CHEMICAL FRACTIONATION OF SOIL ZINC AND ITS SPECIFIC AND TOTAL ADSORPTION BY EGYPTIAN ALLUVIAL SOILS

The Zn contents of twenty-nine alluvial soils from Egypt were chemically fractionated into: water soluble+exchangeable, weakly bound to inorganic sites, organically bound, occluded as free oxide material, and residual mainly in the mineral structure. On the average these fractions constituted about 0.01, 1.20, 28.6, 21.5 and 45.5% of the total soil Zn respectively which averaged 76.25 ppm. Significant correlations were obtained between each individual Zn-fraction and some soil variable. Zinc adsorption isotherms were developed for seven soils suspended in dilute ZnCl2 solution in the presence of either 0.05 M CaCl2 solution (Specific adsorption) or deionized water (Total adsorption). The Langmuir constants (adsorption maximum and bonding energy) were calculated. The average value of specific adsorption maximum was 1.94 mg Zn/g soil and of total adsorption maxima was 11.54 mg Zn/g soil. Correlation analysis showed that CEC, free Fe2O3 and clay content were the dominant soil variables contributing towards specific Zn adsorption. The (Zn) (OH)2 ion concentration products in the solutions when Zn adsorption corresponded to the Langmuir adsorption maxima were 0.92×10-17 in the specific adsorption treatment, and 1.35×10-15 in the total adsorption treatment. These values are within the solubility range of Zn (OH)2 and ZnCO3. The values of Langmuir bonding energy constants showed that Zn was more strongly adsorbed by low carbonate or carbonate-free soils than by carbonate-rich soils. © 1979 Martinus Nijhoff Publishers.