The Wulian Metamorphic Core Complex: A Newly Discovered Metamorphic Core Complex along the Sulu Orogenic Belt, Eastern China

Combined with field studies, microscopic observations, and EBSD fabric analysis, we defined a possible Early Cretaceous metamorphic core complex (MCC) in the Wulian area along the Sulu orogenic belt in eastern China. The MCC is of typical Cordilleran type with five elements: (1) a master detachment...

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Published inJournal of earth science (Wuhan, China) Vol. 24; no. 3; pp. 297 - 313
Main Author 倪金龙 刘俊来 唐小玲 杨海波 夏增明 郭全军
Format Journal Article
LanguageEnglish
Published China University of Geosciences China University of Geosciences 01.06.2013
Springer Nature B.V
Subjects
Biogeosciences
Cretaceous
Crystalline rocks
Denudation
Earth and Environmental Science
Earth science
Earth Sciences
Fault lines
Geochemistry
Geology
Geotechnical Engineering & Applied Earth Sciences
Igneous rocks
Metamorphic rocks
Metamorphism
Sedimentary rocks
Triassic
中国东部
变质岩系
变质核杂岩
拆离断层
苏鲁超高压变质带
苏鲁造山带
韧性剪切带
China
Sulu orogenic belt
North China Craton
crustal extension
Late Mesozoic
metamorphic core complex
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Summary:Combined with field studies, microscopic observations, and EBSD fabric analysis, we defined a possible Early Cretaceous metamorphic core complex (MCC) in the Wulian area along the Sulu orogenic belt in eastern China. The MCC is of typical Cordilleran type with five elements: (1) a master detachment fault and sheared rocks beneath it, a lower plate of crystalline rockswith (2) middle crust metamorphic rocks, (3) syn-kinematic plutons, (4) an upper plate of weakly deformed Proterozoic metamorphic rocks, and (5) Cretaceous volcanic-sedimentary rocks in the supradetachment basin. Some postkinematic incursions cut across the master detachment fault zone and two plates. In the upper plate, Zhucheng (诸城) Basin basement consists of the Proterozoic Fenzishan (粉子山) Group, Jinning period granite (762–834 Ma). The s u pr a de tac hme nt ba sin a bo ve the Proterozoic rocks is filled with the Early Cretaceous Laiyang (莱阳) (~135–125 Ma) and Qingshan (青山) groups (120–105 Ma), as wellas the Late Cretaceous Wangshi (王氏) Group (85–65 Ma). The detachment fault zone is developed at the base and margin of the superposed basin. Pseudotachylite and micro breccia layers located at the top of the detachment fault. Stretching lineation and foliation are well developed in the ductile shear belt in the detachment faults. The stretching lineation indicates a transport direction of nearly east to west on the whole, while the foliations trend WNW, WSW, and SE. Protomylonite, mylonite, and ultramylonite are universally developed in the faults, transitioning to mylonitic gneiss, and finally to gneiss downward. Microstructure and quartz preferred orientation show that the mylonites formed at high greenschist facies to low greenschist facies as a whole. The footwall metamorphic rock series of the Wulian MCC are chiefly UHP (ultrahigh pressure) metamorphic rocks. Syntectonic rocks developed simultaneously with the Wulian MCC detachment and extension. Geological research has demonstrated that the MCC is associated with small-scale intrusive rocks developing in the vicinity of the detachment faults, for instance, dike. Geochronology results indicate that the denudation of the Wulian MCC occurred at about 135–122 Ma. Its development and exhumation was irrelevant to the Sulu UHP metamorphism zone rapid exhumation during Triassic Period but resulted from the crustal extension of North China Craton and adjacent area.
Bibliography:metamorphic core complex;Late Mesozoic;North China Craton;crustal extension;Sulu orogenic belt.
Jinlong Ni Shandong Provincial Key Laboratory of Depositional Mineralization & Sedimentary Minerals, College of Geological Sciences & Engineering, Shandong University of Science and Technology, Qingdao 266590, China; State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences, Beijing 100083, China Junlai Liu* 、State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences, Beijing 100083, China Xiaoling Tang College of Chemistry & Environmental Engineering, Shandong University of Science and Technology, Qingdao 266590, China Haibo Yang , Zengming Xia State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences, Beijing 100083, China Quanjun Guo College of Geological Sciences & Engineering, Shandong University of Science and Technology, Qingdao 266590, China
Combined with field studies, microscopic observations, and EBSD fabric analysis, we defined a possible Early Cretaceous metamorphic core complex (MCC) in the Wulian area along the Sulu orogenic belt in eastern China. The MCC is of typical Cordilleran type with five elements: (1) a master detachment fault and sheared rocks beneath it, a lower plate of crystalline rockswith (2) middle crust metamorphic rocks, (3) syn-kinematic plutons, (4) an upper plate of weakly deformed Proterozoic metamorphic rocks, and (5) Cretaceous volcanic-sedimentary rocks in the supradetachment basin. Some postkinematic incursions cut across the master detachment fault zone and two plates. In the upper plate, Zhucheng (诸城) Basin basement consists of the Proterozoic Fenzishan (粉子山) Group, Jinning period granite (762–834 Ma). The s u pr a de tac hme nt ba sin a bo ve the Proterozoic rocks is filled with the Early Cretaceous Laiyang (莱阳) (~135–125 Ma) and Qingshan (青山) groups (120–105 Ma), as wellas the Late Cretaceous Wangshi (王氏) Group (85–65 Ma). The detachment fault zone is developed at the base and margin of the superposed basin. Pseudotachylite and micro breccia layers located at the top of the detachment fault. Stretching lineation and foliation are well developed in the ductile shear belt in the detachment faults. The stretching lineation indicates a transport direction of nearly east to west on the whole, while the foliations trend WNW, WSW, and SE. Protomylonite, mylonite, and ultramylonite are universally developed in the faults, transitioning to mylonitic gneiss, and finally to gneiss downward. Microstructure and quartz preferred orientation show that the mylonites formed at high greenschist facies to low greenschist facies as a whole. The footwall metamorphic rock series of the Wulian MCC are chiefly UHP (ultrahigh pressure) metamorphic rocks. Syntectonic rocks developed simultaneously with the Wulian MCC detachment and extension. Geological research has demonstrated that the MCC is associated with small-scale intrusive rocks developing in the vicinity of the detachment faults, for instance, dike. Geochronology results indicate that the denudation of the Wulian MCC occurred at about 135–122 Ma. Its development and exhumation was irrelevant to the Sulu UHP metamorphism zone rapid exhumation during Triassic Period but resulted from the crustal extension of North China Craton and adjacent area.
42-1788/P
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 14
ISSN:1674-487X
1867-111X
DOI:10.1007/s12583-013-0330-5