Early Paleozoic mafic magmatic events on the eastern margin of the Siberian Craton

Lithos ◽  
2013 ◽  
Vol 174 ◽  
pp. 44-56 ◽  
Author(s):  
Andrei K. Khudoley ◽  
Andrei V. Prokopiev ◽  
Kevin R. Chamberlain ◽  
Richard E. Ernst ◽  
Simon M. Jowitt ◽  
...  
Keyword(s):  
Siberian Craton ◽  
Early Paleozoic ◽  
Eastern Margin

Common Neoproterozoic–Early Paleozoic Evolution of Ore-Bearing Sedimentary Complexes in the Southern Siberian Craton

2019 ◽  
Vol 484 (1) ◽  
pp. 92-96 ◽  
Author(s):  
A. E. Budyak ◽  
S. Yu. Skuzovatov ◽  
Yu. I. Tarasova ◽  
Kuo-Lung Wang ◽  
N. A. Goryachev
Keyword(s):  
Siberian Craton ◽  
Early Paleozoic

Structural relations at the eastern margin of the Shuswap Complex, near Revelstoke, southeastern British Columbia

1968 ◽  
Vol 5 (4) ◽  
pp. 831-849 ◽  
Author(s):  
John V. Ross
Keyword(s):  
British Columbia ◽  
Granite Gneiss ◽  
Early Paleozoic ◽  
Final Phase ◽  
Late Proterozoic ◽  
Eastern Margin ◽  
Deformational History ◽  
Facies Metamorphism ◽  
Absolute Age ◽  
Paleozoic Rocks

Three major phases of folding affected rocks of Late Proterozoic and Early Paleozoic age and members long assigned to the Shuswap Complex of southeastern British Columbia. The main and first phase of folding produced a large recumbent anticline, having a northerly trend, overturned to the east, that contains an exotic wedge of granite-gneiss within its core. This gneiss was mechanically emplaced into the Late Proterozoic and Early Paleozoic sediments, and already had a metamorphic and deformational history prior to its emplacement. Its age is possible Hudsonian equivalent. Metamorphism during this recumbent phase of folding was greenschist facies.Phase 2 folding was accompanied by amphibolite facies metamorphism, and caused refolding of the earlier composite recumbent anticline into open folds along southeasterly axes.A third and final phase of folding, associated with waning metamorphism, gave rise to folds along southeasterly striking axial-planes that dip steeply to the northeast. Thus, phase three folds caused tightening-up of the previously formed folds.The absolute age of these deformations is not yet known, but the Shuswap Complex, at its eastern margin, is shown to include Paleozoic rocks and some older gneisses, possibly of Hudsonian age.

scholarly journals SEISMOGRAVITY STRUCTURE OF THE CRUST OF THE EASTERN MARGIN OF THE SIBERIAN CRATON (3-DV PROFILE)

2021 ◽  
Vol 2 (2) ◽  
pp. 312-318
Author(s):  
Vladimir D. Suvorov ◽  
Evgeny V. Pavlov ◽  
Elena A. Melnik
Keyword(s):  
Russian Federation ◽  
Siberian Craton ◽  
Earth’S Crust ◽  
Eastern Margin ◽  
Fold System ◽  
The Russian Federation ◽  
Earth's Crust

The data are part of a complex of geophysical studies along the 3-DV profile, which is part of the system of regional profiles of the Russian Federation. Seismic and gravity observations characterizing the structure of the Earth’s crust along an about 600-km-long section of the 3-DV profile crossing the eastern margin of the Archean Siberian Craton, which borders the Mesozoic Verkhoyansk-Kolyma fold system, are considered.

scholarly journals THE EARLY PALEOZOIC BASITE MAGMATISM IN THE NORTHEASTERN SIBERIAN CRATON

2016 ◽  
Vol 7 (2) ◽  
pp. 233-250 ◽  
Author(s):  
A. I. Kiselev ◽  
B. B. Kochnev ◽  
V. V. Yarmolyuk ◽  
V. I. Rogov ◽  
K. N. Egorov
Keyword(s):  
Siberian Craton ◽  
Early Paleozoic

Accommodation of the Cenozoic Tunka Rift Valley at the Ordovician Slyudyanka Collision Zone: insight into volcanic sources, deep-seated inclusions, and seismic tomography models

2020 ◽  
Author(s):  
Tatyana Yasnygina ◽  
Sergei Rasskazov ◽  
Youseph Ailow ◽  
Irina Chuvashova ◽  
Elena Saranina ◽  
...  
Keyword(s):  
Seismic Tomography ◽  
Siberian Craton ◽  
Source Region ◽  
Volcanic Rocks ◽  
Early Paleozoic ◽  
Pb Isotope ◽  
Collision Zone ◽  
The One ◽  
Insight Into ◽  
South Baikal

<p>On the one hand, Pb isotope data on 18–13 Myr volcanic rocks from the eastern part of the Tunka Valley yield age estimate of garnet-bearing source region in the viscous mantle of ca. 2.2 Byr that might correspond to the age of the Siberian craton mantle. On the other hand, inclusions from basanites show the pressure range that overlaps the pressure estimates for rocks of the Slyudyanka Ordovician collision zone. The lithospheric material corresponds to the transition from spinel-pyroxene to olivine-plagioclase facies of peridotites in the uppermost part of the mantle and lower-middle crust. V<sub>S</sub>-data show a low-speed zone dipping from the central Tunka valley eastwards under Southern Baikal to a depth of 70 km. This zone ends at the South Baikal – Tunka Valley junction. We suggest that the eastern parts of the Tunka Valley has inherited the Early Paleozoic collision zone between the Hamar-Daban Terrane and Siberian Paleo-Continent and that the lithosphere of the collision zone overlays the viscous mantle related to the Siberian craton.</p><p>This work is supported by the RSF grant 18-77-10027.</p>

Variations in Surface Textures of Quartz Sand using Electron Microscopy

1970 ◽  
Vol 28 ◽  
pp. 494-495
Author(s):  
Eugene J. Amaral
Keyword(s):  
Electron Microscopy ◽  
Glass Industry ◽  
Glass Slide ◽  
Distilled Water ◽  
Early Paleozoic ◽  
Secondary Effects ◽  
Surface Textures ◽  
High Silica ◽  
Sand Deposit ◽  
The U.S

Examination of sand grain surfaces from early Paleozoic sandstones by electron microscopy reveals a variety of secondary effects caused by rock-forming processes after final deposition of the sand. Detailed studies were conducted on both coarse (≥0.71mm) and fine (=0.25mm) fractions of St. Peter Sandstone, a widespread sand deposit underlying much of the U.S. Central Interior and used in the glass industry because of its remarkably high silica purity.The very friable sandstone was disaggregated and sieved to obtain the two size fractions, and then cleaned by boiling in HCl to remove any iron impurities and rinsed in distilled water. The sand grains were then partially embedded by sprinkling them onto a glass slide coated with a thin tacky layer of latex. Direct platinum shadowed carbon replicas were made of the exposed sand grain surfaces, and were separated by dissolution of the silica in HF acid.

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