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Composition and applied sedimentology of salt from brines of the Mamfe Basin, Cameroon
Authors:E. Eseme   P.A. Abanda   C.M. Agyingi   J. Foba-Tendo  R.E. Hannigan
Affiliation:aInstitute of Geology and Geochemistry of Petroleum and Coal, RWTH Aachen University, Lochnerstr. 4-20, D52056, Aachen, Germany;bDepartment of Chemistry and Physics, Arkansas State University, P.O.Box 419, State University, AR 72467, USA;cDepartment of Geology and Environmental Science, University of Buea, P.O.Box 63, Buea, Cameroon;dDepartment of Chemistry, University of Buea, P.O.Box 63, Buea, Cameroon
Abstract:Salts produced using brines of the Mamfe Basin were analysed by XRD for their mineral composition and ICP-MS for minor element composition. Halite (NaCl) and dolomite (CaMg (CO3)2) constitute the major minerals with minor impurities from Mo and Cd in the chlorides and Sc and Cu in the carbonates. The mineral composition is evidence of dissolution of evaporites with parent brine of marine origin. Other elements analysed are suggested to be adsorbed to these salts and result from water–rock interaction. The elements partitioned based on their correlation to other elements are suggested to derive from sulphates including barite for Ba, sulphides for Pb, Zn, silicates for Zr, Mn and oxides for V, Cr. The electrical conductance of the brines is related to the salt yield by the equation; M = 9 × 10− 4E− 3.27, and it can be used to estimate salt yield throughout the year. Over 1200 tons of salt consisting dominantly of grade I halite are lost annually as brines across the basin. Purification is required for some minor elements including Ba, Pb, Hg and Cd for use as a condiment. A genetic relation between the parent brine, sulphide minerals and organic matter-rich sediments is proposed.
Keywords:Salt   Composition   Provenance   Applied sedimentology
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