References

  1. P. Monda, C.B. Majumder, B. Mohanty, Effects of adsorbent dose, its particle size and initial arsenic concentration on the removal of arsenic, iron and manganese from simulated ground water by Fe3+ impregnated activated carbon, J. Hazard. Mater., 150 (2008) 695–702.
  2. A.A. Duker, EJ.M. Carranza, M. Hale, Arsenic geochemistry and health, Environ Int., 31 (2005) 631–641.
  3. S. Amna, M. Qaisar, B. Muhammad, Investigation on Melia azedarach biomass for arsenic remediation from contaminated water, Desal. Wat. Treat., 53 (2015) 1632–1640.
  4. A.A. Najafpoor, H. Alidadi, H. Esmaeili, Optimization of anionic dye adsorption onto Melia azedarach sawdust in aqueous solutions: effect of calcium cations, Asia-Pacific J. Chem. Eng., 11 (2016) 258–270.
  5. V. Gupta, Application of low-cost adsorbents for dye removal – a review, J. Environ. Manage., 90 (2009) 2313–2342.
  6. M.M. Biswas, K.E. Taylor, J.K. Bewtra, N. Biswas, Enzymatic treatment of sulfonated aromatic amines generated from reductive degradation of reactive azo dyes, Water Environ. Res., 79 (2007) 351–356.
  7. M.R. Sohrabi, A. Khavaran, S. Shariati, S. Shariati, Removal of Carmoisine edible dye by Fenton and photo Fenton processes using Taguchi orthogonal array design, Arabian J. Chem., 10 (2017) S3523–S3531.
  8. M.H. Ehrampoush, A. Sadeghi, Z. Bonyadi, Optimization of diazinon biodegradation from aqueous solutions by Saccharomyces cerevisiae using response surface methodology, AMB Express, 7 (2017) 68.
  9. R. Wauchope, The pesticide content of surface water draining from agricultural fields – a review, J. Environ. Qual., 7 (1978) 459–472.
  10. J.P. Jadhav, G.K. Parshetti, S.D. Kalme, S.P. Govindwar, Decolourization of azo dye methyl red by Saccharomyces cerevisiae MTCC 463, Chemosphere, 68 (2007) 394–400.
  11. N. George, C.P. Singh, S. Sondhi, Biodegradation and analytical methods for detection of organophosphorous pesticide: chlorpyrifos, Int. J. Pure Appl. Sci. Technol., 20 (2014) 79–94.
  12. R.A. Peinado, J.J. Morenoa, Yeast biocapsules: a new immobilization method and their applications, Enzyme Microb. Technol., 40 (2006) 6.
  13. W. Dieter, Mutagenicity studies on organophosphorus insecticides, Mutat. Res., 32 (1975) 133–150.
  14. T.D. Kristina, T. Polonca, S. David, Microorganisms trigger chemical degradation of diazinon, Int. Biodeterior. Biodegrad., 62 (2008) 293–296.
  15. B. Abasalt, N.F. Ghazal, J. Pouran, Cleaning from the inside: biodegradation of organophosphate pesticides by Pseudomonas plecoglossicida, Biotechnol. Health Sci. 1 (2014) e19193.
  16. G. McMullan, C. Meehan, A. Conneely, Microbial decolorization and degradation of textiles dyes, Appl. Microbiol. Biotechnol., 51 (2001) 81–87.
  17. D.W. Sparling, G. Fellers, Comparative toxicity of chlorpyrifos, diazinon, malathion and their oxon derivatives to larval Rana boylii, Environ. Pollut. 147 (2007) 535–539.
  18. B.K. Shanmugam, S. Mahadevan, Metabolism and biotransformation of azo dye by bacterial consortium studied in a bioreaction calorimeter, Bioresour. Technol., 196 (2015) 500–508.
  19. Ö. Özşen, İ. Kıran, İ. Dağ, F. Demirci, Biotransformation of abietic acid by fungi and biological evaluation of its metabolites, Process Biochem., 52 (2017) 130–140.
  20. M.S. Mahmoud, Decolorization of certain reactive dye from aqueous solution using Baker’s Yeast (Saccharomyces cerevisiae) strain, HBRC J., 12 (2016) 88–98.
  21. A. Sadeghi, M. Dolatabadi, S.N. Asadzadeh, Ability of the yeast Saccharomyces cerevisiae for biological removal of ciprofloxacin antibiotic in aqueous solution, J. North Khorasan Univ., 7 (2015) 71–79.
  22. Y.F. Joseph, S.E.G. Nour, Performance and kinetic studies on biosorption of Astrazon Blue dye by dried biomass of Baker’s yeast as a low cost biosorbent, Biosci. Biotechnol. Res. Asia, 4 (2017) 359–370.
  23. S.M. Ahmed, I. Fawzia, N.S. El-Gendy, A kinetic study for the removal of anionic sulphonated dye from aqueous solution using nano-polyaniline and Baker’s yeast, Arabian J. Chem., 9 (2016) S1721-S1728.
  24. I. Muhammad, E.C. David, K. Azeem, Microbial biotechnology for decolorization of textile wastewaters, Rev. Environ. Sci. Biotechnol., 14 (2015) 73–92.