Results of comprehensive studies of the underground hydrosphere within the western shoulder of the Baikal rift (as exemplified by the Bayandai - Krestovsky Cape site)

Семинский, Константин Жанович; Тугарина, М. А.

doi:10.5800/gt-2011-2-2-0037

Cited by 4 publications

(7 citation statements)

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“…4, a, b). Because most of the weaker seismic events happen in fractured space between the Earth's crust blocks, this is an area of tectonic stress unloading (Seminsky and Tugarina, 2011), and migration chains mark the process of sequential relaxation in the direction of deformation front propagation.…”

Section: Discussionmentioning

confidence: 99%

Methodical approach to isolation of seismic activity migration episodes of the northeastern Baikal rift system (Russia)

Novopashina

Лухнева

2020

Episodes

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The orientation of deformation process development during rifting controls the strike of the regional active faults, which determine the epicentral field structure features in the northeast part of the Baikal rift system (BRS), characterized by current high seismic activity. Rose charts were plotted for the number of faults of each strike range. For zones of epicenter concentrations, the polygons of seismic data projection were determined in accordance with the general strike of most of the active faults and their average length. Taking into account the anisotropy of the fracture network, the spatiotemporal analysis of the earthquake epicentral field was carried out using GIS technology. The seismic activity migration episodes as a result of crustal deformation are inherent to a non-stationary seismic process for the investigated area. Migrations, characterized by constant rate, are recurred in places of intense lithosphere fracturing and change the direction in potential M ≥5 earthquake and swarms occurrence sites. Ordered sequences of energy clusters most likely propagate at a depth of the fluid-saturated layer beneath the thickened granite batholith where the heat accumulated warms up the fluid and apparently reduces the viscosity of seismoactive layer. The existence of thickened plastic lithospheric layer and viscosity reduction of brittle crustal layer are conditions probably conducive to migration of seismic activity.

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Section: Discussionmentioning

confidence: 99%

Methodical approach to isolation of seismic activity migration episodes of the northeastern Baikal rift system (Russia)

Novopashina

Лухнева

2020

Episodes

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“…В позднем неоплей стоцене такая ситуация была характерна для террито рии Приольхонья, принадлежащего к западному уча стку исследований, где сравнительно недавно были обнаружены гейзериты [Sklyarova et al, 2004]. Резуль таты опробования подземных вод в нескольких десят ках точек, которые располагались в непосредственной близости от изученного профиля [Seminsky, Tugarina, 2011], дополненные материалами Государственной гидрогеологической съемки (мб 1:200000), позволили подтвердить упомянутые выше выводы предшествен ников, а также установить, что определяющую роль в гидрогеологии региона играет тектонический фактор. В качестве отчетливого гидрогеологического рубежа 1го порядка выступает западная граница Байкальско го рифта, которая отделяет слабоминерализованные и пресные воды платформенного блока от ультрапре сных и пресных вод горной области.…”

Section: сегмент шертой -крестовскийunclassified

“…Гидрогеологические особенности межблоковых зон определяются особенностями рельефа, вещественным составом, а также проницаемостью их субстрата, кото рая прямо связана с состоянием разрывных сетей в верхней части земной коры. Исследования, представ ленные в данной статье и более подробно -в нашей предыдущей публикации [Seminsky, Tugarina, 2011], позволили отразить роль перечисленных факторов в формировании свойств подземных вод изучаемого ре гиона в виде обобщающей модели (рис. 18).…”

Section: иерархия межблоковыхunclassified

“…Отличия в размерах межблоковых зон, установленные по распространению аномальных значений перечисленных параметров, не являются принципиальными. Как следствие, именно эти призна ки фигурировали в концептуальной модели структуры земной коры, представленной в одной из предыдущих публикаций на базе интерпретации геологогеофизи ческих материалов по сегменту Баяндай -Крестовский [Seminsky, Tugarina, 2011]. После анализа полного объема материалов по трансекту эта модель измени лась лишь в деталях (рис.…”

Section: иерархия межблоковыхunclassified

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Interblock zones in the crust of the southern regions of East Siberia: tectonophysical interpretation of geological and geophysical data

Семинский¹,

Kozhevnikov²,

Черемных³

et al. 2013

Geodyn. Tectonophys.

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The zoneblock structure of the lithosphere is represented by a hierarchically organized pattern of stable blocks and mobile zones which border such blocks and contain highly dislocated geological medium (Fig. 1). Today, different specialists adhere to different concepts of blocks and zones, which are two main elements of the lithosphere structure. Differences are most significant in determinations of 'interblock zones' that are named as deformation / destructive / contact / mobile / frac ture zones etc. due to their diversity in different conditions of deformation. One of the most effective approaches to studying the zoneblock structure of the lithosphere is a combination of geological and geophysical studies of interblock zones tectonic features on various scales, which can make it possible to reveal the most common patterns of the interblock zones, general regularities of their development and relationships between the interblock zones.The main objectives of our study were (1) to identify the zoneblock structure of the crust in the southern regions of East Siberia from tectonophysical analysis of geological and geophysical surveys conducted on four different scales along the 500 km long ShertoyKrasny Chikoy transect crossing the marginal segment of the Siberian block, the Baikal rift and the Trans baikalian block (Fig. 2); (2) to clarify structural features of the central part of the Baikal rift (representing the tectonic type of interblock extension zone) by applying new research methods, such as radon emanation survey, to the ShertoyKrasny Chi koy transect and using the previously applied methods, such as magnetotelluric sounding, on a smaller scale; and (3) to study manifestation of interblock zones of various ranks in different geological and geophysical fields, to reveal common specific features of their structural patterns for the upper crust, and to establish regularities of hierarchic and spatial relationships be tween the interblock zones.On the global scale, the object of our study at the ShertoyKrasny Chikoy transect was the Baikal interblock zone (Fig. 2, 15, and 16). On the transregional scale, large fault zones were studied (Fig. 6, 11, and 14). On the regional and local scales, the objects of our study were systems of faults and fractures of various ranks which were active at the late Cenozoic stage of tectogenesis (Fig. 4, and 5). The set of geological and geophysical surveys included application of methods for identification of faults and fractures using different criteria, with account of the fact that clusters of such structures are indicative of the interblock zones of the crust. We used structural geological methods for studying faults and fractures, morphostructural analysis (including interpretation of satellite images), selfpotential (SP) and resistivity profiling, magnetotelluric (MT) sounding, radon emanation survey, and hydrogeological studies of water occurrences. The region of Lake Baikal is one of the most studied geodynamically active regions of Russia; therefore, published data f...

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“…В частности, выделение периферий-ных подзон парагенетически связанных трещин существенно расширяет зоны влияния межблоковых границ, что необходимо учитывать при исследовании закономерностей динамики подземных вод. Более того, в тектонически активных регионах, где роль разломных зон в строении верхней коры является определяющей, имеет смысл в качестве структурной основы гидрогеологических карт использовать схемы спецкартирования, наиболее полно отражающие степень нарушенности горных пород [Seminsky, Тugarina, 2011]. Аналогичные построения могут проводиться при оценке распределения почвенных газов, имеющей применение в практике.…”

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Specialized mapping of crustal fault zones. Part 2: Main stages and prospects

Семинский¹

2015

Geodyn. Tectonophys.

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Results of comprehensive studies of the underground hydrosphere within the western shoulder of the Baikal rift (as exemplified by the Bayandai - Krestovsky Cape site)

Cited by 4 publications

References 1 publication

Methodical approach to isolation of seismic activity migration episodes of the northeastern Baikal rift system (Russia)

Methodical approach to isolation of seismic activity migration episodes of the northeastern Baikal rift system (Russia)

Interblock zones in the crust of the southern regions of East Siberia: tectonophysical interpretation of geological and geophysical data

Specialized mapping of crustal fault zones. Part 2: Main stages and prospects

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