多菌种益生菌自养系统在畜禽健康养殖中的应用

W. Lee, B. Yun, H. Lee, J. Heo, Younghoon Kim, Sangnam Oh
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引用次数: 0

摘要

益生菌在世界范围内的地位日益提高,益生菌的应用范围也在向畜牧业延伸。在养猪业中使用益生菌的目的是通过形成健康的肠道菌群来改善动物的健康和生产力。集约化养猪是现代社会常见的一种养殖方式,它会给猪造成生理应激,导致肠道菌群失衡和肠道屏障功能障碍。我们对多菌株益生菌(multi-strain probiotics, MSP)的益生菌特性进行了科学研究,并通过家畜自养系统对MSP的经济效益和效率进行了观察。最初,我们观察到MSP在猪肠道微生物群中的应用发生了改变。MSP的特征是对胃酸和胆汁等消化液具有抗性,然后在目标器官胃肠道(GIT)中定植。此外,MSP还被证实对养猪业中最常见的致病性具有抗菌能力,并且对抗生素的耐药性低,这意味着添加到饲料中可以保证稳定性。从原料价格和生长效率两方面考虑,优化后的培养基中益生菌的生长速度适合于高浓度益生菌的高效经济养殖和饲养。我们观察到施用MSP对猪肠道菌群有显著的改变。重要的是,添加MSP显著增加了有益菌属双歧杆菌,这对猪胃肠道宿主的健康有益,同时减少了包括大肠菌群在内的有害细菌的数量。此外,MSP对母猪和断奶仔猪肠道菌群的均匀性均有影响。综上所述,在养猪系统中添加高浓度益生菌的MSP可能通过调节肠道菌群来改善猪的健康状况。
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Application of Multi-Strain Probiotics Using Self-Cultivation System for Livestock Health and Farming
The status of probiotics is increasing worldwide and the range of application of probiotics is also being extended to the livestock industry. The use of probiotics in the swine industry aims to improve animal health and productivity by forming a healthy gut microbiota. Intensive pig breeding, a common breeding method in modern society, causes physiological stress in pigs, resulting in imbalance of the intestinal microbiota and dysfunction of the intestinal barrier. We conducted a scientific research on the properties of probiotics for multi-strain probiotics (MSP) and observed the economic benefits and efficiency of culturing MSP through a self-cultivation system in livestock. Initially, we observed alteration occurred by MSP application in the gut microbiota of pig. MSP were characterized to have resistance to digestive juices such as gastric acid and bile, followed by colonization in the target organ, the gastro-intestinal tract (GIT). In addition, MSP was also confirmed to have antibacterial ability against pathogenicity that most frequently infected in the swine industry and showed low resistance to antibiotics which means guaranteed stability when added to feed. The growth rate of probiotics in the optimized medium used in the self-cultivation system was suitable for efficiently and economically culturing and feeding pigs with high concentrations of probiotics, considering the ingredient price and the growth efficiency. We observed the significant alteration of gut microbiota of pig by application of MSP. Importantly, the MSP supplementation significantly increased the beneficial bacteria genus of Bifidobacterium that confer a health benefit to the host in pig GIT, whereas decreased the number of harmful bacteria including coliforms. In addition, MSP influenced on the uniformity of gut microbiota at both of sow and weaning pigs. Taken together, the application of MSP with high concentration of probiotics using self-cultivation system may critically improve the pig health by regulation intestinal microbiota.
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