Kalmiş E.Azbar N.Kalyoncu F.2024-07-222024-07-22200800084166http://akademikarsiv.cbu.edu.tr:4000/handle/123456789/19066Biological decolorization of Benazol Black ZN, a reactive azo-type textile dyestuff, was comparatively studied using 3 different commercial-type white rot fungi strains (Pleurotus ostreatus, Pleurotus cornucopiae var. citrinopileatus, Pleurotus djamor, and 2 wild types of P. ostreatus (MCC07 and MCC20) isolated from the nature. The initial dye concentrations in the medium were 500 and 1000 mg·L-1. All the organisms studied decolorized Benazol Black ZN to varying degrees. At low dye concentration, both commercial and wild type of P. ostreatus resulted in the best decolorization, conversely, wild-type P. ostreatus (MCC07) was found to be much more robust against increasing dye concentration and provided the best decolorization efficiency at high dye concentration. © 2008 NRC Canada.EnglishAnimalsAzo CompoundsBiodegradation, EnvironmentalColoring AgentsIndustrial MicrobiologyIndustrial WastePleurotusTextile IndustryFungiPleurotus citrinopileatusPleurotus djamorPleurotus ostreatusAzo dyesColor fastnessReaction kineticsbenazol black zndyecolorcommercial speciescomparative studydyemushroomremoval experimentwild populationarticleconcentration responsedecolorizationfungus growthglucose utilizationPleurotusPleurotus citrinopileatusPleurotus cornucopiaePleurotus djamorPleurotus ostreatuspriority journaltextilewhite rot fungusDecolorizationPleurotus djamorFungiArticle10.1139/W08-025