机构地区:[1]云南大学地球物理系,昆明650091 [2]昆明南方地球物理技术开发有限公司,昆明650231
出 处:《地球物理学报》2017年第12期4537-4556,共20页Chinese Journal of Geophysics
基 金:国家自然科学基金资助项目(41774110)资助
摘 要:在各向异性地壳中,来自Moho的P-to-S转换波(Pms)的到时不仅取决于入射角和地壳厚度,而且还随地震事件方位角而变化.地处青藏高原东南缘的川滇地区,地壳变形十分强烈.本文利用川滇地区的108个固定台站记录的远震三分量地震波形数据提取台站下方的P波接收函数,并把接收函数被校正到了同一参考震中距处(例如67°).然后按后方位角10°为间隔将接收函数叠加成一道信号以增强信噪比,并从叠加信号里拾取不同后方位角对应的Pms相的观测到时.在快波极化方向和分裂时间构成的解的平面上,能使观测到时与理论到时之差最小的点即为所求的分裂参数的位置.合成地震图和实际观测数据的实验表明,这个方法不但稳定性较好,而且误差估计也较小.我们从108个台中获得了96个Pms相的分裂参数,结果表明,川滇地区地壳各向异性十分强烈,Pms相分裂时间在0.05s±0.06s到1.27s±0.10s之间,平均值为0.54s±0.12s.地壳各向异性的快波极化方向与地表GPS速度场的差异性表明,印支块体的上下地壳之间是解耦的,而川滇菱形块体北部、松藩—甘孜和四川盆地的上下地壳之间是耦合的.然而,川滇菱形块体南部,地壳变形主要受控于小江断裂和金沙江—红河断裂.The continental collision between India and Eurasia in the Cenozoic has resulted in significant crustal shortening across Asia and uplifting of the Tibetan Plateau. Lithosphere that has undergone deformation may record this process in the form of fabric such as foliation and lineation from ductile deformation, as well as non-horizontal interfaces between materials with different properties within the crust or at the bottom of the crust (Moho). As a proxy for deformation, seismic anisotropy plays an important role in constraining the mode and location of the Earth's deformation. Crustal seismic anisotropy has been reported to exist in many active tectonic regions such as the southeastern margin of Tibet, where the crustal thickness almost increases to the twice from the southern Yunnan to the Songpan-Garzê (SG) fold system and the northern part of the Sichuan-Yunnan diamond-shaped block (SYDSB). In general, seismic anisotropy in the Earth's upper crust is caused by stress-induced alignment of cracks, while it in the lower crust and mantle is usually attributed to strain-induced lattice-preferred orientation of the minerals in the crust and mantle.In the southeastern margin of Tibet, besides of crustal thickening, distinctly different mechanisms have been suggested to accommodate the huge convergences caused by the continental collision between India and Eurasia. Since the early 1990s, some core shear phases, such as SKS and SKKS are widely used to probe the mantle anisotropy, leading to seismic anisotropy being observed in many tectonic domains. However, the splitting could be induced by one or more anisotropic layers anywhere along the ray path between the locations of the shear waves generated and received, SKS/SKKS phases splinting have excellent lateral resolution but limited vertical resolution. Unlike the SKS/SKKS phases converted at the CMB, the Moho P-to-S phase (Pms) is converted at the crust-mantle boundary; therefore, the source region inducing anisotropy can be exactly confined wit
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