Arsenic Speciation in As(III)- and As(V)-Treated Soil Using XANES Spectroscopy

摘要

Arsenic (As) is a toxic trace element that occurs naturally in groundwater and soils.Understanding the reactions of arsenite (As(III)) and arsenate (As(V)) with soil and mineral surfaces is critical for predicting the fate and transport of As in the environment and developing better ways to remediate As-contaminated areas.This investigation uses X-ray absorption near edge spectroscopy (XANES) to evaluate the solid phase oxidation state and mineral surface binding sites in three agricultural soil samples from California,USA by fitting linear combinations of XANES spectra derived from several synthetic and well characterized As(III)- and As(V)-treated model compounds (Fe and Al metal hydroxides and alumi-nosilicate illite clay mineral).The results suggest that As(III) is either partially or completely oxidized to As(V) when reacted with soil in an aqueous,batch reaction.The As(III)-treated Aiken soil was composed of 60% As(III) attached to surfaces similar to lepido-crocite (gamma-FeOOH)) and 40% As(V) attached to alu-minosilicate (illite).The Fallbrook soil completely oxidized As(III) and the product was As(V) adsorbed on Al hydroxide (gibbsite,gamma-Al(OH)_3) (62%),illite (16%),and lepidocrocite (gamma-FeOOH) (22%).The reaction of As(III) with Wyo soil resulted in 42% As(III) adsorbed on surface similar to goethite and 58% As(V) adsorbed on lepidocrocite.Arsenic(V) adsorption on soil resulted in stable As(V) surface complexes that were well described by XANES spectra from As(V) adsorption complexes on gibbsite,illite,and lepidocrocite.