B33D-0727
Influence of Organic Matter – Mineral Interfacial Reactions on Metal(loid) Speciation and Bioaccessibility
Wednesday, 16 December 2015
Poster Hall (Moscone South)
Jon Chorover1, Shuqiong Kong1, Robert A Root2 and Andrew Thomas1, (1)University of Arizona, Soil, Water and Environmental Science, Tucson, AZ, United States, (2)University of Arizona, Tucson, AZ, United States
Abstract:
Bioaccessibility of contaminant metals in geomedia is often measured on the basis of kinetic release to solution during in vitro reaction with biofluid simulants. We postulate that development of a predictive-mechanistic understanding of bioaccessibility requires knowledge of metal(loid) molecular speciation upon sample introduction, as well as its change over the course of the in vitro reaction. Our results – including data from batch, column, mesocosm and field studies pertaining to arsenic, lead, and zinc contaminated materials – indicate the strong influence of organic matter and associated biological activity on metal(loid) speciation in mine tailings and related model systems. Furthermore, presence/absence of organic matter during bioassays affects the kinetics of metal(loid) release into biofluid simulants through multiple mechanisms.