Biodecolorization screening of synthetic dyes by four white-rot fungi in a solid medium: possible role of siderophores.

AIMS: Four selected fungi were screened for their ability to decolourize a textile effluent and commercial reactive dyes in a solid medium. METHODS AND RESULTS: Ligninolytic enzymes activities (lignin peroxidase, manganese peroxidase and laccase) and siderophores presence were monitored in decolourized plates. RESULTS: The results showed low lignin peroxidase activity and no manganese peroxidase activity was detected for all fungi. Laccase activity was observed in Reactive Blue 19 decolourized plates by Trametes versicolor and Trametes villosa. Siderophores presence was observed in Trametes versicolor, Phanerochaete chrysosporium and Lentinus edodes decolourized plates. CONCLUSION: Lentinus edodes displayed the greatest decolourization ability both in terms of extent and rapidity of decolourization. SIGNIFICANCE AND IMPACT OF THE STUDY: The transformation observed for dyes open the possibility to study siderophores to treat dyes and textile effluents.

Degradation and toxicity reduction of textile effluent by combined photocatalytic and ozonation processes.

To minimize the environmental impact of textile effluents, mainly related to their high coloration and the presence of toxic or carcinogenic reactive dyes, the efficiency of photochemical and ozonation processes, applied in the form of isolated and combined procedures, were evaluated. The investigation was focused on the reduction of total organic carbon content (TOC), color and acute toxicity (monitoring by inhibition of Escherichia coli respiration). For a reaction time of 60 min, the anatase TiO2-assisted photocatalytic process produces color and TOC reduction of about 90% and 50%, respectively. Meanwhile, the ozonation process gives a decolorization of about 60% but negligible TOC reduction. When the processes were applied in a simultaneous form, the decolorization was almost complete and the TOC reduction was higher than 60%. The three treatments studied yield an acute toxicity reduction of around 50%.