纤维分解酶、纤维素分解真菌和细菌对中国狼尾草青贮发酵特性、结构性碳水化合物降解和酶转化效率的影响。

The effects of fibrolytic enzymes, cellulolytic fungi and bacteria on the fermentation characteristics, structural carbohydrates degradation, and enzymatic conversion yields of Pennisetum sinese silage.

机构信息

Institute of Ensiling and Processing of Grass, College of Agro-Grassland Science, Nanjing Agricultural University, Nanjing 210095, China.

出版信息

Bioresour Technol. 2018 Sep;264:123-130. doi: 10.1016/j.biortech.2018.05.059. Epub 2018 May 18.

DOI:10.1016/j.biortech.2018.05.059

PMID:29800772

Abstract

Biological inoculants were tested on Pennisetum sinese for their effects on fermentation characteristics, structural carbohydrates degradation, and enzymatic conversion yields. Pennisetum sinese was ensiled without additive, Lactobacillus plantarum (Lp), Trichoderma reesei (Tr), fibrolytic enzymes (E), and Enterococcus faecium (Y83) for 90 days. Y83 silages had higher LA and lower AA, ammonia-N and DM loss as compared to E and Tr silages. Tr and E had superior effects for degrading lignocellulose while Y83 had intermediate effects. The first-order exponential decay models (R = 0.928-0.998) predicted nonstructural carbohydrates kinetics and demonstrated high water soluble carbohydrate (g/kg DM) preservation potential in Y83 (21.40), followed by Tr (18.94) and E (16.74). Addition of Y83 improved the conversion efficiency of P. sinese silage than Tr and E, indicated by higher glucose and total reducing sugars yield (22.49 and 36.89 w/w % DM, respectively). In conclusion, Y83 can be exploited for the ensiling lignocellulosic biomass before grass processing.

摘要

生物接种剂被测试用于皇竹草，以研究其对发酵特性、结构性碳水化合物降解和酶转化产率的影响。皇竹草青贮不添加添加剂，使用植物乳杆菌（Lp）、里氏木霉（Tr）、纤维分解酶（E）和粪肠球菌（Y83）进行 90 天青贮。与 E 和 Tr 青贮相比，Y83 青贮的乳酸和乙酸含量较低，氨态氮和干物质损失较少。Tr 和 E 对木质纤维素的降解效果较好，而 Y83 的效果居中。一级指数衰减模型（R=0.928-0.998）预测了非结构性碳水化合物的动力学，并表明 Y83（21.40g/kg DM）具有较高的水溶性碳水化合物（g/kg DM）保存潜力，其次是 Tr（18.94g/kg DM）和 E（16.74g/kg DM）。与 Tr 和 E 相比，添加 Y83 提高了皇竹草青贮的转化效率，表现在葡萄糖和总还原糖产量较高（分别为 22.49%和 36.89% w/w % DM）。总之，Y83 可用于在草类加工前对木质纤维素生物质进行青贮。

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纤维分解酶、纤维素分解真菌和细菌对中国狼尾草青贮发酵特性、结构性碳水化合物降解和酶转化效率的影响。

The effects of fibrolytic enzymes, cellulolytic fungi and bacteria on the fermentation characteristics, structural carbohydrates degradation, and enzymatic conversion yields of Pennisetum sinese silage.

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