Development of the Arabian-Nubian Shield along the Marsa Alam-Idfu transect, Central-Eastern Desert, Egypt: geochemical implementation of zircon U-Pb geochronology

IF 0.9 4区地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS

Geochemical Transactions Pub Date : 2024-10-28 DOI:10.1186/s12932-024-00095-7

Sherif Mansour, Noriko Hasebe, Kamal Abdelrahman, Mohammed S. Fnais, Mohamed A. Gharib, Rabiou Habou, Akihiro Tamura

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引用次数: 0

Abstract

The magmatic complex along the Marsa Alam-Idfu transect, Central-Eastern Desert of Egypt, represents the northern segment of the Arabian–Nubian Shield (ANS), which developed within the framework of the East African Orogen. The basement rocks of the Arabian-Nubian Shield have been developed through three distinct phases of magmatic activity: the island-arc, the syn-orogenic, and the post-orogenic phases. Transitioning of the magmatic phases from the syn-orogenic to the post-orogenic, identifies changing the tectonic regime from a compressional to an extensional setting. The scarcity of comprehensive regional geochronological data that rely on precise isochron methods, such as the zircon U-Pb technique, could limit the comprehensive understanding of this region’s geological and tectonic history. That would raise a number of uncertainties ranging from the timing of the different magmatic activities and timing of changes in the tectonic regime to the existence of the pre-Pan-African crust in the CED. Our study provides new insights into the aforementioned uncertainties through zircon U-Pb dating of different rock units along the Marsa Alam-Idfu transect, CED, Egypt. The resulting ages ranged from 729 ± 3 Ma to 570 ± 2 Ma, constraining the temporal evolution of the ANS in the studied region into (1) the island-arc phase, represented by a metamorphic sample with an age of 729 ± 3 Ma. (2) the syn-orogenic phase, represented by calc-alkaline and alkaline granitic samples with ages ranging from 699 ± 4 Ma to 646 ± 2 Ma. These two phases indicate initiation of the compressional subduction regime in the CED since 729 ± 3 Ma and being dominated till 646 ± 2 Ma. (3) the post-orogenic phase, represented by metavolcanics, volcanic rocks, and alkaline plutonic samples with ages ranging from 623 ± 3 Ma to 570 ± 2 Ma. This phase suggests dominance of the compressional-to-extensional tectonic transition setting from 623 ± 3 Ma to 600 ± 1 Ma along with the Dokhan volcanism and activation of post-collision tensional regime activated at 582 ± 3 Ma. Our findings discourage the proposed dominance of the island-arc and syn-orogenic phases in the CED and the classical restriction of older magmatic activity to calc-alkaline granitic rocks and younger magmatic activity to alkaline granitic rocks. Additionally, we identified evidence of local magmatic sources by dating five grains with Mesoproterozoic (pre-Arabian–Nubian Shield) xenocrysts with ages ranging from 1549 ± 4 to 1095 ± 25 Ma.

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沿埃及中东部沙漠 Marsa Alam-Idfu 横断面阿拉伯-努比亚地盾的发展：锆石 U-Pb 地球同步学的地球化学应用

埃及中东部沙漠 Marsa Alam-Idfu 断面沿线的岩浆复合体代表了阿拉伯-努比亚地盾（ANS）的北段，该地盾是在东非造山带框架内发育的。阿拉伯-努比亚地盾的基底岩石经历了三个不同的岩浆活动阶段：岛弧阶段、同步成因阶段和后成因阶段。岩浆活动阶段从同步成因阶段向后成因阶段过渡，确定了构造体系从压缩型向伸展型的转变。依赖于精确等时线方法（如锆石 U-Pb 技术）的全面区域地质年代数据的缺乏，可能会限制对该地区地质和构造历史的全面了解。这将带来许多不确定性，从不同岩浆活动的时间、构造体系变化的时间到 CED 中是否存在泛非前地壳，不一而足。我们的研究通过对埃及 CED 的 Marsa Alam-Idfu 横截面沿线的不同岩石单元进行锆石 U-Pb 测定，为上述不确定性提供了新的见解。所测得的年龄从 729 ± 3 Ma 到 570 ± 2 Ma 不等，从而确定了所研究地区 ANS 的时间演化分为：（1）岛弧阶段，以一个年龄为 729 ± 3 Ma 的变质岩样本为代表。(2) 同步成因阶段，以钙质碱性和碱性花岗岩样本为代表，年龄在 699 ± 4 Ma 至 646 ± 2 Ma 之间。这两个阶段表明，自 729 ± 3 Ma 起，CED 开始了压缩俯冲机制，并在 646 ± 2 Ma 之前一直占主导地位。(3) 後成因階段，以元火山岩、火山岩及鹼性凝灰岩樣本為代表，年齡介乎 623 ± 3 Ma 至 570 ± 2 Ma。这一阶段表明，从 623 ± 3 Ma 到 600 ± 1 Ma，随着 Dokhan 火山活动和碰撞后张力机制的启动，压缩到伸展的构造过渡环境在 582 ± 3 Ma 期间占据主导地位。我们的研究结果否定了CED中岛弧和同步成因阶段占主导地位的说法，也否定了将较早的岩浆活动局限于钙碱性花岗岩，而将较年轻的岩浆活动局限于碱性花岗岩的传统说法。此外，我们还通过对五颗具有中新生代（前阿拉伯-努比亚地盾时期）异晶体的岩粒进行年代测定，确定了当地岩浆源的证据，其年代范围为 1549 ± 4 至 1095 ± 25 Ma。

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来源期刊

Geochemical Transactions 地学-地球化学与地球物理

CiteScore

3.70

自引率

4.30%

发文量

审稿时长

>12 weeks

期刊介绍： Geochemical Transactions publishes high-quality research in all areas of chemistry as it relates to materials and processes occurring in terrestrial and extraterrestrial systems.