Skip to Main Content
Skip Nav Destination

Neoproterozoic island arcs in East Sayan: duration of magmatism (from U–Pb zircon dating of volcanic clastics)

Russ. Geol. Geophys. (2013) 54 (1): 34–43.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
Early Neoproterozoic crustal growth and microcontinent formation of the north–central Central Asian Orogenic Belt: New geological, geochronological, and Nd–Hf isotopic data on the Mélange Zone within the Zavkhan terrane, western Mongolia
Gondwana Research (2021) 91: 254.
The role of island-arc oceanic, collisional and intraplate magmatism in the formation of continental crust in the Mongolia-Trasnbaikalia region: geostructural, geochronological and Sm-Nd isotope data
Geodynamics & Tectonophysics (2021) 12 (1): 1.
Multistage Thrust and Nappe Tectonics in the Southeastern Part of East Sayan and Its Role in the Formation of Large Gold Deposits
Russian Geology and Geophysics (2021) 62 (1): 109.
Stages of Tectono-Magmatic Activity in the Border Zone of the Siberian Platform and the Tannuola–Khamsara Segment of the CAFB (According to the Results of U–Pb Isotope Studies)
Doklady Earth Sciences (2021) 498 (2): 451.
Formation of the Neoproterozoic Continental Crust in the Structures of the Central Segment of the Central Asian Fold Belt
Petrology (2021) 29 (2): 195.
Podiform Chromitites and PGE Mineralization in the Ulan-Sar’dag Ophiolite (East Sayan, Russia)
Minerals (2020) 10 (2): 141.
Tectonic history of the Kolyvan–Tomsk folded zone ( KTFZ ), Russia: Insight from zircon U / P b geochronology and N d isotopes
Geological Journal (2020) 55 (3): 1913.
The Provenance of the Vendian Highly Aluminiferous Rocks of the Tunka Bald Mountains, Eastern Sayan: Isotopic, Geochemical, and Mineralogical Evidence
Stratigraphy and Geological Correlation (2020) 28 (3): 231.
Stratigraphic Framework of the Cryogenian in China
Acta Geologica Sinica - English Edition (2020)
The Early Palaeozoic mega‐thrusting of the Gondwana‐derived Altay–Lake zone in western Mongolia: Implications for the development of the Central Asian Orogenic Belt and Paleo‐Asian Ocean evolution
Geological Journal (2020) 55 (3): 2129.
Multistage Magmatism in Ophiolites and Associated Metavolcanites of the Ulan-Sar’dag Mélange (East Sayan, Russia)
Minerals (2020) 10 (12): 1077.
HFSE and REE Geochemistry and Nd-Sr-Os Systematics of Peridotites in the Subcontinental Lithospheric Mantle of the Siberian Craton and Central Asian Fold Belt Junction Area: Data on Mantle Xenoliths
Petrology (2020) 28 (2): 207.
Mineral Types of Gold Deposits and Regularities of Their Localization in Southeastern East Sayan
Geology of Ore Deposits (2019) 61 (2): 118.
Evolution of the Central Asian Orogenic Belt along the Siberian margin from Neoproterozoic-Early Paleozoic accretion to Devonian trench retreat and a comparison with Phanerozoic eastern Australia
Earth-Science Reviews (2019) 198: 102951.
Precambrian basement, provenance implication, and tectonic evolution of the Gargan block of the Tuva-Mongolia terranes, Central Asian Orogenic Belt
Gondwana Research (2019) 75: 172.
Ophiolites of the Central Asian Orogenic Belt: Geochemical and petrological characterization and tectonic settings
Geoscience Frontiers (2019) 10 (4): 1255.
Precambrian Terranes of the Central Asian Orogenic Belt: Comparative Characteristics, Types, and Peculiarities of Tectonic Evolution
Geotectonics (2019) 53 (1): 1.
Gold-Bearing Pyrrhotite Ores in East Sayan: Composition and Formation Conditions (by the Example of the Ol’ginskoe Ore Occurrence)
Russian Geology and Geophysics (2019) 60 (5): 514.
U-Pb detrital zircon geochronology and provenance of Neoproterozoic sedimentary rocks in southern Siberia: New insights into breakup of Rodinia and opening of Paleo-Asian Ocean
Gondwana Research (2019) 65: 1.
Tectonic Position of the Neoproterozoic Gabbro-Ultrabasite and Gabbroid Complexes of the Bayan Nuur Block of the Songino Ledge, Central Asian Orogenic Belt
Stratigraphy and Geological Correlation (2019) 27 (2): 159.
Hydrothermal remobilization platinum group elements and their secondary minerals in chromitite deposits of the Eastern Sayan ophiolites (Russia)
E3S Web of Conferences (2019) 98: 08014.
Tectonic Position of the Late Neoproterozoic–Early Paleozoic Metamorphic Belts within the Tuva–Mongolian Terrane of the Central Asian Orogenic Belt
Petrology (2019) 27 (1): 43.
Age and Sources of Terrigenous Rocks of Basal Formation of the Tsagaan-Olom Group of the Dzabkhan Terrane: Results of U–Th–Pb Geochronological, Lu–Hf and Sm–Nd Isotopic Studies
Stratigraphy and Geological Correlation (2019) 27 (5): 555.
Subduction, accretion, and collision during the Neoproterozoic-Cambrian orogeny in the Great Xing’an Range, NE China: Insights from geochemistry and geochronology of the Ali River ophiolitic mélange and arc-type granodiorites
Precambrian Research (2018) 311: 117.
Zun-Ospa Gold Deposit, Eastern Sayan: Geology, Ore Composition, and Genesis
Geology of Ore Deposits (2018) 60 (3): 241.
Age and Provenance Areas of Terrigenous Rocks of the Dzhida Terrane: Results of U—Th—Pb (LA-ICP-MS) Geochronological Study of Detrital Zircons
Stratigraphy and Geological Correlation (2018) 26 (5): 489.
First data on the age of rocks from the northern flank of the Olkhon terrane, western Baikal area
Doklady Earth Sciences (2017) 476 (1): 1021.
Neoproterozoic magmatic complexes of the Songino block (Mongolia): A problem of formation and correlation of Precambrian terranes in the Central-Asian Orogenic Belt
Petrology (2017) 25 (4): 365.
Main stages of tectonomagmatic activity of the Tuva–Mongolian microcontinent in the Precambrian: data on the U–Pb age of zircons
Doklady Earth Sciences (2017) 474 (2): 668.
Pre-collisional (> 0.5 Ga) complexes of the Olkhon terrane (southern Siberia) as an echo of events in the Central Asian Orogenic Belt
Gondwana Research (2017) 42: 243.
Geodynamics of the origin of granulites in the Sangilen block of the Tuva–Mongolian terrane, Central Asian Orogenic Belt
Petrology (2017) 25 (6): 615.
PGE mineralization and melt composition of chromitites in Proterozoic ophiolite complexes of Eastern Sayan, Southern Siberia
Geoscience Frontiers (2017) 8 (4): 721.
Neoproterozoic-Early Paleozoic Peri-Pacific Accretionary Evolution of the Mongolian Collage System: Insights From Geochemical and U-Pb Zircon Data From the Ordovician Sedimentary Wedge in the Mongolian Altai
Tectonics (2017) 36 (11): 2305.
No excessive crustal growth in the Central Asian Orogenic Belt: Further evidence from field relationships and isotopic data
Gondwana Research (2017) 50: 135.
Reprint of “Pre-collisional (> 0.5 Ga) complexes of the Olkhon terrane (southern Siberia) as an echo of events in the Central Asian Orogenic Belt”
Gondwana Research (2017) 47: 228.
Neoproterozoic complexes of the shelf cover of the Dzabkhan terrane basement in the Central Asian Orogenic Belt
Stratigraphy and Geological Correlation (2017) 25 (5): 479.
New data about structure and time of formation of the Khamar-Daban terrane: U-Pb LA-ICP-MS zircon ages
Stratigraphy and Geological Correlation (2016) 24 (1): 19.
The evolution of the subduction zone magmatism on the Neoproterozoic and Early Paleozoic active margins of the Paleoasian Ocean
Russian Geology and Geophysics (2016) 57 (1): 69.
Neoproterozoic ophiolite and related high-grade rocks of the Baikal–Muya belt, Siberia: Geochronology and geodynamic implications
Journal of Asian Earth Sciences (2015) 111: 138.
Tectonic implications of new zircon U–Pb ages for the Xinghuadukou Complex, Erguna Massif, northern Great Xing’an Range, NE China
Journal of Asian Earth Sciences (2015) 106: 169.
Composition and evolution of PGE mineralization in chromite ores from the Il’chir ophiolite complex (Ospa–Kitoi and Khara-Nur areas, East Sayan)
Russian Geology and Geophysics (2014) 55 (2): 259.
Dating thin zircon rims by NanoSIMS: the Fengtien nephrite (Taiwan) is the youngest jade on Earth
International Geology Review (2014) 56 (16): 1932.
The Tuva–Mongolia Massif and the Siberian Craton – are they the same? A comment on ‘Age and provenance of the Ergunahe Group and the Wubinaobao Formation, northeastern Inner Mongolia, NE China: implications for tectonic setting of the Erguna Massif’ by Zhang et al.
International Geology Review (2014) 56 (8): 954.
Detrital zircon provenance of early Palaeozoic sediments at the southwestern margin of the Siberian Craton: Insights from U–Pb geochronology
Journal of Asian Earth Sciences (2014) 82: 115.
Early evolution of the Paleoasian ocean: LA-ICP-MS dating of detrital zircon from Late Precambrian sequences of the southern margin of the Siberian craton
Russian Geology and Geophysics (2013) 54 (10): 1150.
Interplay of magmatism, sedimentation, and collision processes in the Siberian craton and the flanking orogens
Russian Geology and Geophysics (2013) 54 (10): 1135.
Quartzite transformation as a consequence of late tectonic events in the evolution of the Chuya and Gargan blocks
Russian Geology and Geophysics (2013) 54 (12): 1450.
Close Modal

or Create an Account

Close Modal
Close Modal