1. B. Basak, B. Bhunia, S. Dutta, S. Chakraborty, A. Dey, Kinetics of phenol biodegradation at high concentration by a metabolically versatile isolated yeast Candida tropicalis PHB5, Environ. Sci. Pollut. R., 21 (2014) 1444–1454.
  2. M.R.L. Bonfa, M.J. Grossman, F. Piubeli, E. Mellado, L.R. Durrant, Phenol degradation by halophilic bacteria isolated from hyper saline environments, Biodegradation, 24 (2013) 699–709.
  3. M. Karimi, M. Hassanshahian, Isolation and characterization of phenol degrading yeasts from wastewater in the coking plant of Zarand, Kerman, Braz. J. Microbiol., 47 (2016) 18–24.
  4. J. Nesvera, L. Rucka, M. Patek, Catabolism of phenol and its derivatives in bacteria: genes, their regulation, and use in the biodegradation of toxic pollutants, Adv. Appl. Microbiol., 93 (2015) 107–150.
  5. Y. Zhang, J. Tay, Toxic and inhibitory effects of trichloroethylene aerobic co-metabolism on phenol-grown aerobic granules, J. Hazard. Mater., 286 (2015) 204–210.
  6. S. Bera, A.S. Roy, K. Mohanty, Biodegradation of phenol by a native mixed bacterial culture isolated from crude oil contaminated site, Int. Biodeter. Biodegr., 121 (2017) 107–113.
  7. Y. Cui, X.Y. Liu, T.S. Chung, M. Weber, C. Staudt, C. Maletzko, Removal of organic micro-pollutants (phenol, aniline and nitrobenzene) via forward osmosis (FO) process: Evaluation of FO as an alternative method to reverse osmosis (RO), Water Res., 91 (2016) 104–114.
  8. J. Wang, Z. Yao, Y. Wang, Q. Xia, H. Chu, Z. Jiang, Preparation of immobilized coating Fenton-like catalyst for high efficient degradation of phenol, Environ. Pollut., 224 (2017) 552–558.
  9. Y. Jiang, K. Yang, H. Wang, Y. Shang, X. Yang, Characteristics of phenol degradation in saline conditions of a halophilic strain JS3 isolated from industrial activated sludge, Mar. Pollut Bull., 99 (2015) 230–234.
  10. W.S. Shin, Adsorption characteristics of phenol and heavy metals on biochar from Hizikia fusiformis, Environ. Earth Sci., 76 (2017) 782.
  11. P.M. Fernández, M.M. Martorell, M.G. Blaser, L.A. Ruberto, L.I.Figueroa, W.P.M. Cormack, Phenol degradation and heavy metal tolerance of Antarctic yeasts, Extremophiles, 21 (2017) 445–457.
  12. T. Aman, A.A. Kazi, M.U. Sabri, Q. Bano, Potato peels as solid waste for the removal of heavy metal copper (II) from waste water/industrial effluent, Colloids Surf B, 63 (2008) 116–121.
  13. H. Aydm, Y. Bulut, C. Yerlikaya, Removal of copper (II) from aqueous solution by adsorption onto low-cost adsorbents, J. Environ. Manag., 87 (2008) 37–45.
  14. L. Martínkov, M. Kotik, E. Markov, L. Homolka, Biodegradation of phenolic compounds by Basidiomycota and its phenol oxidases: A review, Chemosphere, 149 (2016) 373–382.
  15. J.Q. Sun, L. Xu, Y.Q. Tang, F.M. Chen, X.L. Wu, Simultaneous degradation of phenol and n-hexadecane by Acinetobacter strains, Bioresour. Technol., 123 (2012) 664–668.
  16. L. Wang, C. Xue, L. Wang, Q. Zhao, W. Wei, Y. Sun, Strain improvement of Chlorella sp. for phenol biodegradation by adaptive laboratory evolution, Biores. Technol., 205 (2016) 264– 268.
  17. H.P. Bacosa, K. Suto, C. Inoue, Bacterial community dynamics during the preferential degradation of aromatic hydro carbons by a microbial consortium, Int. Biodeter. Biodegr., 74 (2012) 109–115.
  18. S.K.F. Marashi, H.R. Kariminia, I.S. Savizi, Bimodal electricity generation and aromatic compounds removal from purified terephthalic acid plant wastewater in a microbial fuel cell, Biotechnol. Lett., 35 (2013) 197–203.
  19. S. Shi, Y. Qu, Q. Ma, X.W. Zhang, J. Zhou, F. Ma, Performance and microbial community dynamics in bioaugmented aerated filter reactor treating with coking wastewater, Bioresour. Technol., 190 (2015) 159–166.
  20. M.G. Waigi, F. Kang, C. Goikavi, W. Ling, Y. Gao, Phenanthrene biodegradation by sphingomonads and its application in the contaminated soils and sediments: A review, Int, Biodeter, Biodegr., 104 (2015) 333–349.
  21. M.T. García, A. Ventosa, E. Mellado, Catabolic versatility of aromatic compound-degrading halophilic bacteria, FEMS Microbiol Ecol., 54 (2006) 97–109.
  22. Y.Q. Xu, X. Fang, M. Chen, W. Zhang, J.M. Li, M. Lin. The detection of phenol degrading strain in environment with specific primer of phenol hydroxyl asegene, Acta Microbiol Sinica., 41 (2001) 298–303.
  23. APHA, Standard methods for the examination of water andwaste water, 20th ed. American Public Health Association, Washington DC, 2005.