Ricci Sara, Pacífico Cátia, Castillo-Lopez Ezequias, Rivera-Chacon Raul, Schwartz-Zimmermann Heidi E, Reisinger Nicole, Berthiller Franz, Zebeli Qendrim, Petri Renee M
Christian Doppler Laboratory for Innovative Gut Health Concepts of Livestock, Department for Farm Animals and Veterinary Public Health, Institute of Animal Nutrition and Functional Plant Compounds, University of Veterinary Medicine, Vienna, Austria.
Christian Doppler Laboratory for Innovative Gut Health Concepts of Livestock, Department of Agrobiotechnology (IFA-Tulln), Institute of Bioanalytics and Agro-Metabolomics, University of Natural Resources and Life Sciences, Vienna, Austria.
Front Microbiol. 2022 Jul 22;13:920427. doi: 10.3389/fmicb.2022.920427. eCollection 2022.
Microbial composition and activity in the gastrointestinal tract (GIT) of cattle has important implications for animal health and welfare, driving the focus of research toward ways to modify their function and abundance. However, our understanding of microbial adaption to nutritional changes remains limited. The aim of this study was to examine the progressive mechanisms of adaptation in the rumen and hindgut of cattle receiving increasing amounts of starch with or without dietary supplementation of a blended phytogenic feed additive (PFA; containing menthol, thymol and eugenol). We used 16S rRNA gene amplicon sequencing to assess the microbial composition and predicted metabolic pathways in ruminal solid and liquid digesta, and feces. Furthermore, we employed targeted liquid chromatography-mass spectrometry methods to evaluate rumen fluid metabolites. Results indicated a rapid microbial adaptation to diet change, starting on the second day of starch feeding for the particle associated rumen liquid (PARL) microbes. Solid rumen digesta- and feces-associated microbes started changing from the following day. The PARL niche was the most responsive to dietary changes, with the highest number of taxa and predicted pathways affected by the increase in starch intake, as well as by the phytogenic supplementation. Despite the differences in the microbial composition and metabolic potential of the different GIT niches, all showed similar changes toward carbohydrate metabolism. Metabolite measurement confirmed the high prevalence of glucose and volatile fatty acids (VFAs) in the rumen due to the increased substrate availability and metabolic activity of the microbiota. Families and were found to be positively correlated with carbohydrate metabolism, with the latter two showing wide-ranging predicted metabolic capabilities. Phytogenic supplementation affected low abundant taxa and demonstrated the potential to prevent unwanted implications of feeding high-concentrate diet, such as reduction of microbial diversity. The inclusion of 50% concentrate in the diet caused a major shift in microbial composition and activity in the GIT of cattle. This study demonstrated the ability of microorganisms in various GIT niches to adjust differentially, yet rapidly, to changing dietary conditions, and revealed the potential beneficial effects of supplementation with a PFA during dietary adaptation.
牛胃肠道(GIT)中的微生物组成和活性对动物健康和福利具有重要影响,促使研究重点转向改变其功能和丰度的方法。然而,我们对微生物对营养变化的适应性的理解仍然有限。本研究的目的是研究在添加或不添加混合植物源饲料添加剂(PFA;含有薄荷醇、百里香酚和丁香酚)的情况下,摄入淀粉量增加的牛的瘤胃和后肠中的适应性进展机制。我们使用16S rRNA基因扩增子测序来评估瘤胃固体和液体消化物以及粪便中的微生物组成和预测的代谢途径。此外,我们采用靶向液相色谱 - 质谱法来评估瘤胃液代谢物。结果表明,微生物对饮食变化有快速的适应性,对于与颗粒相关的瘤胃液(PARL)微生物,在开始饲喂淀粉的第二天就开始了。瘤胃固体消化物和粪便相关微生物从第二天开始发生变化。PARL生态位对饮食变化最敏感,受淀粉摄入量增加以及植物源添加剂补充影响的分类群和预测途径数量最多。尽管不同GIT生态位的微生物组成和代谢潜力存在差异,但所有生态位在碳水化合物代谢方面都表现出相似的变化。代谢物测量证实,由于微生物群底物可用性和代谢活性的增加,瘤胃中葡萄糖和挥发性脂肪酸(VFA)的含量很高。发现某些菌科与碳水化合物代谢呈正相关,后两者显示出广泛的预测代谢能力。植物源添加剂补充影响了低丰度分类群,并显示出预防饲喂高浓缩日粮的不良影响(如微生物多样性降低)的潜力。日粮中包含50%的精料导致牛GIT中微生物组成和活性发生重大变化。本研究证明了不同GIT生态位中的微生物能够以不同但快速的方式适应不断变化的饮食条件,并揭示了在饮食适应过程中补充PFA的潜在有益作用。
