早白垩世中期至晚中新世初期黑海乌克兰段地质发展史

IF 0.6 Q4 GEOCHEMISTRY & GEOPHYSICS Geofizicheskiy Zhurnal-Geophysical Journal Pub Date : 2023-07-03 DOI:10.24028/gj.v45i3.282411
S. Stovba, R. Stephenson, A. Tyshchenko, P. Fenota, D. Vengrovych, S. Mazur
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引用次数: 0

摘要

区域地震调查使人们有可能获得关于黑海乌克兰部分在阿尔比阶至塞诺曼阶裂谷作用、裂谷后沉降(土仑纪¾马斯特里赫特阶和古新世¾中始新世)、中始新世末的构造压缩和被一系列短暂、,挤压事件(始新世晚期¾中新世早期的开始)。裂谷作用在整个研究区域同时发生,形成了三个长裂谷盆地,每个裂谷盆地都由一个(半)地堑系统组成,彼此之间及其边缘被振幅高达3公里的断层隔开。白垩纪裂谷作用的强度明显低于产生大陆岩石圈破裂和海洋地壳形成所需的强度,或者通过大陆岩石圈的“海洋化”。始新世前-晚裂谷后阶段的沉积发生在相对较浅的海洋条件下。始新世的挤压导致沉积盖层的强烈变形,裂谷断层的部分和完全反转,并形成了三个很大程度上独立的海盆,其间出现了一块巨大的陆地。由于中新世晚期挤压相引起的强烈变形,沉积序列的主要沉积面积显著减少。现在的黑海深处在更新世开始甚至结束之前都是一个相对较浅的盆地。直到后来,水深才迅速增加到2公里以上。研究结果表明,西黑海和东黑海盆地的现代构造重建是基于对这些盆地中(亚)洋壳形成和/或其形成不同时期的假设,看起来不可靠。因此,任何将弧后盆地视为小型海洋盆地的观点都不普遍适用。
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History of the geological development of the Ukrainian sector of the Black Sea from the middle Early Cretaceous to the beginning of the Late Miocene
Regional seismic investigations have made it possible to obtain new knowledge on the geological history of the Ukrainian sector of the Black Sea during rifting from Albian to Cenomanian, post-rift subsidence (Turonian¾Maastrichtian and Paleocene¾Middle Eocene), tectonic compression at the end of the middle Eocene and post-rift subsidence interrupted by a series of short-lived, compressional events (late Eocene ¾ the beginning of the Early Miocene). Rifting occurred simultaneously in the entire area of study and formed three long rift basins, each of which consisted of a system of (half)grabens, separated from each other and their margins by faults with amplitudes of up to3 km. The intensity of Cretaceous rifting was significantly less than would be required to produce continental lithosphere break-up and oceanic crust formation, or through-going «oceanisation» of continental lithosphere. Sedimentation during the pre-Late Eocene post-rift phase took place in relatively shallow marine conditions. Eocene compression caused a strong deformation of the sedimentary cover, partial and complete inversion of rift faults and the formation of three largely separate sea basins, between which a large landmass arose. The primary area of deposition of sedimentary sequences was significantly reduced due to strong deformations caused by compressional phases in the Late Miocene. That which is now the deep Black Sea was a relatively shallow basin until the beginning or even the end of the Pleistocene. Only thereafter did the water depth increase rapidly to more than 2 km. Research results indicate that modern tectonic reconstructions of the Western Black Sea and Eastern Black Sea basins, which are based on assumptions about the formation of the (sub)oceanic crust in these basins and/or different times of their formation, look unreliable. It also follows that any view of back-arc basins as small oceanic basins is not universally applicable.
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来源期刊
Geofizicheskiy Zhurnal-Geophysical Journal
Geofizicheskiy Zhurnal-Geophysical Journal GEOCHEMISTRY & GEOPHYSICS-
自引率
60.00%
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