COMPARATIVE ANALYSIS OF NEOGEODYNAMICS OF THE BALTIC SYNECLISE AND THE NORTHERN SLOPE OF THE VORONEZH ANTECLISE A

IF 0.8 Q4 GEOCHEMISTRY & GEOPHYSICS

Geodynamics & Tectonophysics Pub Date : 2021-12-14 DOI:10.5800/gt-2021-12-4-0565

A. O. Agibalov, V. Zaitsev, A. Sentsov

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引用次数: 0

Abstract

The paper presents the results of comparative neogeodynamic analysis of the Baltic syneclise and northern Voronezh anteclise based on structural-geomorphological interpretation, digital elevation model (DEM) processing procedure using LESSA program [Zlatopolsky, 2011], seismic analysis, and computer geodynamic modeling. Both regions are seismically active areas of the East European Platform. The automated DEM analysis showed that they are dominated by NW-striking lineaments oriented across the strike of the neoextension axis. Computational neogeodynamic models imply that the areas under consideration develop in shear environment, with the compression axis oriented northwest. Another important result of modeling is numerical correlation between earthquake energy, interpolated over the Baltic syneclise, and the probability of occurrence of ruptures: the Pearson correlation coefficient is 0.58 for the sedimentary cover and 0.42 for the basement. For the northern Voronezh anteclise, a correlation was found between the epicentral density of earthquakes and "Fracture regions" parameter, with reference to which there were distinguished the areas with the probable occurrence of new short-extension ruptures (the Pearson correlation coefficient is 0.41). This parameter is informative for contouring seismically active parts since the areas with probable occurrence of new ruptures, occupying 39 % of the northern Voronezh anteclise, account for 71 % of earthquake epicenters. Structuralgeomorphological interpretation yielded a high degree of correlation between relief and active faults identified as "weak" zones to which the earthquake epicenters are largely confined. Therefore, both regions considered are characterized by high sedimentary-cover seismic activity, develop in shear stress field, with the stress axis oriented northwest, and have similar orientations of linear elements of relief and "weak" zones. The analysis of the earthquake recurrence curves shows considerable differences between seismic regimes of the northern Voronezh anteclise and the Baltic syneclise, and those between the sedimentary-cover and basement seismicity of the latter. These differences may be due the fact that the stressed state of the Voronezh anteclise is affected by active structures of the Urals and Caucasus, and that the upwarping Fennoscandian shield is largely responsible for neodeformations of the Baltic syneclise. Practical significance of the study is concerned with the identification of earthquake source zones.

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波罗的海联合与沃罗涅日前陆北坡新地球动力学对比分析

本文介绍了基于结构地貌解释、使用LESSA程序的数字高程模型(DEM)处理程序[Zlatopolsky, 2011]、地震分析和计算机地球动力学建模的波罗的海综合和北沃罗涅日前陆对比新地球动力学分析的结果。这两个地区都是东欧地台的地震活跃区。自动DEM分析表明，它们以北西走向为主，面向新伸展轴走向。计算新地球动力学模型表明，研究区在剪切环境下发育，压缩轴向西北方向。模拟的另一个重要结果是地震能量与破裂发生概率之间的数值相关性(通过波罗的海协同插值):沉积盖层的Pearson相关系数为0.58，基底的Pearson相关系数为0.42。在Voronezh前陆北部，发现地震的震中密度与“断裂区域”参数之间存在相关性，并以此来区分可能发生新的短延伸破裂的区域(Pearson相关系数为0.41)。该参数对于绘制地震活跃部分的轮廓很有帮助，因为可能发生新破裂的地区占沃罗涅日北部前地壳面积的39%，占地震震中的71%。构造形态解释在地形起伏和活动断层之间产生了高度的相关性，这些活动断层被确定为地震震中主要局限的“弱”带。因此，这两个区域均具有沉积盖层地震活动性强的特征，剪切应力场发育，应力轴向西北，线性地形要素走向相似，“弱”带也相似。地震重现曲线的分析表明，北沃罗涅日前陆和波罗的海合陆的地震状态以及后者的沉积盖层和基底地震活动之间存在较大差异。这些差异可能是由于沃罗涅日板块的受力状态受到乌拉尔和高加索活跃构造的影响，而上升的芬诺斯坎德地盾在很大程度上造成了波罗的海板块的新变形。研究的实际意义在于震源带的识别。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Geodynamics & Tectonophysics GEOCHEMISTRY & GEOPHYSICS-

CiteScore

1.20

自引率

14.30%

发文量

审稿时长

24 weeks

期刊介绍： The purpose of the journal is facilitating awareness of the international scientific community of new data on geodynamics of continental lithosphere in a wide range of geolchronological data, as well as tectonophysics as an integral part of geodynamics, in which physico-mathematical and structural-geological concepts are applied to deal with topical problems of the evolution of structures and processes taking place simultaneously in the lithosphere. Complex geological and geophysical studies of the Earth tectonosphere have been significantly enhanced in the current decade across the world. As a result, a large number of publications are developed based on thorough analyses of paleo- and modern geodynamic processes with reference to results of properly substantiated physical experiments, field data and tectonophysical calculations. Comprehensive research of that type, followed by consolidation and generalization of research results and conclusions, conforms to the start-of-the-art of the Earth’s sciences.