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Teletsk Graben

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Journal Article
Published: 01 February 2002
Russ. Geol. Geophys. (2002) 43 (2): 100–113.
...) and direction of slip is indicated by separation of Late Riphean greenschists and Middle Devonian granitoids into two blocks. The Holocene stage reactivated the Teletsk-Bashkaus and North Sayan faults under an NS compression and initiated the opening and development of the Lake Teletskoye graben. This stage...
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Journal Article
Published: 01 December 2002
Russ. Geol. Geophys. (2002) 43 (12): 1099–1106.
... kilometers across. Most of normal faults cut the sides of the Teletsk and the adjacent Kamga and Koldor grabens, where the neotectonic vertical offset reaches its maximum of 400–1200 m (against <100–300 m in other grabens). Tectonic control of the surface topography in the region is evident from long V...
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Image
Fragment of digital morphotectonic map of Gorny Altai, after ( Novikov et a...
Published: 01 February 2009
— reverse and thrust faults, 5 — normal faults and graben; 6 — seismic area of 2003 earthquake, enlarged in Fig. 2 ; 7 — model area shown in Fig. 4 . Roman numerals stand for fault names: 1 — Irtysh, 2 — Zaisan, 3 — Kobdo, 4 — Shapshal, 5 — Saigonysh, 6 — Teletsk, 7 — Kurai, 8 — Chulyshman, 9
Image
Fragment of digital morphotectonic map of Gorny Altai.  1–5  — systems of f...
Published: 01 November 2008
— normal faults and graben; 6 — area enlarged in Fig. 3 ; 7 — profile with projections of aftershocks of 2003 Chuya earthquake; 8 — resistivity profile; 9 — MTS stations. Roman numerals stand for fault names: 1 — Irtysh, 2 — Zaisan, 3 — Kobdo, 4 — Shapshal, 5 — Saigonysh, 6 — Teletsk, 7 — Kurai, 8
Journal Article
Published: 01 February 2009
Russ. Geol. Geophys. (2009) 50 (2): 104–114.
... — reverse and thrust faults, 5 — normal faults and graben; 6 — seismic area of 2003 earthquake, enlarged in Fig. 2 ; 7 — model area shown in Fig. 4 . Roman numerals stand for fault names: 1 — Irtysh, 2 — Zaisan, 3 — Kobdo, 4 — Shapshal, 5 — Saigonysh, 6 — Teletsk, 7 — Kurai, 8 — Chulyshman, 9...
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Journal Article
Published: 01 February 2002
Russ. Geol. Geophys. (2002) 43 (2): 114–128.
... graben , Priroda , 2 , 56 – 64 , 1991 . 2. Buslov , M.M. , and M. Sintubin , Structural evolution of the Teletsk zone, Altai-Sayan Folded Area , Geologiya i Geofizika (Russian Geology and Geophysics) , 36 , 10 , 91 – 98 (81-88), 1995 . 3...
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Journal Article
Published: 01 November 2017
Russ. Geol. Geophys. (2017) 58 (11): 1277–1288.
... belts ( Fig. 6 ). Gravity anomalies in the Altai–Mongolia terrane (southern and eastern parts of the map) are mostly of W–E strike, except for NW features near the large Late Paleozoic Kurai, Teletsk, and Shapshal strike-slip zones ( Fig. 6 ). Round and oval-shaped gravity highs (to 240 mGal) coincide...
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Journal Article
Published: 01 November 2004
Russ. Geol. Geophys. (2004) 45 (11): 1303–1312.
.... Dehandschutter , B. , E. Vysotsky , D. Delvaux , J. Klerkx , M.M. Buslov , V.S. Seleznev , and M. De Batist , Structural evolution of the Teletsk graben (Russian Altai) , Tectonophysics , 351 , 1–2 , 139 – 167 , 2002 . 21. Novikov...
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Journal Article
Published: 01 May 2002
Russ. Geol. Geophys. (2002) 43 (5): 434–445.
... Carboniferous sediments occur at base of the basin fill in Western Mongolia [ 16 ] and in few grabens along the Kurai-Teletsk Fault. The thickness and distribution of the deposits suggest a system of Permian intermontane depressions in place of the present Great Lake Depression. In the Triassic, the mountains...
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Journal Article
Published: 01 August 2018
Russ. Geol. Geophys. (2018) 59 (8): 1010–1021.
... of local coeval structures comprising several zones with different patterns of geology, magmatism, and metallogeny. According to the terrane model ( Nokleberg et al., 2004 ), they are the zones of Charysh, Kholzun–Chuya, Talitsa, Anui– Chuya, Biya–Katun’, Uimen–Lebed’, and Teletsk, listed from west to east...
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Journal Article
Journal: Economic Geology
Published: 01 December 2002
Economic Geology (2002) 97 (8): 1855–1861.
...) and the Chuya depression (Siberian Altai): Tectonic implications for central Asia —J.C. Thomas, R. Lanza, A. Kazansky, V. Zykin, N. Semakov, D. Mitrokhin and D. Delvaux 119 Structural evolution of the Teletsk graben (Russian Altai)— B. Dehandschutter, E. Vysotsky, D. Delvaux, J. Klerkx, M. M. Buslov, V.S...
Series: Geological Society, London, Special Publications
Published: 01 January 2009
DOI: 10.1144/SP324.17
EISBN: 9781862395725
..., Teletsk fault; WSF, West Sayan fault. Late Cenozoic formation of the Teletskoye graben: Pliocene–Pleistocene horizontal paleo-stress tensors are shown (after Dehandschutter et al. 2002 ); ‘I’ indicates a first Late Pliocene–Pleistocene phase of formation of the Teletskoye graben (transpressive phase...
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Journal Article
Published: 01 November 2016
Russ. Geol. Geophys. (2016) 57 (11): 1525–1534.
...-scale Late Paleozoic Charysh–Terekta, Kurai, Teletsk–Bashkaus, and Shapshal faults ( Buslov et al., 2003 , 2013 ) and controls the historic seismicity ( Agatova et al., 2014 ; Deev et al., 2015 ; Lunina et al., 2008 ). Fig. 2. Simplified neotectonic map of Gorny Altai. 1 , Cenozoic basins; 2...
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Journal Article
Published: 01 January 2022
Russ. Geol. Geophys. (2022) 63 (1): 1–12.
... . Dehandschutter , B. , Vysotsky , E. , Delvaux , D. , Klerkx , J. , Buslov , M.M. , Seleznev , V.S. , De Batist , M. , 2002 . Structural evolution of the Teletsk graben (Russian Altai) . Tectonophysics 351 ( 1–2 ), 139 – 167 , doi: 10.1016/S0040-1951(02)00129-4...
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Journal Article
Published: 01 November 2008
Russ. Geol. Geophys. (2008) 49 (11): 859–867.
... — normal faults and graben; 6 — area enlarged in Fig. 3 ; 7 — profile with projections of aftershocks of 2003 Chuya earthquake; 8 — resistivity profile; 9 — MTS stations. Roman numerals stand for fault names: 1 — Irtysh, 2 — Zaisan, 3 — Kobdo, 4 — Shapshal, 5 — Saigonysh, 6 — Teletsk, 7 — Kurai, 8...
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Journal Article
Published: 01 January 2017
Bulletin de la Société Géologique de France (2017) 188 (1-2): 1–15.
... the regional-scale Late Palaeozoic Charysh-Terekta, Kurai, Teletsk-Bashkaus, and Shapshal faults [ Buslov et al ., 2003 , 2013 ] and controls the historical seismicity [ Agatova et al. , 2014 ; Deev et al ., 2015 ; Lunina et al ., 2006 ]. The Kurai-Chuya depression developed in the zone of more intense...