Rumen microbes and digestion of plant cell walls

D.I. Demeyer
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引用次数: 193

Abstract

The role of bacteria, protozoa and fungi in rumen digestion of plant cell wall material is briefly summarized. Literature evidence is presented suggesting a substantial contribution of entodiniomorph protozoa to fibre digestion in the rumen. Interactions between various bacteria degrading plant cell walls to volatile fatty acids, methane and CO2 are described, as well as stoichiometry of fermentation. Net microbial growth yields in the rumen are discussed as net results of microbial synthesis and degradation (lysis). It is shown that the absence of protozoa lowers degradation and thus increases efficiency of synthesis. The effect of rumen defaunation on microbial protein supply to the animal is discussed. It is suggested that this effect is the result of: (1) a decrease in rumen fibre digestion; (2) an increase in efficiencies of microbial protein synthesis. Conversion of fibrous diets to soluble carbohydrates is suggested as a means of obtaining an optimal effect of defaunation on microbial protein supply to the animal.

瘤胃微生物与植物细胞壁的消化
综述了细菌、原生动物和真菌在瘤胃消化植物细胞壁物质中的作用。文献证据表明,内源性原虫对瘤胃纤维消化有重要贡献。各种细菌之间的相互作用降解植物细胞壁挥发性脂肪酸,甲烷和二氧化碳的描述,以及发酵的化学计量学。瘤胃微生物净生长量作为微生物合成和降解(裂解)的净结果进行讨论。结果表明,原生动物的缺乏降低了降解,从而提高了合成效率。讨论了瘤胃退化对动物微生物蛋白供应的影响。结果表明:(1)瘤胃纤维消化减少;(2)微生物蛋白质合成效率的提高。建议将纤维性饲粮转化为可溶性碳水化合物,以获得对动物微生物蛋白质供应的最佳效果。
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