[Objective] To optimize solid-state fermentation of South China 5 (SC5) cassava-leucaena protein feed by kombucha. [Method] The SC5 cassava-leucaena protein feed was fermented by kombucha. The fermentation condition...[Objective] To optimize solid-state fermentation of South China 5 (SC5) cassava-leucaena protein feed by kombucha. [Method] The SC5 cassava-leucaena protein feed was fermented by kombucha. The fermentation conditions were optimized. [ Result] The optimum conditions of solid-state fermentation were as follows: cassava and leucaena weight ratio, 7:3; fermentation time, 6 d; kombucha volume, 10 ml; fermentation temperature, 30 ℃; and water volume, 200 ml. The content of crude protein in feed was substantially increased and reached 23.64%. [ Conclusion] The optimized fermentation process greatly improves utilization of the SC5 cassava-leucaena protein feed.展开更多
基金supported by Graduate Research Fund of Tropical Crops Genetic Resources Institute,Chinese Academyof Tropical Agricultural SciencesBreeding of New Varieties of High-Starch,Cold-Resistant and Drought-Resistant Cassava(nyhyzx07-013) Earmarked Fund for Modern Agro-Industry Technology Research System (nycytx-17)
文摘[Objective] To optimize solid-state fermentation of South China 5 (SC5) cassava-leucaena protein feed by kombucha. [Method] The SC5 cassava-leucaena protein feed was fermented by kombucha. The fermentation conditions were optimized. [ Result] The optimum conditions of solid-state fermentation were as follows: cassava and leucaena weight ratio, 7:3; fermentation time, 6 d; kombucha volume, 10 ml; fermentation temperature, 30 ℃; and water volume, 200 ml. The content of crude protein in feed was substantially increased and reached 23.64%. [ Conclusion] The optimized fermentation process greatly improves utilization of the SC5 cassava-leucaena protein feed.
