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Showing posts with the label Strategic minerals

Pegmatite Formation: Magmatic Differentiation and Metal Enrichment

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Pegmatite Formation: Magmatic Differentiation and Metal Enrichment   1. Introduction Pegmatites are unique and highly significant rocks known for their exceptionally large size mineral grains and distinct mineralogical composition. These coarse-grained igneous rocks crystallize during the final stages of magma cooling and differentiation, concentrating rare and economically valuable metals such as lithium, beryllium, tantalum, and niobium. This article discusses the formation of pegmatites, the genesis of metals within these formations, and their economic relevance 2. Formation of Pegmatites Pegmatites typically form from highly differentiated magmas. As a magma body cools, minerals crystallize at different temperatures, causing the remaining melt to become enriched in incompatible elements and volatiles. This residual melt, rich in rare elements, is crucial for pegmatite formation. The crystallization of pegmatites occurs in a volatile-rich environment, promoting the...

The Geologist's Guide to Finding Spodumene-Bearing Pegmatites

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The Geologist's Guide to Finding Spodumene-Bearing Pegmatites Introduction Identifying spodumene-bearing pegmatites in the field requires a combination of geological knowledge, keen observation skills, and the use of specific tools. This article will guide you through the process of recognizing these valuable lithium-rich deposits. This article will cover the geological settings, visual identification, associated minerals, structural features, field tools and techniques and field observations to help in prospecting and exploration of spodumene-bearing pegmatites.  1. Geological Setting Tectonic Aspects Understanding the tectonic environment is crucial. Spodumene-bearing pegmatites often form in stable cratonic regions where igneous rocks, such as granites, and high-grade metamorphic rocks, such as gneisses and schists, are prevalent. These pegmatites are also commonly found near the edges of granitic plutons or within metamorphic belts subjected to significant tectonic st...

Exploring and mining Indian Ocean mineral resources

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Exploring and mining Indian Ocean mineral resources Polymetallic nodules of the Indian ocean. Introduction The Indian Ocean, one of the world's major oceans, holds vast potential for deep-sea mineral resources. This vast body of water covers approximately 20% of the Earth's surface and is characterized by its immense depth and unique geological features. In recent years, increasing interest and exploration efforts have shed light on the rich mineral deposits lying beneath the ocean floor. This article aims to highlight into the aspects of deep-sea minerals in the Indian Ocean, discuss their significance and draw conclusions about their future exploitation. Discussion The composition of deep-sea minerals in the Indian Ocean varies widely, encompassing a diverse range of valuable resources. One of the most notable resources found in abundance is polymetallic nodules. These potato-sized nodules are primarily composed of manganese, nickel, copper, cobalt, and traces of othe...