%0 Journal Article
%T Implications of Non-Carbonate Dolomite Minerals in the Formation of Red Soils in a Paleokarstic Context in the Taoudeni Basin in Burkina Faso
%A Fid¨¨le Kabor¨¦
%A Gounwendmanaghr¨¦ Hubert Zongo
%A Bright Fafali Dogbey
%A Korodjouma Ouattara
%A Younoussa Millogo
%A Limata Kabor¨¦
%A Edmond Hien
%A Prosper N. Zombr¨¦
%J Open Journal of Soil Science
%P 59-71
%@ 2162-5379
%D 2021
%I Scientific Research Publishing
%R 10.4236/ojss.2021.112004
%X Uncertainties remain as to the ability of certain carbonate rocks to form the red soils covering them. These doubts, which have been the subject of debate for several decades, become real when carbonate rocks are pure and low in insoluble residues. In the carbonate rocks of the Taoudeni basin in Burkina Faso, brown-red to red soils develop, at the top of hillsides and in karstic cavities. No study in the region has yet shown the existence in these carbonate rocks of sufficient insolubles to form soils after decalcification. The objective of this study was therefore to identify and quantify the minerals of carbonate rocks in order to identify the origin of red soils. Petrographic, chemical (XRF) and mineralogical (XRD) investigations on dominant carbonate rocks features in the study area show that the rocks studied are mainly magnesian dolomites (Dolomite > 50% of carbonate minerals and Ca/Mg ratio < 1.5). Non-carbonate residues from detrital and hydrothermal origin, negligible in certain pure dolomites (<2%), are on the other hand significant (>12%) in other dolomitic features. These insoluble silicates formed of quartz, potassium feldspar (orthoclase), clays (talc, phlogopite and kaolinite) and iron oxides constitute the main original material of reddened soils in karstic cavities.
%K Dolostone
%K Mineralogy
%K Parent Material
%K Alteration
%K Rubification
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=107208