Early Paleozoic oblique convergence from subduction to collision: Insights from timing and structural style of the transpressional dextral shear zone in the Qilian orogen, northern Tibet of China

IF 3.9 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Yawei Wu, Jianxin Zhang, Bo Zhang, Xiaohong Mao, Zenglong Lu, Guisheng Zhou, Xia Teng, Qi Guo
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Abstract

Transpressional shear zones commonly occur in ancient and modern convergent plate boundaries to accommodate oblique plate convergence. The early Paleozoic Qilian orogen in northeastern Tibet records the subduction of Proto-Tethyan Ocean lithosphere and the accretion-collision of various magmatic arcs and continental terranes. This study focused on the Datong ductile shear zone, which represents the central part of the WNW-ESE−striking ductile shear zone along the northern margin of the Qilian block in the Qilian orogen. This structure bears key information about the evolution of oblique convergence during the early Paleozoic orogeny. The kinematics and timing of the Datong ductile shear zone were investigated via field-based, microstructural, and mica 40Ar/39Ar dating analyses. Mesostructural and microstructural data showed predominantly dextral strike-slip shearing within the Datong ductile shear zone. Microstructural features and quartz c-axis crystallographic preferred orientation patterns indicated that dextral ductile shearing occurred under lower-amphibolite-facies conditions (∼500−550 °C and ∼5.6 kbar) within the shear zone. Microstructures of quartz showed subgrain rotation (SGR) and grain boundary migration (GBM), suggesting dislocation creep−dominated deformation. A strain rate of 10−12 s−1 and a differential stress of 25−39 MPa were estimated by the rheological flow law and quartz paleopiezometry. Finite strain measurements indicated that all deformed rocks of the Datong ductile shear zone exhibit a weakly oblate ellipsoid near the plane strain. Kinematic vorticity (ranging 0.47−0.83) analysis suggested the coexistence of simple shear and pure shear strains within the Datong ductile shear zone, indicating a transpressional setting. Biotite and muscovite 40Ar/39Ar data showed that transpressional shearing deformation started in the Ordovician (before 453 Ma) and lasted to the Silurian (ca. 430 Ma). Our new data combined with regional geological data show that the deformation type, kinematics, and dynamics of the Datong ductile shear zone were controlled by the southward oblique subduction of the Paleo-Qilian Ocean (Proto-Tethyan Ocean) and the following oblique collision between the Qilian block and the Alxa block. The intensive transpressional deformation along the northern Qilian block may reflect strong coupling between the subducting Paleo-Qilian oceanic slab and the overriding Qilian block as well as a high degree of convergence obliquity during the ongoing early Paleozoic convergence.
从俯冲到碰撞的早古生代斜辐合:藏北祁连造山带右转剪切带时间和构造样式的启示
逆扭剪切带通常出现在古今辐合板块边界,以适应斜辐合板块。藏东北早古生代祁连造山带记录了原特提斯洋岩石圈的俯冲和各种岩浆弧与大陆地体的吸合碰撞。大同韧性剪切带是祁连造山带北缘西北西东向韧性剪切带的中心部分。该构造为早古生代造山运动中斜辐合演化提供了重要信息。通过野外测年、显微构造和云母40Ar/39Ar测年研究了大同韧性剪切带的运动学和时间。细观构造和微观构造资料显示大同韧性剪切带内以右旋走滑剪切为主。显微结构特征和石英C轴晶体学择优取向模式表明,剪切带内较低角闪岩相条件下(~ 500 ~ 550°C和~ 5.6 kbar)发生了右旋韧性剪切。石英的显微组织表现为亚晶旋转(SGR)和晶界迁移(GBM),表明位错蠕变主导变形。根据流变流动规律和石英古层析法,估计应变速率为10 ~ 12 s−1,差应力为25 ~ 39 MPa。有限应变测量结果表明,大同韧性剪切带所有变形岩石在平面应变附近均表现为弱扁圆椭球体。运动涡度(0.47 ~ 0.83)分析表明,大同韧性剪切带内存在单纯剪切应变和纯剪切应变并存,表明韧性剪切带为逆挤压构造。黑云母和白云母40Ar/39Ar资料表明,向外剪切变形始于奥陶系(453 Ma以前),持续至志留系(约430 Ma)。新资料结合区域地质资料表明,大同韧性剪切带的变形类型、运动学和动力学受古祁连洋(原特提斯洋)向南斜俯冲和祁连地块与阿拉善地块的斜碰撞控制。北祁连地块强烈的挤压变形可能反映了俯冲的古祁连洋板与上覆的祁连地块之间的强烈耦合,以及在持续的早古生代辐合过程中具有较高的辐合倾角。
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来源期刊
Geological Society of America Bulletin
Geological Society of America Bulletin 地学-地球科学综合
CiteScore
9.30
自引率
8.20%
发文量
159
审稿时长
4-8 weeks
期刊介绍: The GSA Bulletin is the Society''s premier scholarly journal, published continuously since 1890. Its first editor was William John (WJ) McGee, who was responsible for establishing much of its original style and format. Fully refereed, each bimonthly issue includes 16-20 papers focusing on the most definitive, timely, and classic-style research in all earth-science disciplines. The Bulletin welcomes most contributions that are data-rich, mature studies of broad interest (i.e., of interest to more than one sub-discipline of earth science) and of lasting, archival quality. These include (but are not limited to) studies related to tectonics, structural geology, geochemistry, geophysics, hydrogeology, marine geology, paleoclimatology, planetary geology, quaternary geology/geomorphology, sedimentary geology, stratigraphy, and volcanology. The journal is committed to further developing both the scope of its content and its international profile so that it publishes the most current earth science research that will be of wide interest to geoscientists.
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