Mineralogy and geochemical behaviour during weathering of greenstone belt under tropical dry conditions in the extreme North Cameroon (Central Africa) |
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Authors: | Jean Pierre Nguetnkam,Fredé ric Villié ras,Richard Kamga,Georges Emmanuel Ekodeck,Jacques Yvon |
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Affiliation: | 1. Département des Sciences de la Terre, Faculté des Sciences, Université de Ngaoundéré, BP 454 Ngaoundéré, Cameroun;2. Département de chimie Appliquée, Ecole Nationale Supérieure des Sciences agro-industrielles, Université de Ngaoundéré, BP 455 Ngaoundéré, Cameroun;3. Laboratoire Environnement et Minéralurgie, LEM - ENSG, Nancy université-CNRS, 15 avenue du Charmois, BP40, 545001 Vandoeuvre-lès-Nancy, France;4. Département des Sciences de la Terre, Faculté des Sciences, Université de Yaoundé I, BP 812 Yaoundé, Cameroun |
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Abstract: | Mineralogy, major, trace and rare earth elements of a weathering profile developed on tertiary greenstone belt in the extreme North Cameroon are reported. The aim of which was to investigate mineralogical evolution and element mobilization and redistribution during weathering under dry tropical climate. The weathering profile consists of four main horizons: (1) a spheroidal weathering zone constituted by a corestone–shell complex, (2) a C horizon, (3) a Bw horizon and an Ah horizon. The results indicate that nontronite, a Fe-rich smectite, is the exclusive clay mineral formed in the exfoliated shells and the C horizon. It is associated with kaolinite in the upper horizons. The coexistence of these two clay minerals induced a decrease of CEC and pH which becomes neutral. The weathering index (WI) values reveal that weathering becomes more and more intensive from the corestone up to Bw horizon, which is the most weathered horizon in the weathering profile. Mass balance calculations, using Th as immobile element, indicate that Ti is quite mobile and that Al and Fe are relatively enriched at the bottom and strongly leached at the top of the profile. Alkalis and alkaline earth elements are strong leached through out the profile, except Ca which displays similar trend as Al and Fe. The same goes for LILE (Cs, Sr), TTE (Cr, Co, Ni) and HSFE (Y, Nb, Hf). In opposite, REE are depleted at the bottom and enriched in the upper horizons, with more enrichment for LREE than for HREE. It appears that weathering of greenstone belt causes a fractionation of HREE and induces a concentration of LREEs. Ce and Eu anomalies display opposite behaviour. |
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Keywords: | Greenstone belt Dry tropical climate Weathering Nontronite Kaolinite Mass balance |
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