Isolation and characterization of different plant associated bacteria and their potential to degrade polychlorinated biphenyls

Abstract

In our experiments the effect of different plants on microbial activities resulting in degradation and PCB removal from long-term contaminated soil was evaluated. Total bacteria and bacteria representing the dominating microflora within rhizosphere of individual plant species – tobacco ( Nicotiana tabacum), black nightshade ( Solanum nigrum), horseradish ( Armoracia rusticana) and goat willow ( Salix caprea) planted in PCB contaminated soil as well as from the same, but non-vegetated PCBs soil, were isolated and biochemically characterized. PCB bacterial degraders, stimulated by root exudates of individual plants, were detected after isolation from rhizosphere soil and precultivation on minimal medium with biphenyl as the sole carbon source. Detection of BphA1 gene (first gene of bacterial aerobic PCB degradative pathway) in genomes of rhizosphere microorganisms was performed by nested PCR technique using previously designed specific primers. Rhizosphere of individual plants contained different bacterial species, mostly gram-negative non-fermenting bacteria of Pseudomonas, Agrobacterium, Ochrobactrum and other species. Gene BphA1 was identified in genome of only several of them. From tested species, S. caprea and A. rusticana have shown to be promising candidates for rhizoremediation purposes.