Selenite adsorption mechanisms on pure and coated montmorillonite: An EXAFS and XANES spectroscopic study

Selenite (Se-3(2-)) is an oxyanion of environmental importance due to its toxicity to animals at higher concentrations, notably waterfowl and grazing animals. Sorption of SeO32- with mineral phases typically controls the movement and bioaccessibility of SeO32- in soils and sediments. Previous studies have successfully utilized synchrotron1, Absorption Fine Structure (EXAF based Extended X-ra - S) and X-ray Absorption Near Edge Structure (XANES) spectroscopy to determine SeO32- bonding mechanisms oil Fe and Mn oxides, but the direct evidence of SeO32- surface complexation mechanisms on important mineral phases such as At hydroxide and aluminosilicate minerals Is still lacking. In this study both EXAFS and XANES spectroscopy was conducted on aqueous SeO32- solutions and on a variety of Al-bearing sorption samples at pH 4.5. The sorbents chosen were a hydroxyaluminosilicate (HAS) polymer, a hydroxyaluminum (HYA) polymer, montmorillonite, and both HYA and HAS coated montruorillonite. For SeO32 sorption on montmorillonite, only bidentate binuclear innersphere complexation was observed. For the hydroxyaluminum and hydroxyaluminosilicate polymers, a mixture of outer-sphere and bidentate binuclear inner-sphere was observed. When montmorillonite was coated with either HYA or HAS polymers; then adsorption behavior was intermediate between that of the mineral and the pure polymer. Since temperate soils often contain aluminum-hydroxy and aluminosilicate coated minerals rather than discrete Al hydroxide minerals and pristine clay surfaces, the adsorption mechanisms observed oil these coated surfaces are more realistic of the natural environment than sorption on pure minerals.