Shattered crust: how brittle deformation enables Critical Zone processes beneath southern Africa

IF 1.2 4区 地球科学 Q2 GEOLOGY
T. Dhansay
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引用次数: 1

Abstract

The delicate interplay of various Earth’s systems processes in the Critical Zone is vital in ensuring an equilibrium across the different spheres of life. The upper crust forms a thin veneer on the Earth’s surface that is defined by an interconnected network of brittle structures. These brittle structures enable various Earth System processes. Increased anthropogenic interactions within the very upper crust have seemingly resulted in a growing number of negative natural effects, including induced seismicity, mine water drainage and land degradation. Brittle structures across South Africa are investigated. These structures include various fractures and dykes of different ages and geodynamic evolutions. The orientation of these structures is compared to the underlying tectonic domains and their bounding suture zones. The orientations corroborate an apparent link between the formation of the brittle structures and the tectonic evolution of the southern African crust. Reactivation and the creation of new structures are also apparent. These are linked to the variability of the surrounding stress field and are shown to have promoted magmatism, e.g., Large Igneous Provinces, and the movement of hydrothermal fluids. These fluids were commonly responsible for the formation of important mineral deposits. The preferred structural orientations and their relationship to underlying tectonic zones are also linked to fractured groundwater aquifers. Subsurface groundwater displays a link to structural orientations. This comparison is extended to surficial water movement. Surface water movement also highlights an apparent link to brittle structures. The apparent correlation between these Earth’s systems processes and the interconnectivity developed by brittle structures are clear. This highlights the importance of high-resolution geological and structural mapping and linking this to further development of the Earth’s Critical Zone.
破碎的地壳:脆性变形如何使非洲南部的临界带过程成为可能
地球各系统过程在临界区的微妙相互作用对于确保不同生命领域的平衡至关重要。上层地壳在地球表面形成了一层薄贴面,由一个相互连接的脆性结构网络定义。这些脆性结构使地球系统能够进行各种过程。上层地壳内人为相互作用的增加似乎导致了越来越多的负面自然影响,包括诱发的地震活动、矿井排水和土地退化。对南非各地的脆性结构进行了调查。这些结构包括不同年龄和地球动力学演化的各种裂缝和堤坝。将这些构造的方向与下面的构造域及其边界缝合带进行比较。这些方位证实了脆性结构的形成与南部非洲地壳的构造演化之间的明显联系。重新激活和创建新的结构也是显而易见的。这些与周围应力场的可变性有关,并被证明促进了岩浆作用,例如大型火成岩区和热液流体的运动。这些流体通常是重要矿床形成的原因。优选的结构方向及其与下伏构造带的关系也与断裂的地下水含水层有关。地下地下水显示与结构方向的链接。这种比较适用于地表水运动。地表水运动也突出了与脆性结构的明显联系。这些地球系统过程与脆性结构形成的相互联系之间的明显相关性是显而易见的。这突出了高分辨率地质和结构测绘的重要性,并将其与地球临界区的进一步开发联系起来。
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来源期刊
CiteScore
3.60
自引率
5.60%
发文量
18
审稿时长
>12 weeks
期刊介绍: The South African Journal of Geology publishes scientific papers, notes, stratigraphic descriptions and discussions in the broadly defined fields of geoscience that are related directly or indirectly to the geology of Africa. Contributions relevant to former supercontinental entities such as Gondwana and Rodinia are also welcome as are topical studies on any geoscience-related discipline. Review papers are welcome as long as they represent original, new syntheses. Special issues are also encouraged but terms for these must be negotiated with the Editors.
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