Multiscale Structural Analysis of Ediacaran–Cambrian Rocks on the Northeastern Edge of the Saghro Inlier (Eastern Anti-Atlas): Relevance of Post-Cambrian Deformation

IF 2.4 Q2 GEOSCIENCES, MULTIDISCIPLINARY

Geosciences (Switzerland) Pub Date : 2023-08-24 DOI:10.3390/geosciences13090258

Z. Yajioui, H. Sant’Ovaia, B. Karaoui, C. Cruz, Amar Karaoui, Abdelkader Mahmoudi, Hmidou El Ouardi, L. Badra

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Abstract

The Ediacaran–Cambrian rocks on the northeastern edge of the Saghro inlier experienced polycyclic tectono-thermal events, which are reported here based on a multiscale structural analysis, from field measurements to fluid inclusion planes. Three striking populations were identified, cutting across both the Ediacaran and Cambrian formations. These tectonic structures were generated during four tectonic events. (i) E-W-striking structures that host ore mineralized bodies (sulfide, oxide, quartz, and barite). They display a polyphase tectonic history, caused by a dextral movement in response to a NW–SE-oriented shortening, leading to the formation of quartz gashes and veins. This tectonic event took place during the Neovariscan. These E–W-striking structures were subsequently reactivated during the Mesozoic time under a sinistral strike-slip regime as a result of NE–SW shortening syn-kinematic with barite mineralization. (ii) NE–SW-striking strike-slip structures (dextral or sinistral) crosscut the E–W-striking veins. These faults are related to the NW–SE-oriented shortening that occurred during the Neogene. (iii) The last tectonic episode, related to the N–S shortening, took place during the late Neogene to the Quaternary period. It resulted in NW–SE to N–S-striking structures that were related to dextral and sinistral strike-slip movements, which crosscut the preexisting E–W structures.

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萨格罗盆地东北缘埃迪卡拉-寒武系岩石多尺度构造分析:后寒武纪变形的相关性

本文基于多尺度构造分析，从野外测量到流体包裹体平面，报道了萨格罗盆地东北缘埃迪卡拉-寒武系岩石经历的多旋回构造-热事件。发现了三个惊人的种群，横跨埃迪卡拉纪和寒武纪。这些构造形成于4次构造事件。(i)东西向构造，含有矿化体(硫化物、氧化物、石英和重晶石)。它们具有多期构造史，是由北西-东向缩短的右旋运动引起的，导致石英裂隙和脉的形成。这一构造事件发生在新瓦里斯纪。这些东西向构造随后在中生代与重晶石成矿同步运动的NE-SW缩短作用下，在左旋走滑机制下被重新激活。(ii)东、西向走滑构造(右旋或左旋)横切东、西向脉。这些断裂与新近纪nw - se向缩短有关。(3)最后一次构造事件发生在新近纪晚期至第四纪，与南北向缩短有关。形成与右旋和左旋走滑运动有关的NW-SE - n -s走向构造，横切原有的东西向构造。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Geosciences (Switzerland) Earth and Planetary Sciences-Earth and Planetary Sciences (all)

CiteScore

5.30

自引率

7.40%

发文量

395

审稿时长

11 weeks