Litcius/Paper detail

An integrated ASTER-based approach for mapping carbonatite and iron oxide-apatite deposits

Cheikh Elwali Malainine, Otmane Raji, Muhammad Ouabid, Abdou Khouakhi, Jean‐Louis Bodinier, Ahmed Laamrani, Hicham El Messbahi, Nasrrddine Youbi, Moulay Ahmed Boumehdi

2021Geocarto International15 citationsDOIOpen Access PDF

Abstract

Mapping of carbonatites and related mineral deposits has occupied prominent place in mineral resource exploration programs given their potential to host valuable concentrations of critical metals such as rare earth elements and niobium. Based on spectral characteristics of most indicative minerals for these rocks, a mapping approach was developed using Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) data. The combination of band rationing outcomes with components from the principal component analysis and minimum noise fraction techniques highlighted the targeted rocks, with the excellent prospective zone representing ∼ 0.2% of the total investigated area. This approach was successfully applied to the Gleibat Lafhouda complex to rapidly delineate carbonatites and iron oxide-apatite ore outcrops. Results were validated through field observations and in-situ geochemical analysis using a portable X-ray fluorescence analyzer. Field data have also served as training data to perform a supervised classification, allowing further improvement of the mapping results.

Topics & Concepts

CarbonatiteAdvanced Spaceborne Thermal Emission and Reflection RadiometerGeologyApatiteMineralogyGeologic mapRemote sensingOutcropGeochemistryPrincipal component analysisMonaziteGeomorphologyComputer scienceZirconDigital elevation modelMantle (geology)Artificial intelligenceGeochemistry and Geologic MappingRadioactivity and Radon MeasurementsRemote-Sensing Image Classification