I. A. Veklich scite author profile

Комплексными исследованиями (эхолотирование, сейсмопрофилирование, магнитометрия) в 42 рейсе НИС «Академик Борис Петров» (2017 г.) была исследована подводная гора в основании западного склона древнего северного сегмента Восточно-Индийского хребта в районе 0.5° с.ш. В результате выполненных исследований выявлены особенности морфологии, разломной тектоники и глубинного строения этой вулканической постройки. Восточно-Индийский хребет образован магматизмом плюма Кергелен на 50° ю.ш. в зоне гигантского меридионального разлома. Исследованная подводная гора образовалась намного севернее в результате двухэтапного магматизма в поперечном разломе ЮЗ-СВ простирания, что определило ее линейную форму. Сначала на первом этапе (68.5 млн лет назад) на 42° ю.ш. образовалась ее основная западная часть, а позже (50 млн лет назад) на 28° ю.ш.-восточная. Интервал времени между формированием основного массива Восточно-Индийского хребта и этапами последующего магматизма, образовавшего западную и восточную вершины горы, составляет около 9.5 и 28 млн лет соответственно.

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Peculiarities of the Tectonomagmatic Processes in the Interaction Area between the Icelandic Plume and the Bight Transform Fault (North Atlantic)

Сколотнев

Peyve

Sanfilippo

et al. 2022

Dokl. Earth Sc.

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New Insights into the Seamount Structure of the Northern Part of the Ninetyeast Ridge (Indian Ocean) through the Integrated Analysis of Geophysical Data

Yutsis

Левченко

Ivanenko

et al. 2023

JMSE

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The linear Ninetyeast Ridge (NER) is the longest oceanic intraplate volcanic edifice and main feature in the Eastern Indian Ocean. Many seamounts are located on the ridge, whose origin and age remain unclear due to the lack of samples of the bedrock of which they are composed. Carbonate sedimentary caps on these seamounts prevent their direct geological sampling by dredging, therefore indirect geophysical methods are an alternative. Such integrated geophysical studies (the main methods are multibeam bathymetry and magnetic surveys) were carried out in cruise #42 of the R/V Akademik Boris Petrov in 2017 on a large seamount at the base of the NER’s western slope near 0.5° S. The collected data also includes seismic reflection data that reveal morphology, fault tectonics, depth structure, and an assumed origin of this volcanic feature. The Ninetyeast Ridge was formed by the Kerguelen plume magmatism at 50° S in the giant N-S fault. The seamount studied in cruise #42 of the R/V Akademik Boris Petrov was formed mainly to the north as a result of two-stage magmatism in a transverse strike-slip fault. The first stage (47 Ma) formed the main western part of the seamount at 20° S. The second stage (23 Ma) formed its eastern part at 8° S. The time intervals between the formation of the main massif of the Ninetyeast Ridge and the stages of subsequent magmatism that formed the western and eastern parts of the seamount are approximately 31 and 55 Ma, respectively.

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Geophysical Researches of the Kerchen-Taman Black Sea Shelf for Engineering Construction

Ivanenko

Brusilovsky

Khortov

et al. 2020

JOR

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The article presents the results of detailed geological and geophysical engineering work on the Kerch-Taman shelf. These works were carried out in order to identify potentially hazardous for engineering construction areas (for example, fault zones, local gas accumulations, etc.). The paper discusses methods for the selection of such sites, based on the analysis and joint interpretation of seismic materials and materials of marine magnetic surveys. A high degree of spatial coincidence of the areas identified by these independent methods was noted, which significantly increases the degree of reliability of their allocation. A number of geological section elements unfavorable for engineering construction have been detected and identified. The analysis of residual magnetic anomalies and their confinement to areas of discontinuous disturbances is considered in detail.

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ANOMALOUS MAGNETIC FIELD ∆Ta IN THE EQUATORIAL INDIAN OCEAN (SURVEY AT POLYGONS)

Veklich¹,

Ivanenko²,

Левченко³

2020

BKRAESC. Earth Sciences

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В 42 рейсе НИС «Академик Борис Петров» (2017 г.) после длительного перерыва Институтом океанологии им. П.П. Ширшова РАН возобновлены натурные геофизические исследования в Индийском океане. Наряду с батиметрической и сейсмоакустической съемками в рейсе отснято более 10 000 км профилей модульной гидромагнитной съемки. Основные работы выполнены в экваториальной восточной части Индийского океана -северном сегменте Восточно-Индийского хребта и зоне внутриплитных деформаций в Центральной котловине. Разработаны специальные алгоритмы для интерпретации магнитных аномалий в низких широтах. На полигонах выделен ряд локальных интенсивных магнитных аномалий, для которых подобраны эквивалентные модели источников, характеризующие связанные с ними геологические объекты. Оценки палеоширот для ряда объектов в северной части Восточно-Индийского хребта указывают на возможное развитие здесь наложенных вулкано-магматических процессов, не связанных напрямую с магматизмом горячей точки Кергелен. Для зоны внутриплитных деформаций установлено, что магнитоактивный слой продолжается намного глубже пределов стандартной модели магнитоактивного слоя океанической литосферы, а исследованные источники, вероятно, связаны с застывшими магматическими камерами, сформированными на флангах спредингового хребта.

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Accretion of the Oceanic Crust in the Mid-Atlantic Ridge (48°–51.5° N) during “Dry” Spreading

et al. 2022

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Geological-Geophysical Investigations in the North Atlantic during Cruise 53 of the R/V Akademik Sergey Vavilov

et al. 2022

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I. A. Veklich

Geological and Geophysical Studies of the Charlie Gibbs Fracture Zone (North Atlantic)

Complex Investigation of the Seamount at the Bottom of the Northern Part of the Ninety East Ridge

Peculiarities of the Tectonomagmatic Processes in the Interaction Area between the Icelandic Plume and the Bight Transform Fault (North Atlantic)

New Insights into the Seamount Structure of the Northern Part of the Ninetyeast Ridge (Indian Ocean) through the Integrated Analysis of Geophysical Data

Geophysical Researches of the Kerchen-Taman Black Sea Shelf for Engineering Construction

ANOMALOUS MAGNETIC FIELD ∆Ta IN THE EQUATORIAL INDIAN OCEAN (SURVEY AT POLYGONS)

Accretion of the Oceanic Crust in the Mid-Atlantic Ridge (48°–51.5° N) during “Dry” Spreading

Geological-Geophysical Investigations in the North Atlantic during Cruise 53 of the R/V Akademik Sergey Vavilov

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