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Issyk-kul Fault

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Journal Article

Active Tectonics and Paleoseismicity of the Eastern Issyk-Kul Basin (Kyrgyzstan, Tien Shan)

A.M. Korzhenkov, E.V. Deev, I.V. Turova, S.V. Abdieva, S.S. Ivanov, J. Liu, I.V. Mažeika, E.A. Rogozhin, A.A. Strelnikov, A.B. Fortuna, M.T. Usmanova
Published: 01 March 2021
Russ. Geol. Geophys. (2021) 62 (03): 263–277.
DOI: https://doi.org/10.2113/RGG20194125
...A.M. Korzhenkov; E.V. Deev; I.V. Turova; S.V. Abdieva; S.S. Ivanov; J. Liu; I.V. Mažeika; E.A. Rogozhin; A.A. Strelnikov; A.B. Fortuna; M.T. Usmanova Abstract —The Malyi Orgochor, Orgochor, Birbash, Sukhoi Ridge, Ichketosma, and Tosma uplifts in the eastern Issyk-Kul basin are fault-related...
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Segments of the South <span class="search-highlight">Issyk</span>-<span class="search-highlight">Kul</span> active <span class="search-highlight">fault</span> in the northern slopes of the ...

Segments of the South Issyk-Kul active fault in the northern slopes of the ...

Published: 01 March 2021
Fig. 2. Segments of the South Issyk-Kul active fault in the northern slopes of the Malyi Orgochor and Orgochor uplifts (a). South Issyk-Kul fault delineating the northern slope of the Malyi Orgochor uplift ( b , c ). Based on QuickBird image ( http://earth.google.com ). Here and below
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Deformation of Neogene-Quaternary sediments in the western flank of the Org...

Deformation of Neogene-Quaternary sediments in the western flank of the Org...

Published: 01 March 2021
Fig. 3. Deformation of Neogene-Quaternary sediments in the western flank of the Orgochor anticline, zone of South Issyk-Kul fault. a , Monoclinal Neogene sediments of Issyk-Kul Formation. on the steep northern slope of the Orgochor uplift in a natural outcrop east of the Orgochor–Bozbeshik motor
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Geological-geophysical and geoelectrical cross sections of crust and upper ...

Geological-geophysical and geoelectrical cross sections of crust and upper ...

Published: 01 October 2001
discontinuity, M is Moho discontinuity, T °C is distribution of temperatures (after Shvartsman). Abbreviations stand for fault names: AA – Alma-Ata fault, CK – Chelik-Kemin fault, NI – North Issyk-Kulfault, CT – Central Terskey fault, NL – Nikolaev fault line, AI – At-Bashi-Inyl’chek fault
Book Chapter

Recent strike-slip deformation of the northern Tien Shan

Author(s)
M. M. Buslov, J. Klerkx, K. Abdrakhmatov, D. Delvaux, V. Yu. Batalev, O. A. Kuchai, B. Dehandschutter, A. Muraliev
Book: Intraplate Strike-Slip Deformation Belts
Series: Geological Society, London, Special Publications
Publisher: Geological Society of London
Published: 01 January 2003
DOI: 10.1144/GSL.SP.2003.210.01.04
EISBN: 9781862394582
...; the lower crust waveguide abruptly rises to 15–20 km beneath the Talas-Fergana fault and is as deep as 20–40 km northeast of it and near the Tarim plate (profiles I-I and II-II). Near the southern margin of the Issyk-Kul microcontinent, the northern end of the waveguide is 15 km deeper than the southern one...
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Abstract The paper presents a geodynamic interpretation of the deep structure and active tectonics of the northern Tien Shan, with particular emphasis on strike-slip motions, which produced a pull-apart in the centre of the Issyk-Kul basin. The study is based on a detailed interpretation of satellite imagery, fault plane solutions of earthquakes, seismic, and geodetic data. Seismic and magnetotelluric studies show tectonic layering of the Tien Shan lithosphere, with several nearly horizontal viscoelastic layers and the lower layer underthrust northward in the northern Tien Shan. This active process may be responsible for the intricate present-day tectonic framework of the northern Tien Shan. The recent tectonics of the northern Tien Shan inherits the earlier structure: The lens-shaped Issyk-Kul microcontinent comprising Precambrian-Palaeozoic metamorphic and magmatic rocks is surrounded by thick shear zones which have been involved in the activity over most of the Cenozoic. In the Quaternary the strain propagated as far as the central part of the Issyk-Kul basin.

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South <span class="search-highlight">Issyk</span>-<span class="search-highlight">Kul</span> active <span class="search-highlight">fault</span> segments within the Birbash uplift. Based on ...

South Issyk-Kul active fault segments within the Birbash uplift. Based on ...

Published: 01 March 2021
Fig. 4. South Issyk-Kul active fault segments within the Birbash uplift. Based on QuickBird image ( http://earth.google.com ). 1 , South Issyk-Kul reverse fault; 2 , sections with seismites ( Bowman et al., 2004b ).
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Neotectonic structure of the <span class="search-highlight">Issyk</span>-<span class="search-highlight">Kul</span>’ depression and Chon-Kemin <span class="search-highlight">fault</span> zon...

Neotectonic structure of the Issyk-Kul’ depression and Chon-Kemin fault zon...

Published: 01 October 2001
Fig. 2. Neotectonic structure of the Issyk-Kul’ depression and Chon-Kemin fault zone in the Kyungei- and Trans-Ili-Alatau Ranges [ 25 ]. 1 – Cenozoic depressions; 2 – anticlines within depressions; 3 – upthrusts and thrusts; 4 – shifts; 5 – faults.
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Structural position of Lake <span class="search-highlight">Issyk</span> <span class="search-highlight">Kul</span>’ and its basin, along with the known ...

Structural position of Lake Issyk Kul’ and its basin, along with the known ...

Published: 01 September 2011
Fig. 1. Structural position of Lake Issyk Kul’ and its basin, along with the known strong ( M > 6) earthquakes of the Issyk Kul’ region, according to the Institute of Seismology, National Academy of Sciences of the Kyrgyz Republic. Mainly Precambrian and Paleozoic rocks ( 1 ), Mesozoic
Journal Article

TRANSREGIONAL DEEP FAULTS IN THE TIEN SHAN AS A STRUCTURAL CONTROL OF LARGE MINERAL DEPOSITS

R. D. Dzhenchuraeva
Published: 01 October 2001
Russ. Geol. Geophys. (2001) 42 (10): 1398–1404.
... active seismic zone. Earthquakes cluster most densely in the central fault segment, at the junction with the Nikolaev fault line. The seismoactive layer is at depths between 5 and 15 km. The Zhalair-Naiman rift and the Barskoon (or Trans-Issyk-Kul’) fault continuing it in the southwest are well...
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Journal Article

Compositional, structural, and geodynamic controls of the evolution of inter- and intramontane basins of the Tien Shan

V.I. Makarov
Published: 01 April 2012
Russ. Geol. Geophys. (2012) 53 (4): 367–375.
DOI: https://doi.org/10.1016/j.rgg.2012.03.001
... Kol–North Aksay; 50, South Aksay; 51, Toyen–Balyktyjon; 52, Uzenge–Bozdjalpak. Systems of foreland and intermontane basins : A, Chu–Ili (North Tien Shan); C, Issyk-Kul; E, Naryn–At Bashi. Systems of uplifts : B, Talas–Kungo; D, Moldo Too–Terskey; F, Kakshaal. Transorogenic fault zones: I, Aksu–Ili...
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Journal Article

LAKE ISSYK KUL’ (TIEN SHAN): UNUSUALLY LOW HEAT FLOW IN AN ACTIVE INTERMONTANE BASIN

P. Vermeesch, J. Poort, A.D. Duchkov, J. Klerkx, M. De Batist
Published: 01 May 2004
Russ. Geol. Geophys. (2004) 45 (5): 616–625.
... by (transpressional) reverse faults, which have been involved in recent activity and historical earthquakes [ 9 ]. Other examples of ramp basins can be found in the Andes [ 27 , 28 ]. Issyk Kul’ is a typical ramp basin, too, bounded both in the north and the south by thrust zones with basinward vergence [ 9 ]. Basic...
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Journal Article

CENOZOIC TECTONICS AND SEISMICITY OF THE NORTHWESTERN ISSYK-KUL’ BASIN ( Tien Shan )

A. M. Korzhenkov
Published: 01 July 2000
Russ. Geol. Geophys. (2000) 41 (7): 940–950.
... on the fold hinge ( Figs. 3 – 5 ) and dips at 10–20° on its walls. The southern wall of the fold is truncated by the South Kyzyl-Kultor reverse fault. The fault plane dips northward at 70–80°; the amount of displacement along this plane is up to 300 m. Geomorphic structures in the western Issyk-Kul...
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Journal Article

Strong historical earthquakes in the northwestern Issyk Kul’ basin ( northern Tien Shan )

A.M. Korjenkov, S.V. Abdieva, A.B. Dzhumabaeva, A.B. Fortuna, E. Mamyrov, E.A. Morozova, L.A. Orlova, P.S. Vakhrameeva
Published: 01 September 2011
Russ. Geol. Geophys. (2011) 52 (9): 1007–1015.
DOI: https://doi.org/10.1016/j.rgg.2011.08.006
...Fig. 1. Structural position of Lake Issyk Kul’ and its basin, along with the known strong ( M > 6) earthquakes of the Issyk Kul’ region, according to the Institute of Seismology, National Academy of Sciences of the Kyrgyz Republic. Mainly Precambrian and Paleozoic rocks ( 1 ), Mesozoic...
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Journal Article

Paleoseismological and archaeoseismological data from the western Alabash–Konurolen intramontane basin ( southern Lake Issyk Kul area , Kyrgyzstan )

E.V. Deev, I.V. Turova, A.M. Korzhenkov, D.V. Luzhansky, A.S. Gladkov, M.V. Rodkin, S.V. Abdieva, J.V. Mažeika, E.A. Rogozhin, A.B. Fortuna, A.M. Muraliev, T.A. Charimov, A.S. Yudakhin
Published: 01 July 2016
Russ. Geol. Geophys. (2016) 57 (7): 1090–1098.
DOI: https://doi.org/10.1016/j.rgg.2016.06.008
...) and eastern (Konur-Olen) subbasins. Fig. 2. Neotectonic structure of Southern Issyk Kul area, modified after Burgette (2008) . Fig. 9. Eastern wall bending near fault scarp. Fig. 10. Stones fallen out of walls to the south from the southern wall of the rectangular fence...
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Active <span class="search-highlight">faults</span> of northern Tien Shan. Numerals in circles stand for names of...

Active faults of northern Tien Shan. Numerals in circles stand for names of...

Published: 01 June 2016
Fig. 2. Active faults of northern Tien Shan. Numerals in circles stand for names of faults: Aksu (1), Chonkurchak (2), Baitik (3), Alamedin (4), Issyk-Ata (5), Shamsi (6), Karakunuz (7), Zaili (8), North Kemin (9), South Kemin (10), Toguz-Bulak (North Issyk Kul) (11), Aramin (12), Kyzyloi (13
Journal Article

SIGNATURE OF LARGE EARTHQUAKES IN LACUSTRINE DEPOSITS OF THE KOK-MOINOK BASIN ( northern Tien Shan )

I.E. Povolotskaya, A.M. Korzhenkov, E.M. Mamyrov
Published: 01 September 2006
Russ. Geol. Geophys. (2006) 47 (9): 1024–1035.
... — lake surface; 4 — main faults; 5 — national frontiers. A lake in the Issyk-Kul’ intermontane basin formed in the early Neogene, and Lake Issyk-Kul’ has existed in its present form since the earliest Quaternary, for about 700 kyr. Its highest stand reached 1675–1680 m asl. At present...
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Journal Article

Seismically mobilized moraines in the Tien Shan

A.M. Korzhenkov, S.V. Abdieva, A.B. Fortuna, T.A. Charimov, A.S. Yudakhin
Published: 01 October 2015
Russ. Geol. Geophys. (2015) 56 (10): 1475–1483.
DOI: https://doi.org/10.1016/j.rgg.2015.09.009
...). * Corresponding author. E-mail address : [email protected] (A.M. Korzhenkov) 30 4 2014 4 3 2015 © 2015, IGM, Siberian Branch of the RAS 2015 IGM, Siberian Branch of the RAS The neotectonic framework of the southeastern Issyk-Kul area ( Fig. 3 ) includes the Terskey fault (called also...
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Topography and major <span class="search-highlight">faults</span> (after Kuzikov and Mukhamediev (2010) ) of the...

Topography and major faults (after Kuzikov and Mukhamediev (2010) ) of the...

Published: 01 March 2016
Kemin; 11, Toguz–Bulak (North Issyk-Kul); 12, Arami; 13, Kyzyl-Oy; 14, Karakul; 15, Ulun-Bulak (Uzun-Bulak-Oikain zone); 16, Kara-Kol; 17, Ortok; 18, Akchop; 19, South Kochkor; 20, Kara-Kurdzhur. A, Verkhovoy fault inferred based on the tectonophysical reconstruction of stresses.
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Structural position of Lake <span class="search-highlight">Issyk</span>-<span class="search-highlight">Kul</span>’ and its basin. Square box shows stud...

Structural position of Lake Issyk-Kul’ and its basin. Square box shows stud...

Published: 01 September 2006
Fig. 1. Structural position of Lake Issyk-Kul’ and its basin. Square box shows study area. 1 — Precambrian and Paleozoic rocks, 2 — Cenozoic, including Neogene rocks; 3 — lake surface; 4 — main faults; 5 — national frontiers.
Journal Article

LANDSLIDES AND SURFACE BREAKS OF THE 1911 M s 8.2 KEMIN EARTHQUAKE ( Kyrgyzstan )

D. Delvaux, K. E. Abdrakhmatov, I. N. Lemzin, A. L. Strom
Published: 01 October 2001
Russ. Geol. Geophys. (2001) 42 (10): 1583–1592.
...Fig. 2. Neotectonic structure of the Issyk-Kul’ depression and Chon-Kemin fault zone in the Kyungei- and Trans-Ili-Alatau Ranges [ 25 ]. 1 – Cenozoic depressions; 2 – anticlines within depressions; 3 – upthrusts and thrusts; 4 – shifts; 5 – faults. ...
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