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Utilization of mouldy sorghum and Cassia tora through fermentation for feed purposes
Abstract
Microbial fermentation of mouldy grains brought about by lactic acid bacteria is gaining much significance owing to their ability to inhibit mould growth and detoxify mycotoxins while improving the nutritive value and safety of the product. In the present study the potential of developing a probiotic feed ingredient from a combination of mouldy sorghum and Cassia tora seeds, using spontaneous fermentation was explored. The effect of fermentation at 0, 24 and 36 h on the microflora, ergosterol,
mycotoxins and nutritive value, of mouldy sorghum was assessed individually and in combination with C. tora seeds. A reduction in mould counts upto 58 and 96% was observed at 24 and 36 h of fermenting
mouldy sorghum. Total plate count increased by 2 fold and Lactobacillus count increased by 4 fold when mouldy sorghum was fermented singly or with C. tora seeds. Fermentation decreased ergosterol by 76%,
aflatoxin to non-detectable levels at 36 h of fermentation and fumonisin B1 to non-detectable levels at 24 and 36 h of fermentation of mouldy sorghum. Fermentation resulted in marginal improvement in nutritive
value of mouldy sorghum when estimated in terms of proximate principles and mineral elements. Addition of C. tora resulted in considerable increase in nutritive value particularly with respect to protein and mineral elements like iron and calcium in mouldy sorghum.
mycotoxins and nutritive value, of mouldy sorghum was assessed individually and in combination with C. tora seeds. A reduction in mould counts upto 58 and 96% was observed at 24 and 36 h of fermenting
mouldy sorghum. Total plate count increased by 2 fold and Lactobacillus count increased by 4 fold when mouldy sorghum was fermented singly or with C. tora seeds. Fermentation decreased ergosterol by 76%,
aflatoxin to non-detectable levels at 36 h of fermentation and fumonisin B1 to non-detectable levels at 24 and 36 h of fermentation of mouldy sorghum. Fermentation resulted in marginal improvement in nutritive
value of mouldy sorghum when estimated in terms of proximate principles and mineral elements. Addition of C. tora resulted in considerable increase in nutritive value particularly with respect to protein and mineral elements like iron and calcium in mouldy sorghum.