【摘要】 通过建立中国大陆构造运动三维有限元模型,计算了在印度板块推挤驱动和地幔对流产生的岩石层底部拖曳力驱动下的中国大陆形变,以及与GPS观测结果之间的差异速度场分布。计算结果表明:多驱动力和中时间尺度(10万年)的中国大陆岩石层运动格局与短时间尺度(10年)GPS观测显示的格局总体趋势一致;而差异速度场的特征表现为:青藏块体内部出现向外的扩张趋势,其北部的阿尔金断裂带显示出强烈的左旋走滑差异运动,塔里木地块以及西南地区以缅甸弧为中心差异速度场呈现整体顺时针转动,华北北部张渤地震带显示出较强的差异运动。上述结果表明:1)中国大陆现代构造运动的格局源于印度大陆推挤为主的驱动力,同时还包括深部物质运移对岩石层底部的拖曳作用;2)一些大型破裂系统现今构造活动比较活跃,强烈影响了现阶段中国大陆表层水平运动的分布。更多还原

【Abstract】 First Crustal Monitoring and Application Center,CEA,Tianjin 300180Abstarct Two 3D finite element models of China continent are created and the continental deformation under the India-Eurasia collision and basal traction resulting from mantle convection is calculated.And the differential velocity field between the theoretical result and the GPS observation is calculated.The theoretical simulations in middle time scale(0.1 ma)are consistent with that of GPS observation which focuses on the surface movement in the short time scale of 10 years.In the differential velocity field,Tibetan plateau assumes a strong outside extrusive trend,while Altyn Tagh fault which is located in the north margin of Tibetan plateau shows remarkable left-lateral differential movement,Tarim basin and southwest region of China around Burma arc indicate uniform clock-wise rotation,and Zhang-bo fault system in North China assumes left-lateral differential movement.Such character could be generalized that multiple diving forces including India-Eurasia collision and basal traction resulting from mantel convection control constructional movement of China continent,at the same time,large fault systems also influence the movement pattern.更多还原