1. Y.-W. Kim, J.-H. Kim, D.H. Moon, H.-J. Shin, Adsorption and precipitation of anionic dye Reactive Red 120 from aqueous solution by aminopropyl functionalized magnesium phyllosilicate, Korean J. Chem. Eng., 36 (2019) 101–108.
  2. M.S. Mahmoud, Decolorization of certain reactive dye from aqueous solution using Baker’s Yeast (Saccharomyces cerevisiae) strain, HBRC J., 12 (2016) 88–98.
  3. S. Boubakri, M.A. Djebbi, Z. Bouaziz, P. Namour, N. Jaffrezic-Renault, A.B.H. Amara, M. Trabelsi-Ayadi, I. Ghorbel-Abid, R. Kalfat, Removal of two anionic reactive textile dyes by adsorption into MgAl-layered double hydroxide in aqueous solutions, Environ. Sci. Pollut. Res., 25 (2018) 23817–23832.
  4. Ü.D. Gül, Treatment of dyeing wastewater including reactive dyes (Reactive Red RB, Reactive Black B, Remazol Blue) and Methylene Blue by fungal biomass, Water SA, 39 (2013) 593–598.
  5. M. Iqbal, M. Abbas, J. Nisar, A. Nazir, A.Z. Qamar, Bioassays based on higher plants as excellent dosimeters for ecotoxicity monitoring: a review, Chem. Int., 5 (2019) 1–80.
  6. M. Iqbal, M.Z. Ahmad, I.A. Bhatti, K. Qureshi, A. Khan, Cytotoxicity reduction of wastewater treated by advanced oxidation process, Chem. Int., 1 (2015) 53–59.
  7. G. Dilarri, É.J.R. de Almeida, H.B. Pecora, C.R. Corso, Removal of dye toxicity from an aqueous solution using an industrial strain of Saccharomyces cerevisiae (Meyen), Water Air Soil Pollut., 227 (2016) 269.
  8. M. Abbas, M. Adil, S. Ehtisham-ul-Haque, B. Munir, M. Yameen, A. Ghaffar, G.A. Shar, M.A. Tahir, M. Iqbal, Vibrio fischeri bioluminescence inhibition assay for ecotoxicity assessment: a review, Sci. Total Environ., 626 (2018) 1295–1309.
  9. M. Iqbal, J. Nisar, Cytotoxicity and mutagenicity evaluation of gamma radiation and hydrogen peroxide treated textile effluents using bioassays, J. Environ. Chem. Eng., 3 (2015) 1912–1917.
  10. S. Nouren, H.N. Bhatti, M. Iqbal, I. Bibi, S. Kamal, S. Sadaf, M. Sultan, A. Kausar, Y. Safa, By-product identification and phytotoxicity of biodegraded Direct Yellow 4 dye, Chemosphere, 169 (2017) 474–484.
  11. 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.
  12. N. George, P.S. Chauhan, S. Sondhi, S. Saini, N. Puri, N. Gupta, Biodegradation and analytical methods for detection of organophosphorous pesticide: chlorpyrifos, Int. J. Pure Appl. Sci. Technol., 20 (2014) 79–94.
  13. R.A. Peinado, J.J. Moreno, J.M. Villalba, J.A. González- Reyes, J.M. Ortega, J.C. Mauricio, Yeast biocapsules: a new immobilization method and their applications, Enzyme Microb. Technol., 40 (2006) 79–84.
  14. G. McMullan, C. Meehan, A. Conneely, N. Kirby, T. Robinson, P. Nigam, I. Banat, R. Marchant, W. Smyth, Microbial decolourisation and degradation of textile dyes, Appl. Microbiol. Biotechnol., 56 (2001) 81–87.
  15. S. Vatandoostarani, T.B. Lotfabad, A. Heidarinasab, S. Yaghmaei, Degradation of azo dye methyl red by Saccharomyces cerevisiae ATCC 9763, Int. Biodeterior. Biodegrad., 125 (2017) 62–72.
  16. M. Iqbal, J. Nisar, M. Adil, M. Abbas, M. Riaz, M.A. Tahir, M. Younus, M. Shahid, Mutagenicity and cytotoxicity evaluation of photo-catalytically treated petroleum refinery wastewater using an array of bioassays, Chemosphere, 168 (2017) 590–598.
  17. S. Samarbaf, Y.T. Birgani, M. Yazdani, A.A. Babaei, A comparative removal of two dyes from aqueous solution using modified oak waste residues: process optimization using response surface methodology, J. Ind. Eng. Chem., 73 (2019) 67–77.
  18. M.Z. Ahmad, S. Ehtisham-ul-Haque, N. Nisar, K. Qureshi, A. Ghaffar, M. Abbas, J. Nisar, M. Iqbal, Detoxification of photocatalytically treated 2-chlorophenol: optimization through response surface methodology, Water Sci. Technol., 76 (2017) 323–336.
  19. Y. Liu, J. Wang, Y. Zheng, A. Wang, Adsorption of methylene blue by kapok fiber treated by sodium chlorite optimized with response surface methodology, Chem. Eng. J., 184 (2012) 248–255.
  20. M.H. Dehghani, A. Dehghan, A. Najafpoor, Removing Reactive Red 120 and 196 using chitosan/zeolite composite from aqueous solutions: kinetics, isotherms, and process optimization, J. Ind. Eng. Chem., 51 (2017) 185–195.
  21. M. Iqbal, N. Iqbal, I.A. Bhatti, N. Ahmad, M. Zahid, Response surface methodology application in optimization of cadmium adsorption by shoe waste: a good option of waste mitigation by waste, Ecol. Eng., 88 (2016) 265–275.
  22. S. Chatterjee, A. Kumar, S. Basu, S. Dutta, Application of response surface methodology for methylene blue dye removal from aqueous solution using low cost adsorbent, Chem. Eng. J., 181 (2012) 289–299.
  23. M.M. Abd El-Latif, A.M. Ibrahim, Adsorption, kinetic and equilibrium studies on removal of basic dye from aqueous solutions using hydrolyzed oak sawdust, Desal. Wat. Treat., 6 (2009) 252–268.
  24. A. El Nemr, O. Abdelwahab, A. El-Sikaily, A. Khaled, Removal of direct blue-86 from aqueous solution by new activated carbon developed from orange peel, J. Hazard. Mater., 161 (2009) 102–110.
  25. S. Liang, X.Y. Guo, N.C. Feng, Q.H. Tian, Isotherms, kinetics and thermodynamic studies of adsorption of Cu2+ from aqueous solutions by Mg2+/K+ type orange peel adsorbents, J. Hazard. Mater., 174 (2010) 756–762.
  26. A. Özer, G. Akkaya, M. Turabik, Biosorption of acid blue 290 (AB 290) and acid blue 324 (AB 324) dyes on Spirogyra rhizopus, J. Hazard. Mater., 135 (2006) 355–364.
  27. J.Y. Farah, N.Sh. El-Gendy, 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 (2007) 359–370.
  28. S.M. Ahmed, F.I. El-Dib, N.Sh. El-Gendy, W.M. Sayed, M. El-Khodary, 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.
  29. C.F. Iscen, I. Kiran, S. Ilhan, Biosorption of Reactive Black 5 dye by Penicillium restrictum: the kinetic study, J. Hazard. Mater., 143 (2007) 335–340.
  30. M. Ghaedi, A. Hassanzadeh, S.N. Kokhdan, Multiwalled carbon nanotubes as adsorbents for the kinetic and equilibrium study of the removal of Alizarin Red S and Morin, J. Chem. Eng. Data, 56 (2011) 2511–2520.
  31. P. Baldrian, Interactions of heavy metals with white-rot fungi, Enzyme Microb. Technol., 32 (2003) 78–91.
  32. A. Özer, G. Akkaya, M. Turabik, The removal of Acid Red 274 from wastewater: combined biosorption and biocoagulation with Spirogyra rhizopus, Dyes Pigm., 71 (2006) 83–89.
  33. A. Sadeghi, M.H. Ehrampoush, M.T. Ghaneian, A.A. Najafpoor, H. Fallahzadeh, Z. Bonyadi, The effect of diazinon on the removal of carmoisine by Saccharomyces cerevisiae, Desal. Wat. Treat., 137 (2019) 273–278.
  34. A.H. Jawad, N.F.H. Mamat, B.H. Hameed, K. Ismail, Biofilm of cross-linked chitosan-ethylene glycol diglycidyl ether for removal of Reactive Red 120 and Methyl Orange: adsorption and mechanism studies, J. Environ. Chem. Eng., 7 (2019) 102965.
  35. L. Bulgariu, L.B. Escudero, O.S. Bello, M. Iqbal, J. Nisar, K.A. Adegoke, F. Alakhras, M. Kornaros, I. Anastopoulos, The utilization of leaf-based adsorbents for dyes removal: a review, J. Mol. Liq., 276 (2019) 728–747.
  36. M.H. Ehrampoush, A. Sadeghi, M.T. Ghaneian, Z. Bonyadi, Optimization of diazinon biodegradation from aqueous solutions by Saccharomyces cerevisiae using response surface methodology, AMB Express, 7 (2017) 68.
  37. G. Bayramoğlu, M.Y. Arıca, Biosorption of benzidine based textile dyes “Direct Blue 1 and Direct Red 128” using native and heat-treated biomass of Trametes versicolor, J. Hazard. Mater., 143 (2007) 135–143.
  38. K. Aftab, K. Akhtar, A. Kausar, S. Khaliq, N. Nisar, H. Umbreen, M. Iqbal, Fungal strains isolation, identification and application for the recovery of Zn(II) ions, J. Photochem. Photobiol., B, 175 (2017) 282–290.
  39. K. Drufovka, T. Danevčič, P. Trebše, D. Stopar, Microorganisms trigger chemical degradation of diazinon, Int. Biodeterior. Biodegrad., 62 (2008) 293–296.
  40. Z. Aksu, Reactive dye bioaccumulation by Saccharomyces cerevisiae, Process Biochem., 38 (2003) 1437–1444.
  41. M. Davodi, H. Alidadi, A. Ramezani, F. Jamali, Z. Bonyadi, Study of the removal efficiency of arsenic from aqueous solutions using Melia azedarach sawdust modified with FeO: isotherm and kinetic studies, Desal. Wat. Treat., 137 (2019) 292–299.
  42. B. Ramavandi, A.A. Najafpoor, H. Alidadi, Z. Bonyadi, Alizarin red-S removal from aqueous solutions using Saccharomyces cerevisiae: kinetic and equilibrium study, Desal. Wat. Treat., 144 (2019) 286–291.
  43. R.A.D. Tilaki, D. Balarak, M. Ghasemi, Study survey of efficiency agricultural weast in removal of Acid Orange 7 (AO7) dyes from aqueous solution: kinetic and equilibrium study, Iran. J. Health Sci., 2 (2014) 51–61.
  44. D. Balarak, F.K. Mostafapour, A. Joghatayi, Adsorption of Acid Blue 225 dye by multi walled carbon nanotubes: determination of equilibrium and kinetics parameters, Der Pharma Chemica, 8 (2016) 138–145.
  45. M.A. Zazooli, J. Yazdani, D. Balarak, M. Ebrahimi, Y. Mahdavi, Investigating the removal rate of acid blue 113 from aqueous solution by canola, J. Mazandaran Univ. Med. Sci., 22 (2013) 71–78.
  46. P. Sarwa, R. Vijayakumar, S.K. Verma, Adsorption of acid red 66 dye from aqueous solution by green microalgae Acutodesmus obliquus strain PSV2 isolated from an industrial polluted site, Open Access Lib. J., 1 (2014) 1.
  47. D. Balarak, Y. Mandavi, E. Bazrafshan, A.H. Mahvi, Kinetic, isotherms and thermodynamic modeling for adsorption of acid blue 92 (ab92) from aqueous solution by modified Azolla filicoloides, Fresenius Environ. Bull., 25 (2016) 1322–1331.
  48. B. Mohebbrad, Z. Bonyadi, A.A. Dehghan, M.H. Rahmat, Arsenic removal from aqueous solutions using Saccharomyces cerevisiae: kinetic and equilibrium study, Environ. Prog. Sustainable Energy, 38 (2019) S398–S402.
  49. A.B. Albadarin, C. Mangwandi, Mechanisms of Alizarin Red S and Methylene blue biosorption onto olive stone by-product: isotherm study in single and binary systems, J. Environ. Manage., 164 (2015) 86–93.
  50. L. Fan, Y. Zhang, X.J. Li, C.N. Luo, F.G. Lu, H.M. Qiu, Removal of alizarin red from water environment using magnetic chitosan with Alizarin Red as imprinted molecules, Colloids Surf., B, 91 (2012) 250–257.