Oshnavieh蛇绿岩的应变几何和结构分析:新特提斯之谜的新部分

IF 1 Q4 GEOSCIENCES, MULTIDISCIPLINARY
Majid Niromand, M. Behyari, Yusef Rahim Souri
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引用次数: 0

摘要

新特提斯洋的闭合与蛇绿岩的逆冲和Oshnavieh蛇绿岩是新特提斯缝合带的未知部分。将三种著名的波段比组合应用于ASTER卫星图像,结果表明((2+4)/3、(5+7)/6、(7+9)/8)波段比组合是蛇绿岩区域岩石单元重组的合适组合。主成分分析(PC2、PC4和pc5)对岩石单元接触具有较好的判别性。逆冲断层的总走向为北西-东向,倾向为北东向。断面上滑线倾角为80°~ 90°,运动机制为纯逆冲。z型寄生褶皱或云母鱼、S-C织构等剪切感指标证实剪切带存在右侧剪切感。由矿物颗粒的形状评估的斜倾板上的应变几何。剪切带应变椭球形为缩窄型,其Flinn k值在2.71 ~ 11.67之间变化,lode比值在-0.42 ~ -0.63之间变化。逆冲断裂带大部分样品位于平坦带和应变椭球区内,呈薄饼状,在收缩状态下形成,k值在0.44 ~ 0.80之间,Lode比值在0.32 ~ 0.5之间。逆冲带的位移和剪切带的剪切作用破坏了蛇绿岩序列,形成了蛇绿岩杂岩。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Strain geometry and structural analysis of the Oshnavieh ophiolite: A new segment of the Neo-Tethys puzzle
The closure of the Neo-Tethys ocean associated with the ophiolite obduction and the Oshnavieh ophiolite is the unknown part of the Neo-Tethys suture zone. Three well-known band ratio combinations applied to ASTER satellite image the result shows the ((2+4) /3, (5+7) /6, (7+9) /8) band ratio is the proper combination for the reorganization of rock units in the ophiolite regions. Principal component analysis of the (PC2, PC4 and PC 5) is well discriminated against to the rock unit contacts. The general trend of thrust faults is the NW-SE and dip direction is toward the NE. The rake of slickenline on the fault plane is 80°-90° and the mechanism of movement is the pure thrust. The shear sense indicator such as Z-type parasitic folds or mica-fish and S-C fabrics confirm right-lateral shearing sense in the shear zone. Strain geometry on the obducted slab evaluated by the shape of the mineral grains. In the shear zone strain ellipsoid shape is the prolate type and formed under constrictional regime, the Flinn K-value of these samples changes between 2.71 to 11.67 and lode ratio between -0.42 to -0.63. Most of the samples taken from the thrust fault zone located in the flattening zone and strain ellipsoid are pancake-shaped and formed under contractional regime the k-value varied between 0.44 to 0.80 and Lode ratio range is 0.32 to 0.5. The displacement in the thrust zone and shearing by the shear zone disrupted the ophiolite sequence and created an ophiolite melange.
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来源期刊
Iranian Journal of Earth Sciences
Iranian Journal of Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
1.40
自引率
12.50%
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0
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