Effect of γ radiation on physiological parameters of the ethanolic fermentation

Abstract

This work examines the efficacy of γ radiation in reducing the viability of certain contaminating bacteria of sugar-cane must and the consequential beneficial effect of lethal doses of radiation on some physiological parameters of the yeast-based ethanolic fermentation. The must from sugar-cane juice was inoculated with different bacteria that usually contaminate the must in the production facilities: Bacillus and Lactobacillus. The contaminated must was irradiated at 2.0, 4.0, 6.0, 8.0 and 10.0 kGy of gamma radiation. The population density of the bacteria in the irradiated must was recorded. Ethanolic fermentation by yeast (Saccharomyces cerevisiae) was carried out and the total acidity, the volatile acidity and the organic acids (lactic and acetic) produced during the fermentation were determined. The ethanol yield was also recorded. The treatment with γ radiation reduced the population of the contaminating microorganisms of the sugar-cane must. The acidity and the organic acids (lactic and acetic) produced during the fermentation decreased as the dose of radiation applied to the must increased. It is concluded that γ irradiation was efficient in decontaminating the sugar-cane must and improved the biochemical parameters of the ethanolic fermentation, including the ethanol yield by 2%.