A Regional Shallow Décollement at the Front of the Mexican Fold and Thrust Belt: Microstructure of the Santiago Shale

IF 1.8 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS Lithosphere Pub Date : 2024-05-13 DOI:10.2113/2024/4031438
Lenin. I. Valdéz-Barrera, Mariano Cerca, Jubier A. Jiménez-Camargo, César A. Cortés-Prado
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Abstract

This contribution analyses the role played by the mechanical properties of a decollément shale layer in the evolution of the Mexican Fold and Thrust Belt (MFTB). The mobility of overpressured shales can accommodate large strains by grain-scale plastic mechanisms, and affect the folding and thrusting styles of the overburden. Research on shale deformation mechanisms is necessary to improve the knowledge of these processes and their influence on the structural style of fold and thrust belts. The ductile behavior of rocks involving grain-scale plasticity was documented in the Jurassic Santiago shale sequence using geological mapping, microstructural observations on thin-oriented sections, and scanning electron microscopy (SEM) imaging. Structural styles such as detachment folding, fault-bend folding, and shale-cored fold-thrusts were observed at the regional scale. At the outcrop scale, the shale developed strong foliation and pencil cleavage, with immersed packstone boudins. Observed structures include thrusting, soft and open folds, and buckle folding. In thin section, the ductile textures include a strong penetrative foliation with lenticular and wavy-parallel laminae composed of carbonates, ribbons of reoriented clays and organic matter (clay+OM), s-c structures, porphyroblasts microtextures, development of oblique cleavage concerning folded foliation (crenulation cleavage), and carbonates dissolution. The Santiago shale shows also evidence of brittle deformation including calcite-filled fractures and cataclastic gouges. X-ray diffraction (XRD) analysis of the clay size fraction suggests that the authigenic calcareous shale was deformed in conditions of the deep diagenetic zone (between 100 and 200°C) and fluid overpressure (>70 MPa). The results help to improve the understanding of ductile microstructure and its role in shale deformation cretaceous cover, promoting the formation of localized fault propagation folds in the overburden. This study aims to open new perspectives in the kinematics and rheology interpretations for this sector of the MFTB, highlighting the role of the décollement layers during the progression of the orogen.
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墨西哥褶皱和推覆带前沿的区域浅层地层:圣地亚哥页岩的微观结构
这篇论文分析了去压页岩层的力学性质在墨西哥褶皱与推覆带(MFTB)演化过程中所起的作用。过压页岩的流动性可以通过晶粒尺度的塑性机制容纳较大的应变,并影响覆盖层的褶皱和推覆方式。为了更好地了解这些过程及其对褶皱带和推力带构造样式的影响,有必要对页岩变形机制进行研究。侏罗纪圣地亚哥页岩序列中涉及晶粒尺度塑性的岩石韧性行为是通过地质测绘、薄导向切片上的微结构观察和扫描电子显微镜(SEM)成像记录下来的。在区域尺度上,观察到了剥离褶皱、断层弯曲褶皱和页岩褶皱推力等构造样式。在露头尺度上,页岩形成了强烈的褶皱和铅笔状劈裂,并伴有浸入式包岩。观察到的结构包括推力、软褶皱、开放褶皱和扣褶皱。在薄层切面上,韧性纹理包括由碳酸盐组成的透镜状和波浪状平行层理、重新定向的粘土和有机质(粘土+有机质)带、s-c 结构、斑岩微纹理、褶皱褶皱的斜劈理(细劈理)以及碳酸盐溶解。圣地亚哥页岩还显示了脆性变形的证据,包括方解石填充的断裂和鲶鱼沟。粘土粒度的 X 射线衍射(XRD)分析表明,自生钙质页岩是在深成岩带(100 至 200°C)和流体超压(大于 70 兆帕)条件下发生变形的。研究结果有助于进一步了解韧性微结构及其在白垩系覆盖层页岩变形中的作用,促进了覆盖层局部断层扩展褶皱的形成。这项研究旨在为MFTB这一区段的运动学和流变学解释开辟新的视角,突出地层在造山运动过程中的作用。
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来源期刊
Lithosphere
Lithosphere GEOCHEMISTRY & GEOPHYSICS-GEOLOGY
CiteScore
3.80
自引率
16.70%
发文量
284
审稿时长
>12 weeks
期刊介绍: The open access journal will have an expanded scope covering research in all areas of earth, planetary, and environmental sciences, providing a unique publishing choice for authors in the geoscience community.
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