Inverse metamorphic zonation in very low-grade Tibetan zone series of SE Zanskar and its tectonic consequences (NW India, Himalaya)

Schweizerische Mineralogische Und Petrographische Mitteilungen Pub Date : 1900-01-01 DOI:10.5169/SEALS-55563

L. Spring, H. Masson, E. Stutz, P. Thélin, R. Marchant, A. Steck

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引用次数: 8

Abstract

The metamorphism of the carbonate rocks of the SE Zanskar Tibetan zone has been studied by `'illite crystallinity'' and calcite-dolomite thermometry. The epizonal Zangla unit overlies the anchizonal Chumik unit. This discontinuous inverse zonation demonstrates a late to post-metamorphic thrust of the first unit over the second. The studied area underwent a complex tectonic history: - The tectonic units were stacked from the NE to the SW, generating recumbent folds, NE dipping thrusts and the regional metamorphism. The compressive movements were active under lower temperature conditions, resulting in late thrusts that disturbed the metamorphic zonation. The discontinuous inverse metamorphic zonation dates from this phase. - A NE vergent backfolding phase occurred at lower temperature conditions. It caused the uplift of more metamorphic levels. - A late extensional phase is revealed by the presence of NE dipping low angle normal faults, and a major high angle fault, the Sarchu fault. The low angle normal faults locally run along earlier thrusts (composite tectonic contacts). Their throw has been sufficient to reset a normal stratigraphic superposition (young layers overlying old ones), but insufficient to erase the inverse metamorphic relationship. However, the combined action of backfolding and normal faulting can locally lessen, or even cancel, the inverse metamorphic superposition. After deduction of the normal fault translation, the vertical component of the original thrust displacement through stratigraphy is 400 m, which is a value far too low to explain the temperature difference between the two units. The horizontal component of displacement is therefore far more important than the vertical one. The regional distribution of metamorphism within the Zangla unit points out to an anchizonal front and an epizonal inner part. This fact is in agreement with nappe tectonics.

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赞斯卡尔东南极低品位藏带系列逆变质带及其构造后果(印度西北部、喜马拉雅)

利用“伊利石结晶度”和方解石-白云石温度法研究了赞斯卡藏东南带碳酸盐岩的变质作用。层外Zangla单元覆盖层内Chumikunit。这种不连续的逆分带显示了第一个单元对第二个单元的晚期顶变质逆冲作用。研究区经历了复杂的构造史:构造单元自北东向南南向叠加，形成了平卧褶皱、逆冲逆冲和区域变质作用。在较低的温度条件下，压缩运动活跃，导致最近的推覆，扰乱了变质带。不连续逆变质带形成于这一阶段。-在较低温度条件下发生了NE vergentback褶阶段。它引起了更多变质层的隆起。—北东倾的低角度正断层和一条主要的高角度断层——萨丘断层的存在显示出晚伸展期。低角度正断层局部沿早期逆冲断层(复合构造接触)运行。它们的撞击足以重置正常的地层叠加(年轻层覆盖在老层上)，但也足以抹去逆变质关系。然而，逆褶皱和正断裂的共同作用可以局部减弱甚至抵消逆变质叠加。扣除正断层平移后，地层原始逆冲位移的垂直分量为400 m，这个值太低，无法解释两个单元之间的温差。因此，位移的水平分量远比垂直分量重要。赞拉单元变质作用的区域分布表现为一个侧向前缘和一个侧向内侧。这与推覆构造是一致的。

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Schweizerische Mineralogische Und Petrographische Mitteilungen

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