Bushveld Complex Ep 1: Formation, Size, Structure & Layering
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- Опубліковано 15 жов 2024
- The 2.05 billion years layered intrusion known as the Bushveld Complex is renowned as a source of vast quantities of platinum group elements, chromite and. The Bushveld Complex is a large igneous intrusion in South Africa, which is known for its rich mineral deposits. It is considered one of the largest geological features on Earth and is of great economic importance due to its abundant reserves of platinum, palladium, rhodium, gold, nickel, copper, and other metals.
The vast size of 65 000 square kilometers and thickness of up to 9 kilometers of the Bushveld Complex make it an ideal testing facility for many petrological and ore-genesis theories. Within this giant volume, the world’s major resources of platinum and other platinum group elements, iron, titanium, vanadium, tin, and chromium are hosted. For over 90 years, it was the primary focus of continuous research from the moment PGEs mineralization was discovered. Nevertheless, there are still numerous aspects on which scientists need help to reach a consensus.
The BC comprises main suites from the base, Rustenburg Layered Suite, Rashoop Granophyre Suite, and Lebowa Granite Suite as per SACS, 1980 and the mother of the bushveld, Prof Kinnaird in 2005. However, according to the other authors, there is a fourth group called Rooiberg Group. This group is thought to a separate but related igneous complex located to the north of the Bushveld Complex.
The Bushveld Complex was formed around 2 billion years ago during the late Precambrian period through the process of magmatic differentiation. It is believed to be the result of a series of magma injections into the Earth's crust, leading to the formation of layered igneous rocks. While the exact details of the formation of the Bushveld Complex may still hold some uncertainties, ongoing research and geological studies continue to improve our understanding of this remarkable geological feature and its significance in the Earth's history. The formation of the Bushveld Complex is a complex geological process that occurred over millions of years. While there may be variations in theories and interpretations, the general consensus among geologists is based on the following principles:
• Magmatic Intrusion: Around 2 billion years ago during the late Precambrian period, massive amounts of magma began to intrude into the Earth's crust in what is now the region of the Bushveld Complex. This magma originated from the Earth's mantle, possibly triggered by tectonic activity or mantle plumes.
• Differentiation: As the magma intruded into the crust, it began to cool and solidify at different rates. This process, known as magmatic differentiation, led to the formation of distinct layers within the Bushveld Complex. Different minerals crystallized at different temperatures, resulting in layered igneous rocks.
• Layering: The Bushveld Complex is characterized by its layered structure, with alternating layers of different compositions and mineralogy. These layers include chromitite, anorthosite, pyroxenite, norite, and gabbro, among others. The layering is thought to be the result of repeated injections of magma into the crust over time, with each injection contributing to the formation of new layers. The layered structure of the Bushveld Complex is a prominent feature. These layers are thought to have formed through processes of magmatic differentiation, where minerals crystallized at different temperatures as the magma cooled and solidified. The layering is evidence of the complex history of magma intrusions and subsequent cooling events that occurred over millions of years.
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