Fortschritte in der angewandten Wissenschaftsforschung Offener Zugang

Abstrakt

Fluoride dynamics in the weathered mantle and the saprolitic zone of the Purulia district, West Bengal

Dali Mondal, Srimanta Gupta and Anindita Mahato

Present research work undertakes fluoride (F-) hydrogeochemistry in the unconfined aquifer of Purulia (Block II) integrated with geospatial approach. Based on the geospatial analysis, it has been observed that high F- in groundwater mainly occurs in the formation having a litho-assemblage of saprolitic zone between fractured granite gneiss and weathered mantle. Groundwater with high F- concentration is mainly associated with Ca-Cl, Mixed Ca- Mg-Cl indicating dominance of evaporation effect. Positive correlation with pH, HCO3 - and Na+ indicates dissolution of fluoride bearing mineral such as fluorite is the main responsible mineral for F- contamination. PHREEQCI geochemical modeling also indicates that F- in groundwater can be increased as a result of precipitation of CaCO3, CaMg(CO3)2 and CaSO4, 2H2O at high pH, which removes Ca2+ from solution allowing more fluorite to dissolve. Since the increase in Na+ concentration increases the solubility of F- bearing minerals, the geochemical processes leading to increase in Na+ and decrease in Ca2+ concentrations play an important role in Fenrichment in groundwater. Apart from fluorite dissolution cation exchange (Na+ for Ca2+) accompanied with anion exchange (OH- for F-) may also be the important processes by which muscovite and biotite minerals (containing fluorine at the OH- sites) may contribute to F- enrichment in groundwater

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