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高校地质学报 ›› 2020, Vol. 26 ›› Issue (6): 601-616.DOI: 10.16108/j.issn1006-7493.2019046

• 岩石·矿物·地球化学 •    下一篇

大别山超高压变质岩的显微构造与有效黏度

顾筱彤,王 勤   

  1. 内生金属矿床成矿机制研究国家重点实验室,南京大学 地球科学与工程学院,南京 210023
  • 出版日期:2020-12-20 发布日期:2021-01-05

Microstructure and Effective Viscosity of Ultrahigh-Pressure Metamorphic Rocks from the Dabie Mountains

GU Xiaotong,WANG Qin   

  1. State Key Laboratory for Mineral Deposits Research, School of Earth Sciences and Engineering, Nanjing University, Nanjing 210023, China
  • Online:2020-12-20 Published:2021-01-05

摘要:

超高压变质岩提供了研究大陆俯冲隧道中岩石的变形机制和流变差异性的窗口。文章使用电子背散射衍射技术分析了大别山超高压变质带的榴辉岩和长英质片麻岩的显微构造。榴辉岩中的石榴子石基本呈无序分布,绿辉石发育较强烈的晶格优选定向,[001]轴的极密平行或近平行于拉伸线理,(100)面的法线近垂直于面理,退变榴辉岩中角闪石的(100)[001]组构可能继承了绿辉石的晶格优选定向。退变榴辉岩和长英质片麻岩中的石英记录了(0001)<a>低温底面滑移和{1010}<a>中温
柱面滑移,反映了超高压变质岩折返到中地壳的韧性变形;而斜长石的(001)<110>和(010)[100]组构形成于折返到下地壳的角闪岩相变质条件(>600℃)。根据主要矿物的流变律计算了俯冲与折返过程中无水矿物的有效黏度变化。俯冲过程中,钠长石=硬玉+石英的分解反应以及石英-柯石英相变导致长英质片麻岩的有效黏度和密度都显著增高,有利于陆壳深俯冲。但是折返过程中由于温度较高,这两个反应带来的有效黏度变化较小。>80 km深度,石榴子石的流变强度>硬玉>绿辉
石>柯石英,俯冲上地壳的流变由柯石英和硬玉控制,下地壳的流变由绿辉石和石榴子石控制。超高压变质岩流变强度的差异有助于上—下地壳力学解耦,使相对低密度、低黏度的上地壳物质在俯冲隧道内快速折返。

关键词: 超高压变质岩, 晶格优选定向, 黏度, 俯冲, 折返, 相变

Abstract: Ultrahigh-pressure metamorphic rocks provide a window to investigate deformation mechanisms and rheological contrast of rocks in a subduction channel. Using the electron backscatter diffraction (EBSD) technique, we measured the latticepreferred orientations (LPO) of major minerals from eclogites and felsic gneisses in the Dabie ultrahigh-pressure metamorphic belt. Garnet from eclogites shows nearly random orientation, whereas the LPO of omphacite is characterized by the maximum concentration of [001] axis parallel to the lineation and that of the pole of (100) normal to the foliation. Amphibole from
retrograded eclogites also develops (100)[001] fabric, which may be inherited from omphacite. Quartz in retrograded eclogites and felsic gneisses shows the activation of dominant low-temperature (0001)<a> and medium-temperature {1010}<a> slip systems, which should be formed during exhumation in the middle crust. In contrast, (001)<110> and (010)[100] fabrics in plagioclase resulted from ductile deformation during exhumation in the lower crust under amphibolite facies metamorphism. The effective viscosity of major minerals during subduction and exhumation was calculated using flow laws of dry minerals. The decomposition reaction of albite to jadeite and quartz, and phase transition of quartz to coesite will significantly increase the effective viscosity and density of felsic gneisses and hence facilitate deep subduction of the continental crust. However, during exhumation the changes of effective viscosity across the two phase boundaries are much smaller because of high temperature. Deeper than ~80 km, the effective viscosity of minerals has the sequence of garnet > jadeite > omphacite > coesite. Rheological properties of the upper crust are controlled by coesite and jadeite, whereas those of the lower crust by omphacite and garnet. The strength contrast between ultrahigh-pressure metamorphic rocks will result in decoupling between the upper and lower crust, which allows rapid exhumation of low-density and low-viscosity upper crustal materials in a subduction channel.

Key words: ultrahigh-pressure metamorphic rocks, lattice-preferred orientation, viscosity, subduction, exhumation, phase transition

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