Benedikt M. Steiner scite author profile

The increasing demand for green technology and battery metals necessitates a review of geological exploration techniques for Li–Cs–Ta (LCT) pegmatites, which is applicable to the work of mining companies. This paper reviews the main controls of LCT pegmatite genesis relevant to mineral exploration programs and presents a workflow of grassroots exploration techniques, supported by examples from central Europe and Africa. Geological exploration commonly begins with information gathering, desktop studies and Geographic Information System (GIS) data reviews. Following the identification of prospective regional areas, initial targets are verified in the field by geological mapping and geochemical sampling. Detailed mineralogical analysis and geochemical sampling of rock, soil and stream sediments represent the most important tools for providing vectors to LCT pegmatites, since the interpretation of mineralogical phases, deportment and liberation characteristics along with geochemical K/Rb, Nb/Ta and Zr/Hf metallogenic markers can detect highly evolved rocks enriched in incompatible elements of economic interest. The importance of JORC (Joint Ore Reserves Committee) 2012 guidelines with regards to obtaining geological, mineralogical and drilling data is discussed and contextualised, with the requirement of treating LCT pegmatites as industrial mineral deposits.

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Using Tellus stream sediment geochemistry to fingerprint regional geology and mineralisation systems in Southeast Ireland

Steiner¹

2018

Irish Journal of Earth Sciences

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Using Tellus stream sediment geochemistry to fingerprint regional geology and mineralisation systems in Southeast Ireland

Steiner¹

2018

Irish Journal of Earth Sciences

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Unravelling the complex geological evolution of one of Earth's final remaining frontiers: East Siberia

Barnet

Steiner

2021

Geology Today

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East Siberia represents one of the most remote and inhospitable regions on the planet, home to the coldest permanently inhabited settlement on Earth (Oymyakon), where temperatures frequently fall below -50°C in winter. Geological investigations in this part of northern Asia are severely hampered by thick permafrost, a lack of infrastructure, vast tracts of barren uninhabited rough terrain, and political challenges. However, the rocks buried below the freezing tundra and taiga of this remote land provide evidence of an interesting and diverse geological history, including vast hypersaline salt basins, voluminous volcanic eruptions, Himalayan-style mountain ranges, and extensive swamps. Following a comprehensive study of publically available literature, the majority published in Russian language and challenging to obtain in the UK, we aim to decipher the diverse and complicated geological history of this remote region over the past 1650 million years.

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