the metamorphic core complex of the Burgutui ridge (southwestern Transbaikal region)     

A. M. Mazukabzov  T. V. Donskaya  D. P. Gladkochub  E. V. Sklyarov  V. A. Ponomarchuk  E. B. Sal&#;nikova 《Doklady Earth Sciences》2006,407(2):179-183

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Magma mingling: Tectonic and geodynamic implications   总被引：2，自引：0，他引：2  

E. V. Sklyarov  V. S. Fedorovskii 《Geotectonics》2006,40(2):120-134

An attempt is made to consider the tectonic and geodynamic implications of the mingling of mafic and felsic magmas, particularly, the relationships between mafic and felsic igneous rocks in composite dikes and plutons. Magma mingling develops in suprasubduction, intraplate, and collisional settings. The attributes typical of each type of mingling are discussed with special emphasis on the magma mingling of the collisional type, which is related to synmetamorphic shearing and may be regarded as a direct indicator of synorogenic collapse of collisional structural features. This phenomenon is exemplified in the Ol’khon collisional system in Siberia.  相似文献   

Genesis of the Paleoproterozoic Rare-Metal Granites of the Katugin Massif     

T. V. Donskaya  D. P. Gladkochub  E. V. Sklyarov  A. B. Kotov  A. M. Larin  A. E. Starikova  A. M. Mazukabzov  E. V. Tolmacheva  S. D. Velikoslavinskii 《Petrology》2018,26(1):47-64

We studied the petrography, mineralogy, and geochemistry of the Paleoproterozoic (2.06 Ga) granites of the Katugin massif (Stanovoy suture zone), which hosts the combined rare-metal Katugin deposit. Three groups of granites were distinguished: (1) biotite (Bt) and biotite–riebeckite (Bt–Rbk) granites of the western block of the massif; (2) biotite–arfvedsonite (Bt–Arf) granites of the eastern block; and (3) arfvedsonite (Arf), aegirine–arfvedsonite (Aeg–Arf), and aegirine (Aeg) granites of the eastern block. The Bt and Bt–Rbk granites of the first group are mainly metaluminous and peraluminous rocks with rather high CaO contents and the minimum F contents among the granites described here. It was suggested that the granites of this group could be derived from a source dominated by crustal rocks with a small addition of mantle materials. These granites probably crystallized from a metaluminous–peraluminous melt with elevated CaO and moderate F contents. Melts of such compositions are least favorable for the crystallization of ore minerals. The Bt–Arf granites of the second group are mainly peralkaline and show high contents of CaO and Y and low contents of Na₂O and F. A mixed mantle–crust source was proposed for the Bt–Arf granites. The initial melt of the Bt–Arf granites could have a peralkaline composition with elevated CaO content and moderate to high F content. The Arf, Aeg–Arf, and Aeg granites of the third group are enriched in ore mineral and were classified as peralkaline granites with very low CaO contents, elevated Na2O and F contents, and usually very high contents of Zr, Hf, Nb, and Ta. Based on the geochemical and isotopic data, it was supposed that the source of the granites of the third group could be derivatives of basaltic magmas produced in an OIB-type source with a minor addition of crustal material to the magma generation zone. It was suggested that the primary melt of this granite group could be a peralkaline CaO-poor and F-rich silicic melt, which is most favorable for the crystallization of ore minerals. Based on the analysis of the geochemical characteristics of the three granite groups and their relationships within the Katugin massif, a qualitative model of its formation was proposed. According to this model, the Bt and Bt–Rbk granites of the western block crystallized first, followed by the Bt–Arf granites of the eastern block and, eventually, the Arf, Aeg–Arf, and Aeg granites enriched in ore minerals.  相似文献   

Evolution of island arcs and geodynamics of the eastern Central Asian foldbelt in the Neogea     

Yu. A. Zorin  E. V. Sklyarov  V. G. Belichenko  A. M. Mazukabzov 《Doklady Earth Sciences》2007,412(1):39-42

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Holocene climate history of the Western Baikal region: Carbonate sedimentary record of Kholbo-Nur Lake     

E. V. Sklyarov  E. P. Solotchina  E. G. Vologina  O. P. Izokh  N. V. Kulagina  L. A. Orlova  O. A. Sklyarova  P. A. Solotchin  V. N. Stolpovskaya  N. N. Ukhova 《Doklady Earth Sciences》2010,431(2):490-496

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Fragment of the Early Paleozoic (∼500 Ma) island arc in the structure of the Olkhon Terrane,Central Asian fold belt     

D. P. Gladkochub  T. V. Donskaya  V. S. Fedorovskii  A. M. Mazukabzov  E. V. Sklyarov  A. V. Lavrenchuk  E. N. Lepekhina 《Doklady Earth Sciences》2014,457(2):905-909

The volcanic (basaltic, basalt andesitic, andesitic, and rhyolitic) porphyric rocks of the Tsagan-Zaba complex are studied in the Olkhon composite terrane of the Central Asian foldbelt. The concordant U-Pb (SHRIMP-II) age of single zircon grains from rhyolites (492 ± 5 Ma) may be interpreted as the period of formation of the Tsagan-Zaba complex. The volcanic rocks of this complex are characterized by clear suprasubduction geochemical features and positive ?_Nd(t) values. The similar ages, compositions, and ?_Nd(t) values of the studied volcanic rocks and gabbroic rocks of the Birkhin pluton allow us to combine them into a common Birkhin volcano-plutonic association, which may be considered as a fragment of a section of the mature island arc of ～500 Ma in age. The gabbroic rocks may be interpreted as the middle part of this section, whereas the volcanic and volcanosedimentary rocks belong to its upper part. The section was disintegrated 470–460 Ma ago, when the Early Paleozoic island arc was accreted to the southern flank of the Siberian craton in the course of the oblique collision and became a part of the Olkhon composite terrane.  相似文献   

Igneous carbonates in dolerites of Franz Joseph land     

Sklyarov  E. V.  Karyakin  Yu. V.  Kanakin  S. V. 《Doklady Earth Sciences》2017,472(1):109-112

Doklady Earth Sciences - Carbonates showing the signs of crystallization from a melt were found in dolerites and basalts of lava covers and dikes of Alexandra Land, Heiss, and Newcomb islands....  相似文献   

Reconstruction of the Holocene climate based on a carbonate sedimentary record from shallow saline Lake Verkhnee Beloe (western Transbaikalia)     

E.P. Solotchina  E.V. Sklyarov  P.A. Solotchin  E.G. Vologina  V.N. Stolpovskaya  O.A. Sklyarova  N.N. Ukhova 《Russian Geology and Geophysics》2012,53(12):1351-1365

We present results of mineralogical and crystallochemical studies of the Holocene carbonate sediments of a small saline lake localized in the Borgoi dry-steppe region, western Transbaikalia. Mg-calcites with a varying Mg content are predominant in the assemblage of endogenic carbonate minerals from bottom sediments. Mathematical modeling of the XRD spectra of carbonates permitted us to identify excess-Ca dolomites, which are an indicator of a shallow (playa) lake. The studies showed that the lacustrine Mg-calcites do not form a continuous series from low- to high-Mg varieties. We discuss the cause of this phenomenon and also consider the existing viewpoints of the structure of low-temperature Mg-calcites and excess-Ca dolomites and their formation conditions in lacustrine sediments. Juxtaposing the carbonate record with the data of lithological analysis, determined stable isotopes (δ¹⁸O and δ¹³C), and distribution of some geochemical indicators of climatic changes, we reconstructed the intricate evolution of Lake Verkhnee Beloe, which was controlled by the regional climate since the postglacial period till the present day.  相似文献   

Holocene sedimentary record of Bol’shoe Alginskoe Lake, Western Transbaikalia: Connection with paleoclimate     

E. P. Solotchina  E. V. Sklyarov  P. A. Solotchin  E. G. Vologina  O. A. Sklyarova  N. N. Ukhova 《Doklady Earth Sciences》2013,449(1):313-318

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Petrological Indicators of Assembly and Breakup Processes for Precambrian Supercontinents at the Southern Margin of the Siberian Craton     

D.P. Gladkotchoub  T.V. Donskaya  E.V. Sklyarov  A.M. Mazukabzov  T. Watanabe 《Gondwana Research》2001,4(4):620

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