Geochemical Evaluation of the in-situ regolith of Madengi hills of Dodoma, Tanzania. Implication on bedrock mapping and delineating gold mineralization target
Posted on 24.11.2021 - 09:21
Successful gold exploration projects depend on a piece of clear information on the association between gold, trace elements, and mineralization controlling factors. The use of soil geochemistry has been an important tool in pinpointing exploration targets during the early stage of exploration. This study aimed to establish the gold distribution, the elemental association between gold and its pathfinder elements such as Cu, Zn, Ag, Ni, Co, Mn, Fe, Cd, V, Cr, Ti, Sc, In, and Se and identify lithologies contributing to the overlying residual soils. From cluster analysis, a high similarity level of 53.93% has been shown with Ag, Cd, and Se at a distance level of 0.92. Au and Se have a similarity level of 65.87% and a distance level of 0.68, hence is proposed to be the most promising pathfinder element. PCA, FA, and the Pearsonâ€™s correlation matrix of transformed data of V, Cu, Ni, Fe, Mn, Cr, and Co and a stronger correlation between Pb and U, Th, Na, K, Sn, Y, Ta and Be shows that source gold mineralization might be associated with both hornblende gneisses interlayered with quartzite, tonalite, and tonalitic orthogneiss. From the contour map and gridded map of Au and its pathfinder elements, it has been noted that their anomalies and target generated are localized in the Northern part of the area. The targets trend ESE to WNW nearly parallel to the shear zones as a controlling factor of Au mineralization emplacement.
CITE THIS COLLECTION
Godfrey, Godson (2021): Geochemical Evaluation of the in-situ regolith of Madengi hills of Dodoma, Tanzania. Implication on bedrock mapping and delineating gold mineralization target. Geological Society of London. Collection. https://doi.org/10.6084/m9.figshare.c.5721965.v1
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ORCID FOR SUBMITTING AUTHOR(s)
wnw nearly paralleltargets trend eseoverlying residual soilsidentify lithologies contributinghornblende gneisses interlayeredpromising pathfinder elementmineralization controlling factorspinpointing exploration targetsau mineralization emplacementhigh similarity levelsimilarity levelpathfinder elementscontrolling factordistance leveltransformed datatrace elementstonalitic orthogneisstarget generatedstudy aimedstronger correlationsoil geochemistrysitu regolithshear zonespearsonâ €™northern partmadengi hillsimportant toolgridded mapgeochemical evaluationearly stagecorrelation matrixcontour mapcluster analysisclear informationbedrock mapping