Spatial Modeling for Base-Metal Mineral Exploration Through Integration of Geological Data Sets |
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| Authors: | Venkataraman G Madhavan B Babu Ratha D S Antony Joju P Goyal R S Banglani S Roy S Sinha |
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| Institution: | (1) Institut de Biotecnologia i Biomedicina (IBB) and Departament de Bioqu?mica i Biologia Molecular de la, Universitat Aut?noma de Barcelona (UAB), Bellaterra, Barcelona, 08193, Spain; |
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| Abstract: | This study involves the integration of information interpreted from data sets such as LandsatTM, Airborne magnetic, geochemical, geological, and ground-based data of Rajpura—Dariba,Rajasthan, India through GIS with the help of (1) Bayesian statistics based on the weights ofevidence method and (2) a fuzzy logic algorithm to derive spatial models to target potentialbase-metal mineralized areas for future exploration. Of the 24 layers considered, five layers(graphite mica schist (GMS), calc-silicate marble (CALC), NE-SW lineament 0–2000 mcorridor (L4-NESW), Cu 200–250 ppm, and Pb 200–250 ppm) have been identified from theBayesian approach on the basis of contrast. Thus, unique conditions were formed based onthe presence and absence of these five map patterns, which are converted to estimate posteriorprobabilities. The final map, based on the same data used to determine the relationships, showsfour classes of potential zones of sulfide mineralization on the basis of posterior probability.In the fuzzy set approach, membership functions of the layers such as CALC, GMS, NE-SWlineament corridor maps, Pb, and Cu geochemical maps have been integrated to obtain thefinal potential map showing four classes of favorability index. |
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| Keywords: | Spatial modeling mineral exploration Bayesian statistics fuzzy logic |
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