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    南海西缘断裂带走滑特征及其形成机理初步研究

    A tentative discussion on strike-slipping character and formation mechanism of western-edge fault belt in South China Sea

    • 摘要: 提要:南海西缘断裂带是南海西部最主要的构造要素,从北到南贯穿了该区主要的沉积盆地,具有走滑断裂的性质。由于不同地质时期走滑方向的不同,形成了不同的断层组合,主要表现为负花状构造和北东向、北西向两组雁列断层以及平面上双马尾状构造组合。主体断裂带以单条式为主,区段式活动特征明显。在南北盆地之间的构造转换带表现为负花状构造-犁式断裂-多米诺式反向调节正断层的组合。综合分析认为,南海西缘断裂是一组长期活动的断裂带,大规模走滑活动从中始新世至第四纪时期,主要为右旋走滑,应力以张扭作用为主;但是在中中新世末期,走滑方向曾经发生转变,为左旋走滑,转为压扭应力,造成区域隆升,导致地层被剥蚀,南海西部盆地现今沉积-构造格局基本形成。

       

      Abstract: Abstract:The western-edge fault belt is the most dominating structure element in the west of South China Sea. It runs through the main sedimentary basins from north to south and has the property of strike-slip fault. The western-edge fault belt forms different arrangements of faults because of diverse strike-slipping directions at various geological times. Faults arrangements consist of negative flower structure, two groups en-echelon faults of northeast and northwest strike and double horse-tail shaped structure associations in plane. The main fault of the western-edge fault belt is of single stripe pattern and evident segmentation movement. Faults character of transform belts between north and south stepover zones is the compounding of negative flower structure, listric normal fault and dominoes reversing adjusting normal fault. According to an integrated analysis, the western-edge fault belt of South China Sea is considered as an long-active fault belt,and its strike-slip movement took place from middle Eocene to Quaternary. The movement of the western-edge fault belt was mainly right-lateral with extension-wrest stress, but during the end of middle Miocene, the direction of strike-slip movement changed to left lateral with extrusion-wrest stress, which resulted in regional strata uplift and erosion. Under these actions, the pattern of current sediment and structure was formed basically in the western basins of South China Sea.

       

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