The effects of white-rot fungi Trametes versicolor and Bjerkandera adusta on microbial community structure and functional genes during the bioaugmentation process following biostimulation practice of petroleum contaminated soil

Abstract

Current study investigated the ability of Trametes versicolor and Bjerkandera adusta fungi in biodegradation of petroleum residues in oil contaminated soil as a post-treatment method following biostimulation practice. The effects of mentioned fungi on the indigenous microbial community and the expression level of alkB, phnAc and nah functional genes by bacterial community have been evaluated. Illumina sequencing was used to identify the dominant microbial strains in the petroleum contaminated soil. Quantitative real time PCR was used to evaluate the microbial community structure and changes of the expression of the studied functional genes throughout post-treatment process. During the biodegradation experiment, T. versicolor was more efficient than B. adusta. In the presence of T. versicolor and B. adusta, the expression level of alkB gene was not increased but nah and phnAc genes were increased in the setups with high concentrations of petroleum hydrocarbons and nutrients, however, the quantities of active bacterial cells, gram-negative and gram-positive bacteria were not changed significantly during fungal pretreatment when autochthonous fungi were present. (C) 2016 Elsevier Ltd. All rights reserved.