Abstract
Geological data integration and spatial analysis for structural elucidation are more assertive approaches for reconnaissance scale mineral exploration. In this study, several methods involving Fry analysis, distance correlation analysis, prediction area plots as well as knowledge driven predictive models including TOPSIS, ARAS and MOORA were systematically employed for unravelling the spatial geological attributes related to gold mineralisation. Additionally, statistical validation of knowledge driven predictive models were implemented using the Receiver Operating Characteristic/Area Under Curve analysis (ROC/AUC). The evidence from Fry and distance correlation analysis suggests that gold occurrence within parts of the Malumfashi schist belt of Nigeria is defined by a strong spatial association with the ENE-WSW as well as the NNE-SSW trending structures. The prediction area plot also revealed a robust spatial correlation between mineral occurrence and spatial data related to geological structures. The application of knowledge driven predictive models suggest a high favourability for gold occurrence within the southern, central, and north-eastern parts of the study location, while statistical validation using the ROC/AUC curves suggest a high prediction accuracy greater than 70% for all models. The geospatial analysis for mineral exploration within the Malumfashi area has unveiled an invaluable geological criterion for gold targeting with a considerable level of certainty.
Highlights
Mineral exploration remains an integral part of geological investigations as it attempts to unravel the most favourable zones for possible occurrence of economic deposits
Geochemistry and geophysical methods have been widely used for mineral exploration, recent developments from remote sensing/Geographic Information System (GIS) approaches have been invaluable for exploring a wide range of mineralisation across numerous mineral belts around the world [9, 10, 11]
The positive spatial association observed between gold deposits with the ENE-WSW lineaments is characterised by an optimal spatial association at a distance of 0.5 km, and within this distance, 88.9% of all known mineral deposits are present and there is a 60% chance higher than normal for finding mineralisation
Summary
Mineral exploration remains an integral part of geological investigations as it attempts to unravel the most favourable zones for possible occurrence of economic deposits. The practical applications of remote sensing/GIS methods to mineral exploration are often centred on three main aspects consisting of satellite mapping of hydrothermal alteration, structural investigation of ore geometry and spatial data integration for prospectivity map development [12, 13, 14, 15]. Amongst these methods, the spatial data integration of geological dataset remains the most incorporative and highly comprehensive as it attempts to capture geological information from diverse sources
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