J. Ormazabal, S. Principi, F. Palma, D. Bran, J. Isola, F. Esteban, A. Tassone
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引用次数: 0
摘要
北斯科舍海脊是左侧横贯南美-斯科舍板块边界的近海形态结构表现。该海脊由多个区块组成,其中包括鲜有研究的 Namuncurá Bank(NB,又称 Burdwood)。我们通过三维和二维地震数据数据库、多波束测深数据和海底剖面图,首次详细研究了 NB 西部海底的活动结构。这项工作评估了北部湾的结构、变形方式和新生代演化,北部湾的几组断层和梯状褶皱影响着海底和浅海底。这些特征复合了与释放弯曲相关的最北端结构,非常符合位于 N74°E 的左侧里德尔剪切模型,相对于当今板块边界应力机制略有旋转。目前的构造情况始于新近纪的一个主要变形阶段,马尔维纳斯褶皱-推力带是这一阶段的部分分布区,而现代变形继续受先前存在的构造的制约。这项研究有助于更好地了解北斯科舍海脊的构造,这一形态结构影响着南极环极洋流的环流,从而对全球气候产生影响。
Neotectonics on the Namuncurá (Burdwood) Bank: Unveiling seafloor strike-slip processes along the North Scotia Ridge
The North Scotia Ridge is the offshore morphostructural expression of the left-lateral transcurrent South America-Scotia Plate Boundary. Several blocks compose the ridge, including the scarcely studied Namuncurá Bank (NB, also known as Burdwood). We present the first detailed study of active structures on the seafloor of the western NB from a database of 3D and 2D seismic data, multibeam bathymetry, and sub-bottom profiles. This work assesses the architecture, style of deformation and Cenozoic evolution of NB, where several groups of faults, and
en echelon
folding, affects the seabed and shallow sub-bottom. These features compound the northernmost structures associated with a releasing bend, fitting well with a left-lateral Riedel shear model oriented at N74°E, slightly rotated with respect to the present-day plate boundary stress regime. The current tectonic scenario started with a main deformational phase in the Neogene, partially distributed by the Malvinas Fold-Thrust Belt, while modern deformation continues to be conditioned by pre-existing structures. This study allows for a better understanding of the tectonics of the North Scotia Ridge, a morphostructure that influences the circulation of the Antarctic Circumpolar Current thus impacting the global climate.