东昆仑造山带东段哈图沟-清水泉-沟里韧性剪切带塑性变形及动力学条件研究

摘要

The Hatugou–Qingshuiquan–Gouli ductile shear zone recorded multiple cycles of orogeny in the eastern section of East Kunlun. The quartz c-axis fabric and microstructure of samples from the ductile shear zone were analyzed. We discussed the formation mechanism of subducted and crust extension-thinning of continental blocks in the eastern section of East Kunlun. Analysis results show that the deformation temperature of the ductile shear zone was between 380 ℃ and 650 ℃, which can be analogue with metamorphisms of middle-high greenschist facies to lower amphibolite facies. The differential stress and strain rate of the ductile shear zone are estimated at 173–509 MPa, 6.93×10–14–1.43×10–8 s–1, respectively, which suggest a possible origin of rapid subduction. Moreover, the deformation temperature, differential stress and strain increase toward the middle of East Kunlun fault zone, which is consistent with the fact that the middle part of the East Kunlun experienced the most intensive ductile shear deformation. The calculations of the kinematic vorticity values of the ductile shear belt show that the early transient kinematic vorticity (0.56–1.00) of ductile shear zone corresponds to the initial stage of the northward subducted southern parts of East Kunlun. In the middle to later stage, the kinematic vorticity (0.25–0.91) should correspond to the collision between southern and northern parts of East Kunlun. The latest C' instantaneous kinematic vorticity (0.19–0.51) corresponds to extensional stage in the post-orogenic setting. The quartz c-axis fabric and the structural characteristics show that the middle part of East Kunlun tectonic belt experienced at least 3 stages of tectonic movements, including the late Caledonian thrusting and left lateral strike slip shearing, the late Hercynian Indosinian thrusting and dextral strike slip shearing and the brittle ductile brittle–left lateral strike slip shearing in the early and later Yanshanian.%东昆仑造山带东段哈图沟–清水泉–沟里韧性剪切带记录了多个旋回的造山作用,本文通过对韧性剪切带中石英 c轴组构和显微构造特征测试分析,探讨东昆仑造山带东段陆块间俯冲拼合及地壳伸展减薄的形成机制。结果显示,韧性剪切带变形温度介于380~650℃之间,形成环境为中–高绿片岩相到低角闪岩相,剪切带内差异应力值介于173~509 MPa 之间,应变速率介于6.93×10–14~1.43×10–8 s–1之间,主体为10–11~10–10 s–1,显示韧性剪切带变形是快速俯冲作用下的产物,越靠近东昆仑造山带东段东昆中断裂带其变形温度、差异应力值及相应的应变速率值越大,表明东昆仑造山带东段韧性剪切变形中心为东昆中断裂带。利用不同方法所计算出的韧性剪切带运动学涡度值,显示韧性剪切带早期瞬时运动学涡度(0.56~1)对应于东昆仑造山带东段东昆南与东昆仑造山带东段东昆北陆块间俯冲的初始阶段,中后期运动学涡度(0.25~0.91)应当对应于东昆南与东昆北陆块间的俯冲碰撞阶段,最晚期的C′瞬时运动学涡度(0.19~0.51)则对应于后造山的伸展阶段。通过石英c轴组构结合其宏微观构造特征,认为东昆中构造带至少经历了3个期次的构造运动,分别为加里东晚期的逆冲兼左行走滑剪切作用、晚海西–印支期的逆冲兼右行走滑剪切作用和燕山早期及之后的脆韧性–脆性的左行走滑剪切作用。