United States Department of Agriculture (USDA), Agricultural Research Service (ARS), Northeast Area (NEA), Animal Biosciences and Biotechnology Laboratory (ABBL), Beltsville, 10300 Baltimore Avenue, B-200, Rm. 100B, BARC-East, Beltsville, MD, 20705, USA.
Department of Poultry Science, University of Georgia, Athens, GA, 30602, USA.
BMC Microbiol. 2022 Aug 24;22(1):206. doi: 10.1186/s12866-022-02619-6.
BACKGROUND: The first two weeks of post-hatch (PH) growth in broilers (meat-type birds) are critical for gut development and microbiota colonization. In the current broiler production system, chicks may not receive feed and water for 24 to 72 h due to variations in hatching time and hatchery management. Post-hatch feed delay affects body weight, feed efficiency, mortality, and gut development. The goal of this study was to investigate changes in the microbiome in broiler chickens early PH and the effect of delayed access to feed on the microbiota. RESULTS: Chicks either received feed and water immediately after hatch or access to feed was delayed for 48 h to mimic commercial hatchery settings (treatment, TRT). Both groups were sampled (n = 6) at -48, 0, 4 h, and 1 (24 h), 2 (48 h), 3 (72 h), 4 (96 h), 6 (144 h), 8 (192 h), 10 (240 h), 12 (288 h) and 14 (336 h) days PH. Ileal (IL) and cecal (CE) epithelial scrapings (mucosal bacteria, M) and digesta (luminal bacteria, L) were collected for microbiota analysis. Microbiota was determined by sequencing the V3-V4 region of bacterial 16S rRNA and analyzed using QIIME2. The microbiota of early ileal and cecal samples were characterized by high abundance of unclassified bacteria. Among four bacterial populations (IL-L, IL-M, CE-L, CE-M), IL-M was the least affected by delayed access to feed early PH. Both alpha and beta diversities were affected by delayed access to feed PH in IL-L, CE-M and CE-L. However, the development effect was more pronounced. In all four bacterial populations, significant changes due to developmental effect (time relative to hatch) was observed in taxonomic composition, with transient changes of bacterial taxa during the first two weeks PH. Delayed access to feed has limited influence on bacterial composition with only a few genera and species affected in all four bacterial populations. Predicted function based on 16S rRNA was also affected by delayed access to feed PH with most changes in metabolic pathway richness observed in IL-L, CE-L and CE-M. CONCLUSIONS: These results show transient changes in chicken microbiota biodiversity during the first two weeks PH and indicate that delayed access to feed affects microbiota development. Proper microbiota development could be an important factor in disease prevention and antibiotic use in broiler chickens. Moreover, significant differences in response to delayed access to feed PH between luminal and mucosal bacterial populations strongly suggests the need for separate analysis of these two populations.
背景:肉鸡(肉用型鸟类)出壳后前两周的生长对肠道发育和微生物区系定植至关重要。在当前的肉鸡生产体系中,由于孵化时间和孵化场管理的变化,雏鸡可能会有 24 至 72 小时无法获得饲料和水。出壳后饲料延迟会影响体重、饲料效率、死亡率和肠道发育。本研究的目的是研究肉鸡早期出壳时微生物组的变化,以及延迟获得饲料对微生物组的影响。
结果:雏鸡要么在出壳后立即获得饲料和水,要么延迟 48 小时获得饲料,以模拟商业孵化场的设置(处理,TRT)。两组均在 -48、0、4、1(24 小时)、2(48 小时)、3(72 小时)、4(96 小时)、6(144 小时)、8(192 小时)、10(240 小时)、12(288 小时)和 14(336 小时)出壳后 PH 时取样(n=6)。收集回肠(IL)和盲肠(CE)上皮刮取物(黏膜细菌,M)和消化物(腔细菌,L)进行微生物组分析。通过对细菌 16S rRNA 的 V3-V4 区进行测序来确定微生物组,并使用 QIIME2 进行分析。早期回肠和盲肠样本的微生物组以未分类细菌的高丰度为特征。在四个细菌群(IL-L、IL-M、CE-L、CE-M)中,IL-M 是出壳后早期饲料延迟获得对其影响最小的。在 IL-L、CE-M 和 CE-L 中,饲料延迟 PH 均影响 alpha 和 beta 多样性。然而,发育效应更为明显。在所有四个细菌群中,都观察到由于发育效应(相对于出壳的时间)而导致的分类组成发生显著变化,在出壳后的前两周内,细菌分类群发生了短暂变化。饲料延迟获得对细菌组成的影响有限,只有少数属和种在所有四个细菌群中受到影响。基于 16S rRNA 的预测功能也受到饲料延迟 PH 的影响,在 IL-L、CE-L 和 CE-M 中观察到代谢途径丰富度的大多数变化。
结论:这些结果表明,在出壳后的前两周内,鸡的微生物组多样性会发生短暂变化,并表明饲料延迟获得会影响微生物组的发育。适当的微生物组发育可能是预防肉鸡疾病和抗生素使用的重要因素。此外,在腔和黏膜细菌种群对饲料延迟 PH 的反应之间存在显著差异,这强烈表明需要对这两个种群进行单独分析。
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