根据大地电磁测深,研究了萨拉尔褶皱推覆体(NW CAOB)的深部构造

Pub Date : 2021-03-21 DOI:10.5800/GT-2021-12-1-0517
F. Zhimulev, E. Pospeeva, I. Novikov, V. Potapov
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引用次数: 1

摘要

萨莱尔褶皱推覆地体(又称萨莱尔造山带)是中亚造山带阿尔泰-萨扬褶皱区的西北部。它由寒武系—早奥陶世火山岩和岛弧沉积矿床组成。在平面上,Salair是由早古生代褶皱基底的露头形成的马蹄形构造,面朝东北凸起。其内部是由上泥盆统—下石炭统砂岩和粉砂岩组成的赫梅廖夫盆地。Salair的早古生代火山岩和沉积物被逆冲到库兹涅茨克盆地的泥盆系-二叠系沉积物上。在新构造阶段被重新激活的古生代逆冲在现代地形中被视为构造台阶。我们对Salair深层结构的研究是基于两个大地电磁测深剖面的数据。这些175公里和125公里长的剖面穿过Salair构造的走向和库兹涅茨克盆地的西部。剖面1探测到8-15 km深度的亚水平区电导率增加(100-500欧姆·m)。在剖面1的东部,该带平缓地向上延伸,朝向与库兹涅茨克盆地沉积物相对应的浅层导电带。在中段0 ~ 6 km深度处检测到两个高阻体(1000 ~ 7000 ω·m)。它们被一条与金特里普逆冲构造相对应的亚垂直导电带隔开。主要特征为亚水平位置和地壳电导率异常的扁平形式。在剖面2的中心部分,从地表到深度约20 km,整个剖面深度范围内存在一个高阻块体(15万ω·m以上)。在剖面2的东部,一个电导率增加的浅层带对应于库兹涅茨克盆地的沉积物。在Salair地壳中发现的传导能力增强的亚水平地壳中层是典型的陆内造山带。电导率异常的分布模式证实了Salair逆冲进入库兹涅茨克盆地。赫梅廖夫盆地北部具有高电阻率的特征,这与盆地北部丰富的晚二叠世覆盖花岗岩块体有关。位于Khmelev盆地东北部的Kinterep逆冲构造在深部地电性地壳构造中表现为导电带,可视为该断裂活动的证据。
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Deep structure of the Salair fold-nappe terrane (NW CAOB) according to magnetotelluric sounding
The Salair fold-nappe terrane (a.k.a. Salair orogen, Salair) is the northwestern part of the Altai-Sayan folded area of the Central Asian Orogenic Belt. It is composed of Cambrian – Early Ordovician volcanic rocks and island-arc sedimentary deposits. In plan, Salair is a horseshoe-shaped structure with the northeast-facing convex side, which is formed by the outcrops of the Early Paleozoic folded basement. Its inner part is the Khmelev basin composed of Upper Devonian – Lower Carboniferous sandstones and siltstones. The Early Paleozoic volcanic rocks and sediments of Salair are overthrusted onto the Devonian-Permian sediments of the Kuznetsk basin. The Paleozoic thrusts, that were reactivated at the neotectonic stage, are observed in the modern relief as tectonic steps. Our study of the Salair deep structure was based on the data from two profiles of magnetotelluric sounding. These 175-km and 125-km long profiles go across the strike of the Salair structure and the western part of the Kuznetsk basin. Profile 1 detects a subhorizontal zone of increased conductivity (100–500 Ohm·m) at the depths of 8–15 km. At the eastern part of Profile 1, this zone gently continues upward, towards a shallow conducting zone that corresponds to the sediments of the Kuznetsk basin. Two high-resistance bodies (1000–7000 Ohm⋅m) are detected at the depths of 0–6 km in the middle of the section. They are separated by a subvertical conducting zone corresponding to the Kinterep thrust. The main features are the subhorizontal positions and the flattened forms of crustal conductivity anomalies. At the central part of Profile 2, there is a high-resistance block (above 150000 Ohm⋅m) over the entire depth range of the section, from the surface to the depths of about 20 km. In the eastern part of Profile 2, a shallow zone of increased conductivity corresponds to the sediments of the Kuznetsk basin. The subhorizontal mid-crust layer of increased conductivity, which is detected in the Salair crust, is typical of intracontinental orogens. The distribution pattern of electrical conductivity anomalies confirms the Salair thrust onto the Kuznetsk basin. The northern part of the Khmelev basin is characterized by high resistivity, which can be explained by abundant covered Late Permian granite massifs in that part of the Khmelev basin. The Kinterep thrust located in the northeastern part of the Khmelev basin is manifested in the deep geoelectric crust structure as a conducting zone, which can be considered as an evidence of the activity of this fault.
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