Polychlorinated Biphenyl (PCB)-Degrading Bacteria Associated with Trees in a PCB-Contaminated Site

Abstract: The abundance, identities, and degradation abilities of indigenous polychlorinated biphenyl (PCB)-degrading bacteria associated with five species of mature trees growing naturally in a contaminated site were investigated to identify plants that enhance the microbial PCB degradation potential in soil. Culturable PCB degraders were associated with every plant species examined in both the rhizosphere and root zone, which was defined as the bulk soil in which the plant was rooted. Significantly higher numbers of P… Show more

“…However, similarly to our study, Leigh et al (2006) found naturally occurring PCB degraders in significantly higher numbers in the rhizosphere of several plant species compared to soil (PCB contaminated site).…”

“…Microbial degradation of PCBs in contaminated soil has been the subject of extensive research (Furukawa and Matsumura 1976;Unterman 1988;Leigh et al 2006). In the environment, PCBs may be degraded by aerobic bacteria through the biphenyl catabolic pathway, following a cometabolic process (Seeger et al 1995;Abramowicz 1990).…”

“…Rhodococci, such as Rhodococcus sp. strain RHA1, are known to be effective PCB degraders surviving well in soil (Masai et al 1995, Seto et al 1995, Leigh et al 2006. Furthermore, many studies centred on Burkholderia sp.…”

“…However, the practical importance of such procedures is limited due to technical difficulties (repeated application) or the potential toxicity and low water solubility of biostimulating substances such as biphenyl (e.g. Leigh et al 2006). An alternative solution might be to insert the bph genes encoding the biphenyl pathway into a bacterial host with high survival capability in specific soil compartments.…”

“…Thus, rhizoremediation, i.e. the use of microbes in conjunction with plants, is a promising bioremediation strategy (Trapp and Karlson 2001;Leigh et al 2006;Yee et al 1998). Consequently, efforts were undertaken to expand the degradation capacities of rhizospherecompetent bacteria (Villacieros et al 2005;Brazil et al 1995;Yee et al 1998).…”

Degradation of PCB congeners by bacterial strains

“…However, similarly to our study, Leigh et al (2006) found naturally occurring PCB degraders in significantly higher numbers in the rhizosphere of several plant species compared to soil (PCB contaminated site).…”

“…Microbial degradation of PCBs in contaminated soil has been the subject of extensive research (Furukawa and Matsumura 1976;Unterman 1988;Leigh et al 2006). In the environment, PCBs may be degraded by aerobic bacteria through the biphenyl catabolic pathway, following a cometabolic process (Seeger et al 1995;Abramowicz 1990).…”

“…Rhodococci, such as Rhodococcus sp. strain RHA1, are known to be effective PCB degraders surviving well in soil (Masai et al 1995, Seto et al 1995, Leigh et al 2006. Furthermore, many studies centred on Burkholderia sp.…”

“…However, the practical importance of such procedures is limited due to technical difficulties (repeated application) or the potential toxicity and low water solubility of biostimulating substances such as biphenyl (e.g. Leigh et al 2006). An alternative solution might be to insert the bph genes encoding the biphenyl pathway into a bacterial host with high survival capability in specific soil compartments.…”

“…Thus, rhizoremediation, i.e. the use of microbes in conjunction with plants, is a promising bioremediation strategy (Trapp and Karlson 2001;Leigh et al 2006;Yee et al 1998). Consequently, efforts were undertaken to expand the degradation capacities of rhizospherecompetent bacteria (Villacieros et al 2005;Brazil et al 1995;Yee et al 1998).…”

Degradation of PCB congeners by bacterial strains

Abiotic and Biotic Factors Affecting the Fate of Organic Pollutants in Soils and Sediments

Rhizobacteria‐Mediated Bioremediation