The treatment of dye wastes effluent has been a re-occurring problem since no single treatment method is capable of effectively removing the dye components as well as intermediate metabolites usually generated during the treatment process. Hybrid treatment procedures have also been employed but not without some limitations. This procedure, though effective, but does not completely mineralize the pollutant or intermediates resulting from wastewater treatment. Microbial remediation of textile dye wastewater using pure cultures or consortia of different microbial species also showed promising results, producing high COD, BOD, and percentage decolouration of above 90% on different dyes used. An integrated system that combines physicochemical and biological methods will enhance dye removal processes. These isolates grown as biofilms will enhance their effectiveness because they are made robust by quorum sensing and the consortium of enzymes produced which improves their bioremediation potentials. Optimization of parameters (such as pH, salinity, dye concentration, etc.) involved in dye wastewater treatments to improve their removal efficiency as well as re-usability of the treated water is necessary for the effectiveness of dyes and their intermediates removal from wastewater. This work, therefore, highlights the different treatment methods employed and further listed the roles microbial biofilms played when employed in the integrated treatment system for effective detoxification, degradation, and complete mineralization of pollutants in dye waste effluents.