Molecules (Aug 2020)

Biodegradation of Phenol by <i>Rhodococcus</i> sp. Strain SKC: Characterization and Kinetics Study

  • Yujuan Wen,
  • Chaofan Li,
  • Xiaoming Song,
  • Yuesuo Yang

DOI
https://doi.org/10.3390/molecules25163665
Journal volume & issue
Vol. 25, no. 16
p. 3665

Abstract

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This study focuses on the kinetics of a pure strain of bacterium Rhodococcus sp. SKC, isolated from phenol-contaminated soil, for the biodegradation of phenol as its sole carbon and energy source in aqueous medium. The kinetics of phenol biodegradation including the lag phase, the maximum phenol degradation rate, maximum growth rate (Rm) and maximum yield coefficient (Y) for each Si (initial phenol concentration, mg/L) were fitted using the Gompertz and Haldane models of substrate inhibition (R2 > 0.9904, RMSE μmax = 0.30 h−1, Ks = 36.40 mg/L, and Ki = 418.79 mg/L, and that means the inhibition concentration of phenol was 418.79 mg/L. By comparing with other strains of bacteria, Rhodococcus sp. SKC exhibited a high yield factor and tolerance towards phenol. This study demonstrates the potential application of Rhodococcus sp. SKC for the bioremediation of phenol contaminate.

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