Lithological, structural, and alteration mapping of uraniferous granitoid using Landsat 8, in the oriental part of the Reguibat shield, northern Mauritania

Lithological, structural, and alteration mapping of uraniferous granitoid using Landsat 8, in the oriental part of the Reguibat shield, northern Mauritania

The efficacy of remote sensing techniques for mineral exploration has been proven through several geological investigations. Therefore, this study used remote sensing techniques to delineate uranium prospective zones in the oriental part of Reguibat shield. This region is desert, flat and uncovered...

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Veröffentlicht in:Arabian journal of geosciences 2024, Vol.17 (6), Article 170
Hauptverfasser: Brahim, Salem-Vall, Olatunji, Akinade Shadrach, Umaru, Aliyu Ohani, Olisa, Olusegun G., Reyoug, Sidhmed Sidi, Hamoud, Ahmed
Format: Artikel
Sprache:eng
Schlagworte:
Aridity
Atmospheric correction
Deformation
Deserts
Earth and Environmental Science
Earth Sciences
Fieldwork
Geology
Landsat
Landsat satellites
Lithology
Mapping
Mineral exploration
Mineralization
Original Paper
Principal components analysis
Remote sensing
Satellite imagery
Semi arid areas
Shear zone
Spatial distribution
Uranium
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container_issue 6
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container_title Arabian journal of geosciences
container_volume 17
creator Brahim, Salem-Vall
Olatunji, Akinade Shadrach
Umaru, Aliyu Ohani
Olisa, Olusegun G.
Reyoug, Sidhmed Sidi
Hamoud, Ahmed
description The efficacy of remote sensing techniques for mineral exploration has been proven through several geological investigations. Therefore, this study used remote sensing techniques to delineate uranium prospective zones in the oriental part of Reguibat shield. This region is desert, flat and uncovered by vegetation and presents suitable characteristics for use of satellite images. Radiometric calibration, atmospheric correction, colour composite, principal component analysis (PCA), lineament extraction and band ratios were the main methods performed for the pre-processing and the processing of Landsat 8 OLI images. The findings of the current study revealed lithological units dominated by felsic rocks in association with metasediment, highlighted using band composite (bands 7, 5 and 3, then 7, 2, and 1, in RGB), PCs (PC1, PC2, and PC3) and band ratio (7/5, 5/4, and 6/7 in RGB). The lineament extraction and analysis indicated major deformation trending NNE-SSW affecting geological units of the area. The prospective uraniferous zone delineated showed a spatial distribution in relation with an identified shear zone which suggests a reasonable structural control of the mineralization. The results from this study were validated with existing data from previous map and ground truthing from fieldwork, and they showed high level of agreement. The result of this study further demonstrated the applicability of Landsat 8 OLI as suitable lithological mapping tool in the desert areas. The methodology employed in this research has wide-ranging applications in the identification and delineation of potential uranium-rich regions using remote sensing techniques. For uranium exploration purpose, this approach can be effectively utilized in various other regions to delineate new uraniferous area within the Reguibat shield, as well as in arid and semi-arid areas across the globe.
doi_str_mv 10.1007/s12517-024-11973-w
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subjects Aridity
Atmospheric correction
Deformation
Deserts
Earth and Environmental Science
Earth Sciences
Fieldwork
Geology
Landsat
Landsat satellites
Lithology
Mapping
Mineral exploration
Mineralization
Original Paper
Principal components analysis
Remote sensing
Satellite imagery
Semi arid areas
Shear zone
Spatial distribution
Uranium
title Lithological, structural, and alteration mapping of uraniferous granitoid using Landsat 8, in the oriental part of the Reguibat shield, northern Mauritania
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