Late Paleozoic granitoids of western Transbaikalia: magma sources and stages of formation

Цыганков, А. А.; Matukov, D. I.; Berezhnaya, N. G.; Ларионов, А. Н.; Посохов, В. Ф.; Tsyrenov, B. Ts.; Khromov, A.A.; Сергеев, С. А.

doi:10.1016/j.rgg.2006.12.011

Cited by 67 publications

(23 citation statements)

References 12 publications

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“…Transbaikalia region, to the south of Lake Baikal, is a region of intense and prolonged granitic magmatism (Kuzmichev et al, 2001;Tsygankov et al, 2007;Zorin et al, 2009). The oldest granites in the region are dated at 800 Ma (Kuzmichev et al, 2001).…”

Section: Central Asia Fold Beltmentioning

confidence: 99%

“…The largest granite complex is the Angara-Vitim batholith with an area of more than 150,000 km 2 . The batholith formed in two stages, 340-320 Ma and 310-270 Ma, on a heterogeneous basement with a variable isotopic signature (Tsygankov et al, 2007).…”

Section: Central Asia Fold Beltmentioning

confidence: 99%

“…2f) and most of these grains were sourced from the Caledonian terranes of the Sayan Mountains. Grains of 400-250 Ma may have originated from Hercynian collisional complexes, which include the vast 340-270 Ma Angara-Vitim granite batholith (Tsygankov et al, 2007). Eight grains with a Mesozoic age could have originated from alkaline granites (Kovalenko et al,1999) or core complexes in the Transbaikalia region .…”

Section: Yenisey Rivermentioning

confidence: 99%

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Growth rate of the preserved continental crust: II. Constraints from Hf and O isotopes in detrital zircons from Greater Russian Rivers

Wang

Campbell

Stepanov

et al. 2011

Geochimica et Cosmochimica Acta

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Section: Central Asia Fold Beltmentioning

confidence: 99%

Section: Central Asia Fold Beltmentioning

confidence: 99%

Section: Yenisey Rivermentioning

confidence: 99%

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Growth rate of the preserved continental crust: II. Constraints from Hf and O isotopes in detrital zircons from Greater Russian Rivers

Wang

Campbell

Stepanov

et al. 2011

Geochimica et Cosmochimica Acta

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“…According to the geochronological studies conducted in the most studied field of Sukhoi Log, these types of gold mineralization occurred in significantly distant time intervals dated 447±5 and 321±14 Ma, respectively [Laverov et al, 2007]. The first dating is consistent with the occurrence of granitoids in the Mama formation (421±15 Ma, U-Pb dating, SHRIMP-II) [Zorin et al, 2008], and the second dating corresponds to the age of the Barguzin formation composing the Angara-Vitim batholith (330-310 Ma) [Tsygankov et al, 2007;.…”

Section: Introductionmentioning

confidence: 83%

Silurian age of major folding in Riphean deposits of the Baikal-patom zone

et al. 2008

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Introduction. The Lena gold province is one of the largest known gold resources in the world. The history of its exploration is long, but the genesis of gold mineralization hosted in black shales in the Bodaibo synclinorium still remains unclear. The studies face the challenge of discovering sources for the useful component and mechanisms of its redistribution and concentration. This study aims to clarify the time sequence of the ore mineralization in the Chertovo Koryto deposit on the basis of detailed mineralogical and geochemical characteristics of the ore, wallrock metasomatites and the Early Proterozoic host black shales, and to assess the applicability of the Sukhoi Log model for clarifying the Chertovo Koryto origin.Geological setting. The Lena gold province is located in the junction area of the Siberian platform and the Baikal mountain region (Fig. 1). The main element of its geological structure is the Chuya-Tonoda-Nechera anticline. Its axial segment is marked by horsts composed of the Early Proterozoic rocks with abundant granitoid massifs. The Chertovo Koryto deposit is located within the Kevakta ore complex at the Tonoda uplift, the largest tectonically disturbed block between the Kevakta and Amandrak granitoids massifs. The 150 m thick and 1.5 km long ore zone of the Chertovo Koryto deposit is confined to the hanging wall of the fold-fault zone feathering the Amandrak deep fault (Fig. 2).Composition. In the ore zone, rocks of the Mikhailovsk Formation include carbonaceous shales of the feldsparchlorite-sericite-quartz composition with nest-shaped ore accumulations of the pyrite-quartz composition and quartz veinlets. In our study, we distinguish five mineral associations resulting from heterochronous processes that sequentially replaced each other:-The earliest association related with the quartz-muscovite-sericite metasomatism and the removal of REE and other elements from the rocks and their partial redeposition; -Metamorphic sulphidization presented by scattered impregnations of pyrrhotite, as evidenced by small lenses of pyrrhotite, which are considerably elongated (axes up to 0.7 cm long) along the foliation planes (Figs 3, a, b); -Ore mineralization represented by a superimposed hydrothermal gold association with arsenopyrite ( Fig. 3, d); -Late chalcophilic mineralization formed at the final stage of hydrothermal-metasomatic process (Figs 3, e, f); -Post-ore silification. Geochemical characteristics. The geochemical study of rocks and ores from the Chertovo Koryto deposit show that the rocks of the Mikhailovsk Formation are characterized by higher contents of rock-forming elements, such as of Al2O3, Fe2O3total, MgO, K2O, and P2O5, in comparison to the PAAS standards [Condie, 1993] and the black shale standard composition (SChS-1) [Petrov et al., 2004]. A characteristic feature of the ore zone is that the contents of practically all the oxides, except SiO2, tend to decrease (Table 1). The distribution of rare elements repeats the pattern established for major elements. The least me...

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“…Возможно, завышение Rb-Sr изохронной даты обусловлено некоторой контаминацией кислых дайковых магм коровым субстратом с высоким содержанием ра-диогенного стронция. Тем не менее пермские воз-расты дайковых пород, полученные U-Pb LA-ICP-MS методом, соответствуют геологическим наблюде-ниям: во-первых, дайки секут известково-щелоч-ные граниты баргузинского комплекса (330-300 млн лет) и граниты зазинского комплекса (305-285 млн лет) [Tsygankov et al, 2007[Tsygankov et al, , 2010; во-вторых, они пространственно сопряжены с пермскими гра-нитоидами повышенной щелочности (Брянский и Хоринский массивы) и бимодальными вулканита-ми с возрастом 285-280 млн лет Litvinovsky et al, 2002;Riechow et al, 2010], а также близки к ним по своим вещественным ха-рактеристикам [Khubanov, 2009].…”

Section: Discussionunclassified

U‐pb La‐icp‐ms Dating of Zircons From Subvolcanics of the Bimodal Dyke Series of the Western Transbaikalia: Technique, and Evidence of the Late Paleozoic Extension of the Crust

Буянтуев¹,

Хубанов²,

Врублевская³

2017

Geodin. tektonofiz.

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Abstract:Our study investigates a possibility of using isotope ratios of U-Th-Pb system in zircon analysis by the LA-ICP-MS technique and monitoring of precision, convergence and accuracy. New U-Pb isotope-geochronological data has been obtained for the salic and mafic members of the bimodal Late Paleozoic series of subparallel dykes in the central part of the Western Transbaikalia. It is shown that a series of subparallel dykes (290-280 Ma) gives evidence of extension of the continental crust at the final stage of the Late Paleozoic granitoid magmatism. Similar ages of zircons in the salic and mafic subvolcanic rocks confirm the geological indicators of the coexistence and interactions between the magmas of contrasting compositions.

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Late Paleozoic granitoids of western Transbaikalia: magma sources and stages of formation

Cited by 67 publications

References 12 publications

Growth rate of the preserved continental crust: II. Constraints from Hf and O isotopes in detrital zircons from Greater Russian Rivers

Growth rate of the preserved continental crust: II. Constraints from Hf and O isotopes in detrital zircons from Greater Russian Rivers

Silurian age of major folding in Riphean deposits of the Baikal-patom zone

U‐pb La‐icp‐ms Dating of Zircons From Subvolcanics of the Bimodal Dyke Series of the Western Transbaikalia: Technique, and Evidence of the Late Paleozoic Extension of the Crust

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