Determining the key conditions for the formation of metamorphic core complexes by geodynamic modeling and insights into the destruction of North China Craton  被引量：2

作　　者：LU Gang ZHAO Liang ZHENG TianYu WANG Kun YANG JianFeng LU Gang;ZHAO Liang;ZHENG TianYu;WANG Kun;YANG JianFeng(State Key Laboratory of Lithospheric Evolution of Geology and Geophysics, Chinese Academy of Sciences)

机构地区：[1]State Key Laboratory of Lithospheric Evolution of Geology and Geophysics, Chinese Academy of Sciences

出　　处：《Science China Earth Sciences》2016年第9期1873-1884,共12页中国科学（地球科学英文版）

基　　金：financially supported by the National Natural Science Foundation of China (Grant Nos. 41304074, 91014006 & 91414301)

摘　　要：Metamorphic core complex(MCC) is characterized by the exhumation of lower crust over a large-scale detachment fault, providing natural records for tectonic extension. MCCs are widely identified in the North China Craton(NCC), which have been intensively studied on their structural and geological characteristics. Yet, the condition for the formation of MCCs and their link with NCC destruction are still in debate. In this study, we perform numerical simulations to investigate MCC formation under extension, with a focus on the effect of crustal rheologies. Results indicate that three end-member modes of deformation may occur: the metamorphic core complex mode, the detachment fault-uplifting mode and the pure shear mode. Weaker lower crust and stronger upper crust may promote the formation of MCC. In contrast, stronger lower crust(>1.3×1021 Pa s) may prohibit the exhumation of lower crust(detachment fault-uplifting mode), while weaker upper crust(<7.8×1021 Pa s) may fail to develop detachment faults(pure shear mode). Given that cratons typically have a strong crust, we suggest that the lower crust of NCC was weakened prior to extension, which promoted the formation of MCC in a later stage under the back-arc extension.Metamorphic core complex （MCC） is characterized by the exhumation of lower crust over a large-scale detachment fault, providing natural records for tectonic extension. MCCs are widely identified in the North China Craton （NCC）, which have been intensively studied on their structural and geological characteristics. Yet, the condition for the formation of MCCs and their link with NCC destruction are still in debate. In this study, we perform numerical simulations to investigate MCC formation under extension, with a focus on the effect of crustal rheologies. Results indicate that three end-member modes of deformation may occur： the metamorphic core complex mode, the detachment fault-uplifting mode and the pure shear mode. Weaker lower crust and stronger upper crust may promote the formation of MCC. In contrast, stronger lower crust （〉1.3×10^21 Pa s） may prohibit the exhumation of lower crust （detachment fault-uplifting mode）, while weaker upper crust （〈7.8×10^21 Pa s） may fail to develop detachment faults （pure shear mode）. Given that cratons typically have a strong crust, we suggest that the lower crust of NCC was weakened prior to extension, which promoted the formation of MCC in a later stage under the back-arc extension.

关 键 词：Metamorphic core complex Numerical modeling North China Craton EXTENSION 

分 类 号：P542[天文地球—构造地质学] P588.3[天文地球—地质学]