Effects of a novel, non-invasive pre-hatch application of probiotic for broilers on development of cecum microbiota and production performance.

IF 4.9 Q1 MICROBIOLOGY Animal microbiome Pub Date : 2023-09-05 DOI:10.1186/s42523-023-00263-7
Kasper Rømer Villumsen, Dorthe Sandvang, Gisle Vestergård, Mia Son Räfle Olsen, Johanne Juul, Morten Dencker, Johannes Kudsk, Louise Ladefoged Poulsen
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Abstract

Background: Probiotics are used in the broiler industry to increase production performance. Most often a probiotic is applied by mixing it in the feed, but studies have shown that earlier application may be advantageous. Therefore, in ovo application where the probiotic is administrated into the egg before hatch has been investigated as an alternative application method. However, in ovo application may impact hatchability negatively and may not be feasible at all hatcheries. The purpose of this study was to investigate the effect of a novel non-invasive method for mass application before hatch. The probiotic (E. faecium 669) was applied as a single dose by spray on the unhatched eggs and production performance and development of the cecal microbiota until slaughter was compared with a control flock. Through 16S rRNA sequencing of cecal samples from 25 broilers at day 7, 21 and 37 we compared the microbiota composition and richness for each group. The study was repeated for additional recording of production performance and re-isolation of the probiotic E. faecium from the intestine.

Results: In both trials the probiotic E. faecium could be re-isolated from the yolk sac and intestine at hatch and at day 7. Broilers in the probiotic treated groups had a higher performance in terms of bodyweight at day 34 and European production efficiency factor. Finally, a significant reduction of first-week and overall mortality was observed in the probiotic group in the first trial. Based on 16S rRNA profiling, significant differences in alpha diversity were found exclusively at day 37. Estimation of beta diversities, however, identified significant differences in microbiota composition between the control and probiotic group at day 7, 21 and 37.

Conclusion: The probiotic E. faecium strain successfully colonized broilers before/during hatch after a single spray application at day 18 of incubation. Positive effects of the probiotic were observed in multiple production parameters, including reduced mortality in trial 1, and microbiota analyses indicate significantly different microbiota compositions throughout the experimental phase. Taken together, the novel low-tech mass administration of E. faecium (669) may be considered a feasible strategy for improvements of production parameters in broiler production.

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一种新型无创孵化前益生菌对肉鸡盲肠菌群发育和生产性能的影响
背景:益生菌用于肉鸡行业以提高生产性能。大多数情况下,益生菌是通过混合在饲料中施用的,但研究表明,尽早施用可能是有利的。因此,在鸡蛋应用中,在孵化前将益生菌施用于鸡蛋中已被研究作为一种替代的应用方法。然而,在孵化场中应用可能会对孵化率产生负面影响,可能并不适用于所有孵化场。本研究的目的是探讨一种新的无创方法在孵化前大量应用的效果。将益生菌(E. faecium 669)单剂量喷施于未孵化蛋,并与对照鸡群的生产性能和盲肠菌群发育进行比较,直至屠宰。通过对25只肉鸡盲肠样品在第7、21和37天进行16S rRNA测序,比较各组的微生物组成和丰富度。为了进一步记录生产性能和从肠道中重新分离益生菌粪肠杆菌,重复了这项研究。结果:两种试验均可在孵化和第7天时从卵黄囊和肠道中分离出粪肠杆菌。益生菌处理组肉鸡在第34天体重和欧洲生产效率系数方面具有较高的生产性能。最后,在第一次试验中,益生菌组的第一周死亡率和总死亡率显著降低。基于16S rRNA分析,在第37天发现α多样性存在显著差异。然而,对β多样性的估计发现,在第7、21和37天,对照组和益生菌组之间的微生物群组成存在显著差异。结论:在肉鸡孵化第18天,单次喷施即可成功定殖。在多个生产参数中观察到益生菌的积极作用,包括试验1中降低死亡率,微生物群分析表明,在整个实验阶段,微生物群组成存在显著差异。综上所述,新的低技术含量的粪肠杆菌(669)的大量施用可能被认为是改善肉鸡生产参数的可行策略。
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