Internal structure and kinematics of the Zvenyhorod-Brats’k fault zone of the Ukrainian shield according to geophysical data

IF 0.6 Q4 GEOCHEMISTRY & GEOPHYSICS
S. Mychak, M. Bakarzhieva, M. Orlyuk, A. Marchenko, S. Kurylo
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Abstract

Complex geomagnetic and tectonophysical studies were performed in order to characterize in detail the heterogeneity of the Earth’s crust of the Zvenyhorod-Bratskfault zone and to clarify its internal structure and kinematics. Based on the results of magnetometric studies, maps of the different wavelength components of magnetic anomalies were obtained, the sources of which are associated with different layers of the crust; the magnetization of the upper, middle and lower parts of the crust was estimated; 2D and 3D magnetic models of individual structures and areas were developed; geological and tectonic interpretations were performed. The Zvenyhorod-Bratskfault zone is clearly manifested in the regional component of the geomagnetic field, separating its maxima and minima zones, and is also reflected by linear anomalies and bands of the short-wavelength component of the upper part of the crustal section. At the same time, it separates areas of the Earth’s crust with fundamentally different types of sources and their magnetization values: in the west, linear sources of the upper and middle crust of the GSZ are characterized by significant magnetization (up to 3—6 A/m) in contrast to the oval-shaped sources of the Ingul block with magnetization up to 1 A/m m. Tectonophysical measurements of structural and textural elements of rocks were carried out at four sites along the rivers Velyka Vys’, Kilten’, Suhyi Tashlyk and Mertvovid. Processing and interpretation of field measurements of structural textural elements of rocks were done by the structural-paragenetic method of tectonophysics for III-IV depth levels using the Stereonet program. It was established that the Zvenyhorod-Bratskfault zone was formed ≤2.45 billion years ago and consists of rectilinear shear zones related to different stages of fault formation. However, the main factor in the formation of the fault zone is the Pervomaisk stage, during which the L-shears with a strike azimuth of 345° and R-shears with a strike azimuth of 357° were formed. The presence of Archean phases of shear in it can testify to the earlier formation of the Zvenyhorod-Bratskfault zone relative to the Pervomaysk one. The Proterozoic cycle of activation (~2.1—1.70 billion years ago) contributed to the formation of deposits and ore manifestations of minerals within the Zvenyhorod-Bratskfaults zone.
基于地球物理资料的乌克兰地盾Zvenyhorod-Brats 'k断裂带内部结构和运动学
为了详细描述zvenyhorod - bratsk断裂带地壳的非均质性,并阐明其内部结构和运动学,进行了复杂的地磁和构造物理研究。根据磁强学研究结果,得到了磁异常的不同波长分量图,其来源与地壳的不同层位有关;估算了地壳上、中、下三部分的磁化强度;建立了单个结构和区域的二维和三维磁模型;进行了地质和构造解释。zvenyhorod - bratsk断裂带在地磁场的区域分量中清晰地表现出来,分隔了其最大和最小带,并在地壳上部剖面短波长分量的线性异常和波段中得到反映。与此同时,它将地壳中具有根本不同类型的震源和磁化值的区域分开:在西部,GSZ上地壳和中地壳的线状震源磁化强度高达3-6 A/m,而ingel地块的椭圆形震源磁化强度高达1 A/m。在沿Velyka Vys '、Kilten '、Suhyi Tashlyk和Mertvovid河的4个地点进行了岩石结构和结构元素的构造物理测量。利用Stereonet程序,采用构造物理学构造共生方法,对III-IV级深度的岩石构造结构元素实测数据进行处理和解释。确定zvenyhorod - bratsk断裂带形成于≤24.5亿年以前,由与不同断层形成阶段相关的直线剪切带组成。而断裂带形成的主要因素是Pervomaisk阶段,该阶段形成了走向方位角为345°的l -剪切带和走向方位角为357°的r -剪切带。太古宙剪切期的存在可以证明zvenyhorod - bratsk断裂带的形成要早于Pervomaysk断裂带。元古代的活化旋回(~ 21 ~ 17亿年前)对zvenyhorod - bratskk断裂带内矿床的形成和矿物的矿化表现起了重要作用。
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来源期刊
Geofizicheskiy Zhurnal-Geophysical Journal
Geofizicheskiy Zhurnal-Geophysical Journal GEOCHEMISTRY & GEOPHYSICS-
自引率
60.00%
发文量
50
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