Fermentation (Jan 2025)

Effects of Different Ratios of Mixed Silage of Licorice Stems and Leaves and Whole Corn on Fermentation Quality, Microbial Diversity, and Aerobic Stability

  • Qifeng Gao,
  • Yuliang Sun,
  • Limin Tang,
  • Haonan Liu,
  • Chenchen Yang,
  • Yulan Ren,
  • Fangpeng Liu,
  • Chunying Jia,
  • Houjun Yu,
  • Tao Jiang

DOI
https://doi.org/10.3390/fermentation11010013
Journal volume & issue
Vol. 11, no. 1
p. 13

Abstract

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This experiment aimed to investigate the effects of varying proportions of mixed silage on fermentation quality, microbial diversity, and aerobic stability. The mixed silage samples (G10Y0, G9Y1, G8Y2, G7Y3, G6Y4, G5Y5, G4Y6, G3Y7, G2Y8, G1Y9, and G0Y10) were prepared with a 10% mass ratio of licorice stems and leaves (G) to whole-plant corn (Y) mixed silage. After sealing for 60 days, the cans were opened, and their nutrient content and fermentation quality were assessed. Based on the nutrient content, fermentation quality parameters, and the optimal utilization of licorice stems and leaves, three groups were selected for microbial flora measurement and aerobic stability assessment. The test results indicated that as the proportion of whole-plant corn increased, the crude protein (CP) content in each mixed silage proportion significantly decreased (p p Lentilactobacillus, Citrobacter, and Weissella were identified as the dominant genera. The abundance of Lentilactobacillus in the G4Y6 group was significantly greater than that in the other groups (p Citrobacter genus in the G6Y4 group was significantly higher than in the other groups (p p p p < 0.05). In summary, the mixed silage from the G5Y5 group exhibits the highest nutritional value, attributed to its superior fermentation quality. Additionally, the microbial diversity and uniformity in the G5Y5 group are enhanced, resulting in a more stable fermentation environment and optimal aerobic stability.

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