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Selected Publication:

Publication type: Journal Article
Document type: Full Paper

Year: 2019

Author(s): Petri, RM; Mickdam, E; Klevenhusen, F; Beyer, B; Zebeli, Q

Title: Effects of the supplementation of plant-based formulations on microbial fermentation and predicted metabolic function in vitro.

Source: Anaerobe. 2019; 57:19-27



Authors Vetmeduni Vienna:

Klevenhusen Fenja
Mickdam Elsayed
Petri Renee
Zebeli Qendrim

Vetmed Research Units
Institute of Animal Nutrition and Functional Plant Compounds


Abstract:
This study aimed at testing the effects of three different formulations of feed supplements based on three different combinations of plant derived alkaloids, prebiotics, tannins, vitamins and minerals on rumen fermentation and the microbiome in vitro. A Rusitec experiment was conducted in 2 identical runs using a complete randomized design with 3 replicates per treatment resulting in total of 6 treatment combinations (n = 6). Each run lasted 12 d with sampling occurring in the last 5 d. Diets were a standard dairy ration (60:40; concentrate:forage) supplemented with one of 3 different plant-based combinations (PI, PII, and PIII) at a level of 100 mg/l and a non-supplemented control (basal diet, control). Microbial DNA samples were taken on the last day of each run and the 16S rRNA target gene sequenced using Illumina MiSeq technology. The supplementations had no effect on the pH, methane and carbon dioxide production. However, both total SCFA (P = 0.08) and molar concentrations of acetate (P = 0.06) tended to be increased in the treatment groups in comparison to control, with PII having the highest overall values (102.7 mmol/L and 43.3 mmol/L, respectively). Alpha diversity indices Shannon, Simpson and Chao1 showed no effect of supplementations or combinations. The addition of PII increased the relative abundance of Bacteroidetes compared to all other treatments (P = 0.05). Supplementation with plant-based combinations reduced the relative abundance of Pyramidobacter from the family Dethiosulfovibrionaceae in comparison with the control diet (P = 0.05). Evaluation of predicted gene function through PICRUSt analysis showed variation in predicted cellular function and metabolism between bacterial communities supplemented with plant-based combinations compared to the control diet. This shows that the addition of plant-based combinations can have the potential to modulate the metabolic function of rumen microbes, and likely the production of small-sized rumen metabolites, without disrupting the rumen microbial community structure and diversity.


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