Aim: Decolourization of black olive mill wastewaters (OMW) by depolymerization of phenolic compounds by Geotrichum candidum. Methods and Results: Our results show that G. candidum is able to grow on black OMW supplemented with carbon source and nitrogen. The Geotrichum growth decreased the pH and induced a 49% of colour removal when the black OMW was supplemented with glycerol and diammonium tartrate (20 mM M ammonium). An improvement of 10% of colour removal was observed when the culture was supplemented with veratryl alcohol. The decolourization was inhibited with glutamate as nitrogen source. Conclusion: Our results suggest the potential use of G. candidum in black OMW decolourization and support the concept that lignin peroxidase (LiP) of G. candidum is involved in the depolymerization of phenolic compounds. Significance and Impact of the Study: This is the first report of LiP production by G. candidum on OMW.
Microbiol¯ora acclimated in continuous pilot scale bubble column fed with OMW was analysed. The most ef®cient isolated fungus was identi®ed to white-rot fungus Geotrichum candidum. Decolorization of OMW by Geotrichum candidum was investigated by using Hadamard's matrix for screening the important parameters and optimize them in order to control the biological decolorization. Agitation favours the conversion of COD removed into Geotrichum candidum biomass especially with high arthoconodia and few mycelium. Dilution of OMW and aeration enhanced the mycelium growth and rammi®cation which that allowed polyphenols hydrolysis and then a decolorization. The initial pH of OMW is suitable for its decolorization by Geotrichum candidum growth. Ammonium sulfate concentrations tested with different OMW dilutions showed that the COD:N:S ratio of 100:5:2 is suitable for higher black colour removal. With optimized conditions Geotrichum candidum growth on OMW in laboratory scale bubble column, the OD removal reached 70% and all fractions of polyphenolic compounds of OMW were oxidized.
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