东欧和西欧平台边界地幔的速度结构

IF 0.6 Q4 GEOCHEMISTRY & GEOPHYSICS
T. Tsvetkova, I. Bugaenko, L. N. Zaets
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引用次数: 2

摘要

本文致力于研究被Teiserre-Tornquist带分隔的地壳中东欧和西欧平台边界地区地幔的速度结构。波兰和乌克兰西部领土下的地幔正在接受调查。该工作使用了地幔的三维P速度模型,该模型使用V.S.Geyko开发的Taylor近似方法构建。该方法的优点独立于初始近似(参考模型)和非线性的最佳近似。在该区域,勘探深度为50°NL以南2500公里和50°NL北部1700公里。对深度达850公里、步长为50公里的地幔三维P速度模型的水平剖面进行了详细分析。分析了零地震速度边界在整个深度上的空间分布变化。该边界将东欧地台的高速上地幔和西欧地台的低速上地幔分隔开。在上地幔过渡带的深处,该边界将东欧平台的低速上地幔和西欧平台的高速上地幔分隔开(在该地圈中,上地幔发生了速度反演)。在纬度剖面中,区分出两个倾斜层。其中一个与DDV下的上地幔有关,并到达喀尔巴阡山下的地幔,在那里它开始坠入上地幔的高速过渡带。第二层与波罗的海联合带西北端下的地幔有关,该联合带延伸到普世德普世单斜下方的地幔,在那里它也坠入上地幔的高速过渡带。在纵向剖面中,倾斜层是不同的,从波罗的海地盾的南斯堪的纳维亚巨型地块下的地幔延伸到波希米亚地块和喀尔巴阡山山脉下的地幔,在那里它们坠入上地幔的高速过渡带。在研究区域,发现了三种超深流体,其特征是介质分层增加(较高和较低速度交替)。第一个包括中欧油气盆地的著名油气田(波莫瑞和普雷苏德单斜构造(波兰))。第二个与北西卡尔巴阡油气盆地(波兰东南部)和喀尔巴阡油气田(乌克兰西部)的油气田有关。波罗的海地幔中提取的超深流体对应于波罗的海的格但斯克湾和加里宁格勒油田(波罗的海东南部)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Speed structure of the mantle of the border of the Eastern European and West European platforms
This work is devoted to studying the velocity structure of the mantle of the border area of the East European and West European platforms in the crust separated by the Teiserre-Tornquist zone. The mantle under the territory of Poland and Western Ukraine is being investigated. The work uses a three-dimensional P-velocity model of the mantle, constructed using the Taylor approximation method developed by V. S. Geyko. The method’s advantages are independent of the initial approximation (reference model) and the best approximation of nonlinearity. In this area, the exploration depth is 2500 km south of 50 °NL and 1700 km north of 50 °NL. A detailed analysis of horizontal sections of a 3D P-velocity model of the mantle up to a depth of 850 km with a step of 50 km has been carried out. The change in the spatial distribution of the zero seismic velocity boundary is analyzed throughout the depths. This boundary separates the high-velocity upper mantle of the East European Platform and the low-velocity upper mantle of the West European Platform. At the depths of the transition zone of the upper mantle, this boundary separates the low-velocity upper mantle of the East European platform and the high-velocity upper mantle of the West European platform (in this geosphere, a velocity inversion has occurred with respect to the upper mantle). In latitudinal sections, two inclined layers are distinguished. One of them is associated with the upper mantle under the DDV and reaches the mantle under the Carpathians, where it begins to plunge into the high-velocity transition zone of the upper mantle. The second layer is associated with the mantle under the northwestern end of the Baltic syneclise, which extends to the mantle under the Presudet monocline, where it also plunges into the high-velocity transition zone of the upper mantle. In longitudinal sections, inclined layers are distinguished, extending from the mantle under the South Scandinavian megablock of the Baltic Shield to the mantle under the Bohemian massif and the Carpathians, where they plunge into the high-velocity transition zone of the upper mantle. In the study area, three super-deep fluids were identified, characterized by increased stratification of the medium (alternation of higher and lower velocities). The first includes the well-known oil and gas fields of the Central European oil and gas basin (Pomorie and Presudet monocline (Poland)). The second is associated with oil and gas fields of the North Ciscarpathian oil and gas basin (southeastern Poland) and the Carpathian oil and gas basin (Western Ukraine). The extracted super-deep fluid in the mantle of the Baltic Sea corresponds to both the Gdansk Gulf of the Baltic Sea and the Kaliningrad fields (southeast of the Baltic Sea).
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Geofizicheskiy Zhurnal-Geophysical Journal
Geofizicheskiy Zhurnal-Geophysical Journal GEOCHEMISTRY & GEOPHYSICS-
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