Taxonomic and functional shifts in the rumen microbiome of buffalo calves under long-term strategic supplementation of phyto-feed additives
Pramod Kumar Soni, Anju Kala, Payal Agarwal, Rampratim Deka, Habibur Rahman, Kennady Vijayalakshmy, Lal Chandra Chaudhary

TL;DR
This study shows that adding plant-based supplements to buffalo calves' diets can change their gut microbes to reduce methane and improve digestion.
Contribution
The novelty lies in demonstrating that rotating phyto-additives prevents microbial adaptation and sustains methane reduction and fiber digestion.
Findings
Phyto-additives reduced methanogen populations like Methanobrevibacter in the rumen microbiome.
Alternating additives every 15 days sustained efficacy and prevented microbial adaptation.
Improved fiber degradation and reduced methane emissions were linked to microbial shifts.
Abstract
The present study aimed to understand the shift in the rumen microbiome of buffaloes fed diets with and without phyto-additives. The rationale was based on the hypothesis that plant-based additives can modulate the microbial population in the rumen, potentially reducing methane production and enhancing fiber degradation. Given the possibility that prolonged use of the same additives may lead to microbial adaptation and diminished efficacy, the study also investigated the effects of periodically switching additives. Three male buffalo calves were fed a control diet, while another three received additive-supplemented diets. Two additive formulations were used: FAI (a blend of garlic Allium sativum, ajwain Trachyspermum ammi, harad Terminalia chebula, and soapnut Sapindus mukorossi) and FAII (ajwain oil). The additives were alternated every 15 days to prevent microbial adaptation. After…
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Taxonomy
TopicsRuminant Nutrition and Digestive Physiology · Animal health and immunology · Gut microbiota and health
