Development of a treatment solution for reductive dechlorination of hexachloro-1,3-butadiene in vadose zone soil

Lachlan H. Yee, Southern Cross University
Vibeke Aagaard, University of New South Wales
Angela Johnstone, University of New South Wales
Matthew Lee, University of New South Wales
Staffan J. Kjelleberg, University of New South Wales
Michael Manefield, University of New South Wales

Abstract

The biodegradation of chlorinated organics in vadose zone soils is challenging owing to the presence of oxygen, which inhibits reductive dehalogenation reactions and consequently the growth of dehalorespiring microbes. In addition, the hydraulic conductivity of vadose zone soils is typically high, hence attempts to remediate such zones with biostimulation solutions are often unsuccessful due to the short residence times for these solutions to act upon the native bacterial community. In this study we have identified sodium alginate as a hydrogel polymer that can be used to increase the residence time of a nutrient solution in an unsaturated sandy soil. Additionally we have identified neutral red as a redox active compound that can catalyse the reductive dechlorination of the chlorinated organic hexachloro-1,3-butadiene by activated sludge fed with lactate and acetate. Finally we have shown that a nutrient solution amended with neutral red and sodium alginate can lower the redox potential and reduce hexachloro-1,3-butadiene concentrations in a contaminated vadose zone soil. © 2010 Springer Science+Business Media B.V.