Skip to Main Content
Skip Nav Destination

Neoproterozoic evolution of Rodinia: constraints from new paleomagnetic data on the western margin of the Siberian craton

Russ. Geol. Geophys. (2007) 48 (1): 32–45.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
Late Paleozoic–Early Mesozoic Granite Magmatism on the Arctic Margin of the Siberian Craton during the Kara-Siberia Oblique Collision and Plume Events
Minerals (2020) 10 (6): 571.
Late Neoproterozoic evolution of the southwestern margin of the Siberian Craton: evidence from sedimentology, geochronology and detrital zircon analysis
International Geology Review (2020) 1.
Early Ediacaran Magmatism in the Yenisei Ridge and Evolution of the Southwestern Margin of the Siberian Craton
Minerals (2020) 10 (6): 565.
New geochronologic and paleomagnetic results from early Neoproterozoic mafic sills and late Mesoproterozoic to early Neoproterozoic successions in the eastern North China Craton, and implications for the reconstruction of Rodinia
GSA Bulletin (2020) 132 (3-4): 739.
The Origin of Paleozoic Terranes in Northeastern Asia: Geologic Evidence for Rifting of the Pericratonic Margin of the Siberian Paleocontinent and for Migration of Its Fragments
Russian Geology and Geophysics (2020) 61 (11): 1197.
Geodynamics & Tectonophysics (2019) 10 (2): 405.
Late Neoproterozoic adakites of the Yenisei Ridge (Central Siberia): petrogenesis, geodynamics, and U/Pb age
Russian Geology and Geophysics (2017) 58 (10): 1154.
The Fore-Yenisei sedimentary basin: Seismic-geological model and geodynamic history
Russian Geology and Geophysics (2017) 58 (3-4): 371.
Neoproterozoic intraplate magmatism along the western margin of the Siberian Craton: Implications for breakup of the Rodinia supercontinent
Precambrian Research (2017) 300: 315.
Adakite-gabbro-anorthosite magmatism at the final (576–546 Ma) development stage of the Neoproterozoic active margin in the south-west of the Siberian craton
Doklady Earth Sciences (2017) 477 (2): 1402.
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.
Paleomagnetism of Mesoproterozoic margins of the Anabar Shield: A hypothesized billion-year partnership of Siberia and northern Laurentia
Precambrian Research (2016) 281: 639.
Geochemistry, petrogenesis and age of metamorphic rocks of the Angara complex at the junction of South and North Yenisei Ridge
Geochemistry International (2016) 54 (2): 127.
Neoproterozoic tectonic structure of the Yenisei Ridge and formation of the western margin of the Siberian craton based on new geological, paleomagnetic, and geochronological data
Russian Geology and Geophysics (2016) 57 (1): 47.
Paleomagnetism of the Ulkan massif (SE Siberian platform) and the apparent polar wander path for Siberia in late Paleoproterozoic–early Mesoproterozoic times
Precambrian Research (2015) 259: 58.
Arctida between Rodinia and Pangea
Precambrian Research (2015) 259: 114.
Paleomagnetism of the upper Riphean deposits in the Turukhansk and Olenek uplifts and Uda Pre-Sayan region and the neoproterozoic drift of the Siberian Platform
Izvestiya, Physics of the Solid Earth (2015) 51 (5): 716.
P–T–t constraints on the metamorphic evolution of the Transangarian Yenisei Ridge: geodynamic and petrological implications
Russian Geology and Geophysics (2014) 55 (3): 299.
Paleomagnetism of the Ulkan trough (Southeastern Siberian Craton)
Russian Journal of Pacific Geology (2013) 7 (1): 26.
Zircon ages and Hf isotopic constraints on sources of clastic metasediments of the Slyudyansky high-grade complex, southeastern Siberia: Implication for continental growth and evolution of the Central Asian Orogenic Belt
Journal of Asian Earth Sciences (2013) 62: 18.
The palaeobiology and geochemistry of Precambrian hydrocarbon source rocks
Marine and Petroleum Geology (2013) 40: 1.
The Altaids of Central Asia: A tectonic and evolutionary innovative review
Earth-Science Reviews (2012) 113 (3-4): 303.
Tectonic evolution of the Siberian paleocontinent from the Neoproterozoic to the Late Mesozoic: paleomagnetic record and reconstructions
Russian Geology and Geophysics (2012) 53 (7): 675.
Stages of Late Proterozoic magmatism and periods of Au mineralization in the Yenisei Ridge
Russian Geology and Geophysics (2011) 52 (1): 124.
Chapter 28 Late Cryogenian (Vendian) glaciogenic deposits in the Marnya Formation, Oselok Group, in the foothills of the East Sayan Range, southwestern Siberian Craton
Geological Society, London, Memoirs (2011) 36 (1): 317.
The history of the Karagas Supergroup evolution in the Biryusa region: synthesis of paleomagnetic and sedimentological data
Russian Geology and Geophysics (2010) 51 (8): 868.
The Late Riphean–Paleozoic history of the Uda–Vitim island arc system in the Transbaikalian sector of the Paleoasian ocean
Russian Geology and Geophysics (2010) 51 (5): 461.
Phanerozoic hot spot traces and paleogeographic reconstructions of the Siberian continent based on interaction with the African large low shear velocity province
Earth-Science Reviews (2010) 102 (1-2): 29.
The geodynamic evolution of the folded framing and the western margin of the Siberian craton in the Neoproterozoic: geological, structural, sedimentological, geochronological, and paleomagnetic data
Russian Geology and Geophysics (2009) 50 (4): 380.
Paleomagnetism of granites from the Angara-Kan basement inlier, Siberian craton
Russian Geology and Geophysics (2009) 50 (1): 57.
Neoproterozoic rift and within-plate magmatism in the Yenisei Ridge: implications for the breakup of Rodinia
Russian Geology and Geophysics (2008) 49 (7): 503.
Close Modal

or Create an Account

Close Modal
Close Modal