AI Article Synopsis
- Dietary oscillation between high and low protein diets in calves was studied to assess its impact on rumen fermentation and microbiota dynamics.
- Significant changes were observed in rumen fermentation parameters and bacterial diversity, particularly in volatile fatty acids, NH-N, and plasma urea-N levels during diet changes.
- The study concluded that rumen bacteria play a crucial role in enhancing nitrogen utilization efficiency, but the plasma urea-N concentration adjusts more slowly compared to rumen fermentation changes.
Article Abstract
Dietary crude protein concentration oscillation can improve the nitrogen utilization efficiency of ruminants. However, little is known about the dynamic changes in microbiota and fermentation in the rumen of calves during the oscillation period. In this study, six calves were fed an oscillating diet at 2-day intervals, including a high-protein diet (HP) and a low-protein diet (LP). The rumen fermentation parameters, plasma urea-N concentration, and rumen bacterial diversity were characterized throughout the oscillation period. The concentrations of volatile fatty acids, NH-N, and plasma urea-N in rumen changed significantly with an oscillating diet. The abundance of , , , , , , and _group showed significant changes with diet. was positively correlated, and _group and were negatively correlated with NH-N. The abundance of Amino Acid Metabolism, Metabolism of Other Amino Acids, and Glycan Biosynthesis and Metabolism pathways, annotated by bacterial functional genes, decreased when the diet changed from HP to LP. The abundance of the Carbohydrate Metabolism pathway increased after the two dietary changes. In conclusion, the plasma urea-N concentration was not as sensitive and quick to adapt to diet changes as the rumen fermentation parameters. Rumen bacteria were responsible for increasing the nitrogen utilization efficiency of calves fed an oscillating diet.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11596580 | PMC |
| http://dx.doi.org/10.3390/microorganisms12112123 | DOI Listing |
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