Reductive degradation of p,p'-DDT by Fe(II) in nontronite NAu-2
Fialips, Claire I. (Newcastle University. School of Civil Engineering and Geosciences)
Cooper, Nicola G. A. (Newcastle University. School of Civil Engineering and Geosciences)
Jones, D. Martin (Newcastle University. School of Civil Engineering and Geosciences)
White, Maggie L. (Newcastle University. School of Civil Engineering and Geosciences)
Gray, Neil D. (Newcastle University. School of Civil Engineering and Geosciences)

Date:	2010
Abstract:	Clay minerals are abundant in soils and sediments and often contain Fe. Some varieties, such as nontronites, contain as much as 40 wt. % FeO within their molecular structure. Several studies have shown that various Fe-reducing micro-organisms can use ferric iron in Fe-bearing clay minerals as their terminal electron acceptor, thereby reducing it to ferrous iron. Laboratory experiments have also demonstrated that chemically or bacterially reduced clays can promote the reductive degradation of various organics, including chlorinated pesticides and nitroaromatics. Therefore, Fe-bearing clays may play a crucial role in the natural attenuation of various redox-sensitive contaminants in soils and sediments. Although the organochlorinated pesticide p,p'-DDT is one of the most abundant and recalcitrant sources of contamination in many parts of the world, the impact of reduced Fe-bearing clays on its degradation has never been documented. The purpose of the present study was to evaluate the extent of degradation of p,p'-DDT during the bacterial reduction of Fe(III) in an Fe-rich clay. Microcosm experiments were conducted under anaerobicc onditions using nontronite (sample NAu-2) spiked with p,p'-DDT and the metal-reducing bacteria Shewanella oneidensis MR-1. Similar experiments were conducted using a sand sample to better ascertain the true impact of the clay vs. the bacteria on the degradation of DDT. Samples were analyzed for DDT and degradation products after 0, 3, and 6 weeks of incubation at 30C. Results revealed a progressive decrease in p,p'-DDT and increase in p,p'-DDD concentrations in the clay experiments compared to sand and abiotic controls, indicating that Fe-bearing clays may substantially contribute toward the reductive degradation of DDT in soils and sediments. These new findings further demonstrate the impact that clay materials can have on the natural attenuation of pollutants in natural and artificial systems and open new avenues for the passive treatment of contaminated land.
Rights:	Tots els drets reservats.
Language:	Anglès
Document:	Article ; recerca ; Versió publicada
Subject:	DDT ; Fe-bearing clay ; Fe-reducing bacteria ; Nontronite NAu-2 ; Organochlorinated pesticide ; Reductive degradation ; Shewanella oneidensis MR-1
Published in:	Clays and Clay Minerals, Vol. 58, Núm. 6 (2010) , p. 821-836, ISSN 1552-8367

DOI: 10.1346/CCMN.2010.0580610

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