Findings from Deep Magnetotelluric Studies in the Sloboda Geodynamic Intersection (East European Platform)

IF 0.9 4区地球科学 Q4 GEOSCIENCES, MULTIDISCIPLINARY

Russian Journal of Pacific Geology Pub Date : 2024-08-25 DOI:10.1134/s1819714024700167

V. A. Kulikov, Iv. M. Varentsov, P. V. Ivanov, A. P. Ionicheva, S. Yu. Kolodyazhnyi, A. V. Korolkova, I. N. Lozovsky, T. A. Rodina, A. G. Yakovlev

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Abstract

The Sloboda Geodynamic Intersection is considered an convergence zone for major segments, aulacogens, faults, and suture zones of the East European Platform. Between 2020 and 2022, researchers of the Geological Faculty of Moscow State University and the Geoelectromagnetic Research Center of Branch of the Schmidt Institute of Physics of the Earth, Russian Academy of Sciences (GEMRC IPE RAS) conducted deep magnetotelluric surveys in this region, performed along the Pushkinskiye Gory–Andreapol (PA), Sebezh–Velikiye Luki–Rzhev (SVR), and Ostrov–Ostashkov (OO) profiles. Qualitative analysis of the data made it possible to assess the dimensionality of the studied medium, the total longitudinal conductivity of the sedimentary cover, and the dominant strike of the conductive structures. Quantitative interpretation using 1D, 2D, and 3D inversions resulted in geoelectric models comprising a conductive sedimentary cover and a highly resistive basement. Transcrustal zones of enhanced electrical conductivity interpreted as the southwest extension of the Ilmen–Ladoga anomaly were consistently identified within the depth range of 10–40 km. These conductivity anomalies are attributed to the deep subsidence of heavily tectonized and metamorphosed sedimentary rocks initially saturated with organic and carbonate matter.

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斯洛博达地球动力交汇处（东欧地台）的深层磁能研究结果

摘要斯洛博达地球动力交汇区被认为是东欧地台主要地段、奥拉科根、断层和缝合带的汇聚区。2020 至 2022 年间，莫斯科国立大学地质学院和俄罗斯科学院施密特地球物理研究所地磁研究中心（GEMRC IPE RAS）的研究人员沿普希金基耶-戈里-安德里阿波尔（Pushkinskiye Gory-Andreapol (PA)）、谢贝日-大利基耶-卢基-热夫（Sebezh-Velikiye Luki-Rzhev (SVR)）和奥斯特洛夫-奥斯塔什科夫（Ostrov-Ostashkov (OO)）剖面对该地区进行了深度磁测。通过对数据进行定性分析，可以评估所研究介质的尺寸、沉积覆盖层的总纵向导电率以及导电结构的主要走向。利用一维、二维和三维反演进行定量解释后，得出了由导电沉积覆盖层和高电阻基底组成的地质电学模型。在 10-40 千米的深度范围内持续发现了被解释为伊尔门-拉多加异常的西南延伸的跨地壳导电性增强区。这些电导率异常现象是由于严重构造化和变质沉积岩的深度下沉造成的，这些沉积岩最初饱含有机物和碳酸盐物质。

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来源期刊

Russian Journal of Pacific Geology 地学-地球科学综合

CiteScore

1.30

自引率

37.50%

发文量

审稿时长

>12 weeks

期刊介绍： Russian Journal of Pacific Geology publishes the results of research on the Earth crust and mantle composition and provides articles on the geological structure and patterns of distribution of mineral deposits in the Pacific Ocean, marginal seas and continental margins. It discusses the topics of stratigraphy, sedimentology, magmatic activity, and seismicity. The journal deals with the problems of lithosphere plates tectonics, and offers the results of neotectonic, geomorphological, geodesic, environmental and mining studies in the Pacific region. The journal accepts theoretical, methodical and philosophical articles covering general issues of geology, geophysics, geochemistry, geoecology and mining. The journal also publishes critical notes and comments, and reviews.