从喀尔巴阡山脉到第聂伯河-顿涅茨盆地的整个乌克兰地盾的地震岩石圈模型及其构造解释

IF 2.7 3区地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS

Tectonophysics Pub Date : 2024-10-24 DOI:10.1016/j.tecto.2024.230540

V. Starostenko , T. Janik , A. Murovskaya , W. Czuba , P. Środa , T. Yegorova , P. Aleksandrowski , O. Verpakhovska , K. Kolomiyets , D. Lysynchuk , T. Amashukeli , T. Burakhovych , D. Wójcik , V. Omelchenko , O. Legostaeva , D. Gryn , S. Chulkov

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引用次数: 0

摘要

西南-东北定向广角反射-折射（WARR）SHIELD'21剖面横跨乌克兰全境。它的目标是东欧克拉通（EEC）西南部，喀尔巴阡山脉和沃罗涅日山丘之间，横跨乌克兰地盾和第聂伯河-顿涅茨盆地的地壳和最上层地幔的结构。该剖面长达 660 公里，是 RomUkrSeis 剖面在罗马尼亚和乌克兰的延伸。SHIELD'21 试验使用 TEXAN 和 DATA-CUBE 短周期地震台，提供了 10 个测点的高质量地震剖面。这就为欧洲经济共同体萨尔马特区段岩石圈上部构建了一个射线追踪 P 波速度模型，并辅以 Vp/Vs 比值，从而对自 Archean 时代以来导致乌克兰地盾及其边缘形成的地球动力过程进行了约束。整个剖面显示缺乏高速的下地壳（Vp > 6.8 km/s），这可能是在幼年大陆地壳早期演化过程中原始岩浆下地壳分层的结果。上地壳的地震边界反映了第聂伯河-顿涅茨河断裂盆地西南侧下方的古新生代延伸剥离系统，该系统始于泥盆纪。在剖面的中西南部，下地壳有一个宽大的圆顶，其速度为 6.5-6.8 公里/秒，这可能是一块巨大的古新生代（？）花岗岩熔岩。在剖面的最西南部，结晶地壳只显示出较低的速度。突出的莫霍面起伏不定，深度在 32 至 50 千米之间。其下是高速岩体（Vp：8.36-8.40 千米/秒），而地幔的背景速度为 8.16-8.25 千米/秒。该速度模型与电位场异常和高电导率区相吻合。

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Seismic lithospheric model across Ukrainian Shield from the Carpathians to the Dnieper-Donets Basin and its tectonic interpretation

The SW-NE directed wide-angle reflection-refraction (WARR) SHIELD’21 profile crosses entire width of Ukraine. It targeted the structure of the crust and uppermost mantle in the southwestern part of the East European Craton (EEC), between Carpathians and Voronezh Massif, across Ukrainian Shield and Dnieper-Donets Basin. The ∼660 km-long profile is an extension of the RomUkrSeis profile in Romania and Ukraine. SHIELD’21 experiment, using TEXAN and DATA-CUBE short-period seismic stations, provided high-quality seismic sections from 10 shot points. This allowed construction of a ray-tracing P-wave velocity model, supplemented by V_p/V_s ratio, for the upper part of the lithosphere in the Sarmatia segment of the EEC and constraining geodynamic processes that led to the formation of the Ukrainian Shield and its margins since Archean times.

The velocity distribution in the crystalline crust indicates a rather uniform structure, with velocity changing from 6.0 km/s near the surface to 6.8 km/s at the Moho. The entire section shows the lack of a high-velocity lower crust (V_p > 6.8 km/s), presumably resulting from delamination of the primitive mafic lower crust during early evolution of a juvenile continental crust. The seismic boundaries in the upper crust reflect a Paleoproterozoic extensional detachment system below the SW flank of Dnieper-Donets rift basin, initiated in the Devonian. At larger depths, a wide dome of the lower crust with velocities of 6.5–6.8 km/s in the SW-central segment of the profile, probably represents an enormous Palaeoproterozoic(?) granitoid batholith. In the southwesternmost part of the profile, the crystalline crust shows exclusively low velocities. The prominent Moho is undulating and varies in depth between 32 and 50 km. It is underlain by high-velocity bodies (V_p: 8.36–8.40 km/s), against the background of 8.16–8.25 km/s in the mantle. The velocity model corresponds with the anomalies of potential fields and zones of high electric conductivity.

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来源期刊

Tectonophysics 地学-地球化学与地球物理

CiteScore

4.90

自引率

6.90%

发文量

300

审稿时长

6 months

期刊介绍： The prime focus of Tectonophysics will be high-impact original research and reviews in the fields of kinematics, structure, composition, and dynamics of the solid arth at all scales. Tectonophysics particularly encourages submission of papers based on the integration of a multitude of geophysical, geological, geochemical, geodynamic, and geotectonic methods