Nanoscale zerovalent iron alters soil bacterial community structure and inhibits chloroaromatic biodegradation potential in Aroclor 1242-contaminated soil

Tilston, Emma L.; Collins, Chris D.; Mitchell, Geoffrey R.; Princivalle, Jessica; Shaw, Liz J.

Nanoscale zerovalent iron alters soil bacterial community structure and inhibits chloroaromatic biodegradation potential in Aroclor 1242-contaminated soil

2013

Tilston, Emma L. | Collins, Chris D. | Mitchell, Geoffrey R. | Princivalle, Jessica | Shaw, Liz J.

Nanoscale zerovalent iron (nZVI) has potential for the remediation of organochlorine-contaminated environments. Environmental safety concerns associated with in situ deployment of nZVI include potential negative impacts on indigenous microbes whose biodegradative functions could contribute to contaminant remediation. With respect to a two-step polychlorinated biphenyl remediation scenario comprising nZVI dechlorination followed by aerobic biodegradation, we examined the effect of polyacrylic acid (PAA)-coated nZVI (mean diameter = 12.5 nm) applied at 10 g nZVI kg−1 to Aroclor-1242 contaminated and uncontaminated soil over 28 days. nZVI had a limited effect on Aroclor congener profiles, but, either directly or indirectly via changes to soil physico-chemical conditions (pH, Eh), nZVI addition caused perturbation to soil bacterial community composition, and reduced the activity of chloroaromatic mineralizing microorganisms. We conclude that nZVI addition has the potential to inhibit microbial functions that could be important for PCB remediation strategies combining nZVI treatment and biodegradation.

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AGROVOC Keywords

analysis bacteria biodegradation biodegradation biodegradation chemistry dechlorination iron iron metabolism mineralization nanoparticles physicochemical properties polychlorinated biphenyls polychlorinated biphenyls polychlorinated biphenyls soil soil soil bacteria soil pollutants toxicity

Bibliographic information

Published in

Environmental pollution

Volume 173 Pagination 38 - 46 ISSN 0269-7491

Publisher

Elsevier Ltd

Other Subjects

Drug effects; Community structure; Bacterial community structure; Environmental; Growth & development; Metal nanoparticles; Zerovalent iron; Polyacrylic acid; Aroclors; Remediation

Language

English

Type

Journal Article; Text

In AGRIS since: 2024-02-27

Format: MODS

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Links

DOI DOI http://dx.doi.org/10.1016/j.envpol.2012.09.018

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