Paipote fold-and-thrust belt, a key element in understanding the upper crustal shortening mechanisms of the Central Andean forearc

IF 2.6 2区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY
F. Martínez , J. Arancibia , C. Torres , M. Peña , L. Díaz , P. Reyes
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Abstract

The crustal shortening of the Andean forearc in northern Chile was accommodated by a combination of both thin- and thick-sinned structural styles. However, fold-related inversion of normal faults appears to be the most important structures in the area. To understand the upper crustal shortening mechanisms that acted during the tectonic uplift of this region, an original structural investigation was carried out, integrated with outcrop and regional-scale observations, balanced cross-sections, and pre-shortening restorations of structures exposed along the Paipote fold-and-thrust belt. On this basis, we presented the first balanced cross-section of this region extending for nearly 27 km is presented. The structural styles consisted of east-directed asymmetrical folds involving Paleozoic to Cenozoic strata. The folds were kinematically related to inverted normal faults and thrust ramps that penetrated downward into the basement. The inverted structures resulted from the reverse reactivation of preexisting Upper Paleozoic to Jurassic west-dipping, basement-rooted normal faults that accommodated the tectonic extension that preceeding the Andean orogenesis. The reverse-reactivation of these extensional structures controlled the development of east-verging anticlines, along which the Mesozoic syn-rift strata were elevated above their regional elevation. Other folds exhibit the typical geometry of fold-related thrust ramps (fault–bend folds and fault–propagation folds). These are proposed to result from the development of low-angle thrusts propagating across precursor normal faults with shortcut trajectories, that detach along Jurassic shales, thus forming complex thin-skinned structures in shallow structural levels. The latter is responsible for accommodating a major crustal shortening (nearly 5 km). The east-directed tectonic transport direction was influenced by the original attitude of precursor extensional faults.

派波特褶皱推覆带,了解中安第斯前弧上地壳缩短机制的关键因素
智利北部安第斯前弧的地壳缩短是由薄壳和厚壳两种构造形式共同作用的。然而,与褶皱有关的正断层反转似乎是该地区最重要的构造。为了了解该地区构造隆升过程中的上地壳缩短机制,我们开展了一项原创性的构造调查,并将露头观测和区域尺度观测、平衡横截面以及沿派波特褶皱和推力带暴露的构造缩短前复原进行了整合。在此基础上,我们首次提出了这一地区近 27 公里的平衡横断面。该地区的结构类型包括向东的不对称褶皱,涉及古生代至新生代地层。这些褶皱在运动学上与向下深入基底的倒置正断层和推斜有关。这些倒转结构是由先前存在的上古生界至侏罗纪西倾、根植于基底的正断层逆向再活化造成的,这些正断层适应了安第斯造山运动之前的构造延伸。这些伸展构造的反向活化控制了东向反褶的发展,中生代同步裂谷地层沿着这些褶皱被抬升到高于其区域海拔高度的位置。其他褶皱则表现出与褶皱有关的推力斜坡(断层弯曲褶皱和断层扩展褶皱)的典型几何特征。据推测,这些褶皱是由于低角度推力在具有捷径轨迹的前生正断层上传播,沿侏罗纪页岩脱离,从而在浅构造层形成复杂的薄层结构。后者是地壳缩短(近 5 公里)的主要原因。东向构造运移方向受到前兆伸展断层原始姿态的影响。
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来源期刊
Journal of Structural Geology
Journal of Structural Geology 地学-地球科学综合
CiteScore
6.00
自引率
19.40%
发文量
192
审稿时长
15.7 weeks
期刊介绍: The Journal of Structural Geology publishes process-oriented investigations about structural geology using appropriate combinations of analog and digital field data, seismic reflection data, satellite-derived data, geometric analysis, kinematic analysis, laboratory experiments, computer visualizations, and analogue or numerical modelling on all scales. Contributions are encouraged to draw perspectives from rheology, rock mechanics, geophysics,metamorphism, sedimentology, petroleum geology, economic geology, geodynamics, planetary geology, tectonics and neotectonics to provide a more powerful understanding of deformation processes and systems. Given the visual nature of the discipline, supplementary materials that portray the data and analysis in 3-D or quasi 3-D manners, including the use of videos, and/or graphical abstracts can significantly strengthen the impact of contributions.
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