Effect of Chitosan on Ruminal Fermentation and Microbial Communities, Methane Emissions, and Productive Performance of Dairy Cattle.
Jagoba ReyXabier Díaz de OtáloraRaquel AtxaerandioNerea MandalunizAser Garcia-RodriguezOscar González-RecioAdrián López-GarciaRoberto RuizIdoia GoiriPublished in: Animals : an open access journal from MDPI (2023)
This study aimed to expand the knowledge about the activity and mode of action of CHI on methanogenesis and rumen microbial populations in vivo. A total of 16 lactating dairy cows were distributed in two groups, one of them receiving 135 mg CHI/kg body weight daily. The effect on productive performance, milk composition, fermentation efficiency, methane emissions, microbial protein synthesis, and ruminal microbial communities was determined. Supplementation with CHI did not affect rumen microbial diversity but increased the relative abundance (RA) of the bacteria Anaeroplasma and decreased those of rumen ciliates and protozoa resulting in a shift towards a lower acetic to propionic ratio. However, no effect on milk yield or methane intensity was observed. In conclusion, supplementing 135 mg CHI/kg body weight increased the RA of Anaeroplasma and decreased those of rumen ciliates and protozoa, both being related to fiber degradation in the rumen in different ways and resulted in a shift of ruminal fermentation towards more propionate proportions, without affecting CH 4 emissions, milk yield, or milk composition. Further research with higher doses would be necessary to assess the potential use of this additive as a methane inhibitor.
Keyphrases
- body weight
- anaerobic digestion
- dairy cows
- municipal solid waste
- microbial community
- antibiotic resistance genes
- carbon dioxide
- rheumatoid arthritis
- saccharomyces cerevisiae
- lactic acid
- sewage sludge
- healthcare
- ankylosing spondylitis
- physical activity
- disease activity
- high intensity
- systemic lupus erythematosus
- hyaluronic acid
- ionic liquid
- genetic diversity