From dome to duplex: Convergent gravitational collapse explains coeval intracratonic doming and nappe tectonics, central Australia

Geology Pub Date : 2024-01-16 DOI:10.1130/g51721.1
Youseph Ibrahim, Patrice F. Rey, D. Whitney, C. Teyssier, Françoise Roger, Valérie Bosse, Bénédicte Cenki
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Abstract

In central Australia, an apparently coeval gneiss dome (Entia Dome) developed adjacent to a thrust belt (Arltunga Nappe Complex) within an intracratonic setting. Here we employ a combination of fieldwork, geochronology, and numerical modeling to investigate the structure and tectonic evolution of these features. We present a structural model linking an extensional domain comprising the Entia Dome, across a transitional zone containing the Bruna décollement zone and the Illogwa shear zone, into a contractional zone comprising thrusts and duplexes of the Arltunga Nappe Complex. Supported by numerical modeling, we propose a tectonic model in which the dome and nappe complex formed synchronously because of the convergent gravitational collapse of the 30−40-km-deep Paleozoic Harts Range rift.
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从穹隆到复式:汇聚引力塌陷解释了澳大利亚中部同时期的地壳内穹隆和岩层构造
在澳大利亚中部,一个明显共生的片麻岩穹丘(恩提亚穹丘)在地壳内部环境中与一个推力带(阿尔通加成因复合体)相邻发育。在这里,我们结合实地考察、地质年代学和数值建模,对这些地貌的结构和构造演化进行了研究。我们提出了一个构造模型,将包括恩蒂亚穹隆在内的伸展域,穿过包含布鲁纳降伏带和伊洛瓜剪切带的过渡带,连接到由阿尔通加脉复合体的推力和二叠体组成的收缩带。在数值建模的支持下,我们提出了一个构造模型,在这个模型中,由于 30-40 千米深的古生代哈茨山脉裂谷的汇聚引力塌陷,穹隆和岩层复合体同步形成。
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