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Dive into the research topics where A. K. Rybin is active.

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Featured researches published by A. K. Rybin.


Geotectonics | 2010

Underthrusting of Tarim beneath the Tien Shan and deep structure of their junction zone: Main results of seismic experiment along MANAS Profile Kashgar-Song-Köl

Vladimir I. Makarov; D. V. Alekseev; V. Yu. Batalev; E. A. Bataleva; I. V. Belyaev; V. D. Bragin; N.T. Dergunov; N.N. Efimova; M. G. Leonov; L. M. Munirova; A. D. Pavlenkin; S. Roecker; Yu. V. Roslov; A. K. Rybin; G. G. Shchelochkov

The results of reflection CMP seismic profiling of the Central Tien Shan in the meridional tract 75–76° E from Lake Song-Köl in Kyrgyzstan to the town of Kashgar in China are considered. The seismic section demonstrating complex heterogeneous structure of the Earth’s crust and reflecting its near-horizontal delamination with vertical and inclined zones of compositional and structural differentiation was constructed from processing of initial data of reflection CMP seismic profiling, earthquake converted-wave method (ECWM), and seismic tomography. The most important is the large zone of underthrusting of the Tarim Massif beneath the Tien Shan.


Doklady Earth Sciences | 2016

Nature of electric conductive layers of the upper crust and infrastructure of granites of the Central Tien Shan

A. K. Rybin; M. G. Leonov; E. S. Przhiyalgovskii; V. Yu. Batalev; E. A. Bataleva; V. D. Bragin; Yu. A. Morozov; G. G. Schelochkov

We studied the infrastructure of granite massifs of the Central Tien Shan and its correlation with the electric conductive layer of the upper crust, which made possible to reveal new peculiarities of the structure of the granite layer in the region and to clarify the nature of low resistivity layers.


Geotectonics | 2016

Alpine tectonics of granites in basement of Ysyk-Köl Basin, northern Tien Shan

M. G. Leonov; E. S. Przhiyalgovsky; E. V. Lavrushina; A. V. Poleshchuk; A. K. Rybin

The Ysyk-Köl Basin filled with Lower Jurassic–Quaternary sedimentary rocks is the largest intermontane negative structural unit of the northern Tien Shan. The basement of this basin is composed of Precambrian–Paleozoic rocks, largely of Ordovician and Silurian granitoids exposed in mountain ranges of the basin framework and as separate anticlinal domes situated in areas occupied by the Mesozoic–Cenozoic sedimentary cover. The postmagmatic tectonic internalstructure of the Chonkurchak (Chunkurchak), Kyzyl-Choku, Kyzyl-Bulak, and Prishib massifs emplaced in the basement, as well as their relationships to the sedimentary cover, are described in the paper. The study was carried out using the morphostructural method, detailed geological mapping, structural kinematic analysis, and petrographic examination of rocks. The internalstructure of Paleozoic granites in the basement and indications of their 3D tectonic flow are characterized. It is shown that granites underwent 3D deformation after their emplacement in the consolidated crust, and this process had a substantial influence on tectonic processes at the plate and orogenic stages of regional evolution.


Geotectonics | 2017

Tectonic structure and evolution of the Hissar–Alay Mountain Domain and the Pamirs

M. G. Leonov; A. K. Rybin; V. Yu. Batalev; V. E. Matyukov; G. G. Shchelochkov

The paper presents a comparative description of two large mountain systems in the intracontinental Eurasian Orogen: the Hissar (Gissar)–Alay Mountain Domain (MD) and the Pamirs (or Pamir). It has been established that the Hissar–Alay MD and the Pamirs substantially differ in morphostructure, geometry, tectonic style, the set of kinematic parageneses, sequence of events, and the manifestation of magmatism, metamorphism, and recent orogeny. These regions belong to different segments of the Earth’s crust. In other words, they represent two distinct historical–structural–geological provinces belonging to different mobile belts of Asia: the Hissar–Alay MD is incorporated into the structure of the Central Asian (Ural–Mongolia) Belt in contrast to the Pamirs, which is a constituent of the Alpine–Himalayan Belt. The Hissar (Gissar)–Alay MD and the Pamirs formed independently and did not reveal significant geodynamic interaction.


Doklady Earth Sciences | 2017

New data on the deep structure of the South Kochkor zone of concentrated deformation

E. A. Bataleva; E. S. Przhiyalgovskii; V. Yu. Batalev; E. V. Lavrushina; M. G. Leonov; V. E. Matyukov; A. K. Rybin

Based on a complex study of the upper crust structure in the southern margin of Kochkor basin (Northern Tien Shan), including study of the structure of the Cenozoic sedimentary cover, the deep geoelectrical structure, the structural unconformities, and occurrences of recent deformations in the basement rocks, new geological–geophysical cross sections are constructed. The cross sections show both fault structures that penetrate the cover from the basement and flat interplate detachments with related fold-overthrust structures. The comparison of the cross sections has established the absence of common planes of fault extensions along the entire margin of the hollow, except for the zone where the margin and the hollow adjoin, which can be caused by the zones of dynamic influence of secondary faults, the zones of fracturing, and the zones of cataclasis of blockwise disintegrated granite massifs.


Izvestiya-physics of The Solid Earth | 2013

On the question of the interrelation between variations in crustal electrical conductivity and geodynamical processes

E. A. Bataleva; V. Yu. Batalev; A. K. Rybin

The behavior of the variations in the crustal electrical conductivity in a wide range of periods is studied from the data of magnetotelluric soundings (MTS) during the Kambarata experiment (a strong industrial explosion to construct the blast-fill dam on the Naryn river), as well as at Aksu, a stationary geophysical monitoring point. The concept of the interrelation between the stress-strain state of the medium and the change in the apparent electrical resistivity, which is based on the idea of the redistribution of mineralized solutions between the crack networks, is confirmed experimentally. A procedure of azimuthal monitoring is developed, which allowed us not only to identify the anomalous changes in the module and phase of apparent resistivity but also to establish the directions of their maximum increases and decreases (the axes of compression and tension). For 34 points of deep MTS in the territory of Central Tien Shan, the depth intervals in the upper crust that are most sensitive to the changes in the stress-strain state of the medium are established. The variations in the electrical conductivity are compared with the solar-lunar tidal impacts. It is shown that by analyzing the recorded time series, it is possible to recognize the characteristic signs of the changes in the stress-strain state of the medium that are caused by seismic events.


Geotectonics | 2018

The Hissar–Alay and the Pamirs: Deep-Seated Structure, Geodynamic Model, and Experimental Evidence

M. G. Leonov; A. K. Rybin; V. Yu. Batalev; V. E. Matyukov; G. G. Shchelochkov

The structural and geodynamic features of the Pamirs and the Hissar–Alay have been revealed based on geological and geophysical evidence supplemented by experimental data. It has been shown that both the Pamirs and the Hissar–Alay are geodynamic systems, the formation of which is related to interference of two geodynamic regimes: (i) global orogeny covering extensive territories of Eurasia and determining their similarity and (ii) regional regimes differing for the Pamirs and the Alay, which act independently within Central Asian and Apline–Himalayan mobile belts, respectively. The Pamirs do not act as an indentor during the formation of structure of the Hissar–Alay and areas to the north. It is stated that the Pamir–Alay segment of Asia is a reflection of the geodynamic countermotion setting (3D flow of mountain masses) of several distinct segments of the continental lithosphere, while the Pamirs are an intracontinental subduction domain at the surface, which represents a special tectonic–geodynamic type of structures.


Geotectonics | 2018

Hissar–Alai and the Pamirs: Junction and Position in the System of Mobile Belts of Central Asia

M. G. Leonov; A. K. Rybin; V. Yu. Batalev; V. E. Matyukov; G. G. Shchelochkov

The position of the Pamirs and the Hissar–Alai mountainous system in the structure of Central Asia and features of their junction are considered. It is shown that their outer contours and tectonic infrastructure are significantly distinct in the planar pattern: latitudinally linear and arched for the Hissar–Alai and the Pamirs, respectively. These structures logically match those of the Central Asian and Alpine–Himalayan belts, respectively. The Pamir orogen is a relatively autonomous structural element of the crust, which is located discordantly relative to the country lithospheric blocks. Most of the Pamirs (at least, the Northern and Central) probably form a giant allochthon on the ancient basement of the Tarim and Afghan–Tajik blocks. The junction zone of these two “hard” crustal segments is reflected in the transverse Transpamir threshold, which is expressed in the relief, deep structure, and seismicity. The specific geological structure of the junction zone of the Pamirs and Hissar–Alai (systems of the Tarim, Alai, and Afghan–Tajik troughs) is shown. It suggested that this zone is a damper, which significantly neutralizes the dynamic influence of the Pamir and the southernmost elements of the Pamir–Punjab syntax on Hissar–Alai structures.


Doklady Earth Sciences | 2018

Specific Features in the Deep Structure of the Naryn Basin–Baibichetoo Ridge–Atbashi Basin System: Evidence from the Complex of Geological and Geophysical Data

A. K. Rybin; E. A. Bataleva; Yu. A. Morozov; M. G. Leonov; V. Yu. Batalev; V. E. Matyukov; O. B. Zabinyakova; V. O. Nelin

New magnetotelluric data were obtained for the Karabuk profile crossing the Naryn basin–Baibichetoo Ridge–Atbashi basin geodynamic system (Central Tien-Shan). The complex geological–geophysical cross section along the profile provides a good agreement between the surface tectonic structures and the deep geoelectric model. The electric conductivity anomalies revealed as subvertical conductors striking along the flanks of basins may be explained by the zones of dynamic influence of faults and cataclasis of granite.


Journal of Geophysical Research | 2013

Kinematics of the Pamir and Hindu Kush regions from GPS geodesy

Anatoli Ischuk; Rebecca Bendick; A. K. Rybin; Peter Molnar; Shah Faisal Khan; Sergey I. Kuzikov; Solmaz Mohadjer; Umed Saydullaev; Zhyra Ilyasova; Gennady G. Schelochkov; Alexander V. Zubovich

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V. Yu. Batalev

Russian Academy of Sciences

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E. A. Bataleva

Russian Academy of Sciences

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M. G. Leonov

Russian Academy of Sciences

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V. E. Matyukov

Russian Academy of Sciences

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G. G. Shchelochkov

Russian Academy of Sciences

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E. V. Lavrushina

Russian Academy of Sciences

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V. D. Bragin

Russian Academy of Sciences

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