Effect of aluminium and copper on biofilm development of Pseudomonas pseudoalcaligenesKF707 and P. fluorescensas a function of different media compositions

Bioremediation efforts worldwide are faced with the problem of metals interfering with the degradation of organic pollutants. There has been little systematic investigation into how the important environmental factors of media composition, buffering agent, and carbon source affect the exertion of me...

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Bibliographic Details
Published in:Metallomics 2013-05, Vol.5 (6), p.723-735
Main Authors: Booth, Sean C, George, Iain FS, Zannoni, Davide, Cappelletti, Martina, Duggan, Gavin E, Ceri, Howard, Turner, Raymond J
Format: Article
Language:English
Subjects:
Pseudomonas
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Summary:Bioremediation efforts worldwide are faced with the problem of metals interfering with the degradation of organic pollutants. There has been little systematic investigation into how the important environmental factors of media composition, buffering agent, and carbon source affect the exertion of metal toxicity on bacteria. This study aimed to systematically separate and investigate the influence of these factors by examining planktonic and biofilm establishment and growth. Two Pseudomonadswere chosen, the PCB degrader P. pseudoalcaligenesKF707 and P. fluorescens. The two strains were grown in the presence of Al super(3+) and Cu super(2+) under different media conditions of carbon source (Lysogeny broth, biphenyl, succinate, aspartic acid, butyric acid, oxaloacetic acid, putrescine and benzoic acid) and under different buffering conditions (high and low phosphate or MOPS). These experiments allowed for the elucidation of an effect of different metabolic conditions and metal speciation on planktonic bacteria growth and biofilm establishment and development under metal stress. Here we show that the nature of bacterial growth (planktonic and biofilm development) is dramatically affected by the interplay between toxic metals, carbon source and media composition. The capacity of a media to bind toxic metals as well as quality of carbon source greatly influences the amount of metal that bacteria can tolerate, depending on both the bacterium and metal. Future studies evaluating metal ion toxicity should consider these effects, as well as their interactions with specific environments into account in order to improve clean-up success.
ISSN:1756-5901
1756-591X
DOI:10.1039/c3mt20240b