亚丁湾岩石圈发育过程中构造形成的具体特征(物理模拟)

Pub Date : 2020-09-23 DOI:10.5800/gt-2020-11-3-0489
E. Dubinin, A. Grokholsky
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引用次数: 3

摘要

。研究的重点是亚丁湾的构造特征,亚丁湾包括三个省。亚丁湾扩张脊的西、中、东三省在形成和发展的不同地球动力机制下,形成了不同的形态构造分割。在我们的研究中,通过物理模拟来研究这三部分的分割机制以及边缘高原和索科特拉岛的形成。在实验中,一个弹塑性板放置在液体基座上(模拟熔体),受到正常或斜向拉伸。模型中模拟大陆或海洋岩石圈的板块剖面厚度不同。不同的非均质性,如切割、线性弱化带(裂谷加热带)等,在板块截面上按照自然类似物设置。模拟结果表明,亚丁湾扩张轴的形态构造分割取决于岩石圈的加热程度和厚度,与阿法尔地幔柱的不同距离和局部热异常、扩张倾角和构造不均匀性的存在以及岩石圈强度的增加有关,这与破碎前基底上中生代地堑的存在有关。岩石圈厚度越小,岩屑段的大小越小。角度越锐利,分割越明显。亚丁湾大陆裂谷与嘉士伯裂谷带的连接研究表明,这些裂谷裂缝在发育过程中是相互扩展的。实验结果表明,在厚度不同的块体之间存在“尖锐”边界的情况下,可能会出现剪切带。例如,这种情况适用于Alula-Fartak断裂带或Owen断裂带。由于边界不那么“尖锐”,经常会形成重叠的结构,例如封闭在两个裂谷裂缝之间的微板块或微块。在这种情况下,一个微块死亡,而另一个微块发展成一个扩展的脊。显然,这样一个微块是由边缘高原和Sokotra岛代表的。从模型中可以看出,两个裂谷相互间的传播对高原和索科特拉岛的形成至关重要。此外,裂谷带的初始几何形状及其相互分离的初始位置也起了重要作用。阿拉伯和索马里板块开始于约20 Ma之前,在亚丁湾发现的最古老的磁异常6 (19.7 Ma)之前不久;() -裂谷断裂向西快速传播(平均350公里/马),并沿亚丁湾形成海洋地壳。亚丁湾大部分地区的示巴脊扩展完成于5℃(16.0 Ma);(д) -扩展脊的当前位置。
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Specific features of structure formation during the development of the lithosphere of the Gulf of Aden (physical modeling)
. The study was focused on the tectonic structure features of the Gulf of Aden, which includes three provinces. The western, central and eastern provinces differ in morphostructural segmentation of the spreading ridge of the Gulf of Aden, which took place in different geodynamic regimes of their formation and development. In our study, physical modeling was performed to investigate the segmentation mechanisms of the three parts and the formation of the marginal plateau and the island of Socotra. In experiments, an elastic-plastic plate lying on a liquid base (simulating melt) was subjected to normal or oblique stretchig. Plate sections imitating the continental or oceanic lithosphere in the model had different thicknesses. Various heterogeneities, such as cuts, linear weakened zones (rift heating zones) etc., were set in the plate sections in accordance with natural analogues. The modeling results show that morphostructural segmentation of the spreading axis in the Gulf of Aden depends on the degree of heating and the thickness of the lithosphere, associated with different distances from the Afar plume and local thermal anomalies, spreading obliquity and the existence of structural inhomogeneities with increased lithosphere strength, which are associated in this case with the presence of Mesozoic grabens on the pre-breakup basement. The smaller is the lithosphere thickness, the smaller is the size of the segments. The sharper is the angle, the more pronounced is segmentation. The study of the connection of the Gulf of Aden continental rift with the rift zone of the Carlsberg ridge suggests that during their development, these rift fractures propagated towards each other. The experiment results show that in case of a «sharp» boundary between blocks that differ in thickness, a shear zone is likely to occur. Such a case is applicable, for example, to the Alula-Fartak fracture zone, or to Owen’s fracture zone. With a less ‘sharp’ boundary, overlapping structures are often formed, such as microplates or microblocks enclosed between two rift fissures. In such case, one microblock then dies, while the other develops into a spreading ridge. Apparently, such a microblock is represented by the marginal plateau and the island of Sokotra. As shown by the modeling, propagation of the two rifts towards each other was important for the formation of the plateau and the island of Socotra. Moreover, a significant role was played by the initial geometry of the rift zones and their initial positioning separate from each other. the Arabia and Somalia plates started ≈20 Ma ago, shortly before anomaly 6 (19.7 Ma), the oldest magnetic anomaly recognized in the Gulf of Aden; ( б–г ) – fast propagation (350 km/Ma on average) of the rift fault to the west and the formation of the oceanic crust all along the Gulf of Aden. The Sheba ridge propagation in most of the Gulf of Aden was completed at chron 5C (16.0 Ma); ( д ) – current position of the spreading ridge.
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