AI Article Synopsis
- The study aimed to analyze the biomass and community structure of bacteria, protozoa, and archaea in the rumen and feces of goats, focusing on the impact of their diet (alfalfa hay with or without oats).
- Four adult goats were used in a crossover experiment over 26 days to adapt, sample rumen contents, and measure digestibility, employing techniques like qPCR and DGGE for analysis.
- Results showed that goats fed alfalfa hay had higher archaeal and bacterial numbers in the rumen, while protozoal counts were lower in feces; dietary changes also led to distinct microbial community structures in the rumen versus feces, reducing similarity with oats supplementation.
Article Abstract
The objective of this work was to compare the biomass and community structure of bacteria, protozoa and archaea communities in samples of rumen and faeces of goats and to what extent the diet (alfalfa hay with or without supplemented oats) offered to them exert an influence. Four cannulated adult goats fistulated in the rumen were used in a cross over design experiment in two experimental periods of 26 days, consisting in 14 days of adaptation, 7 days of sampling rumen contents and 5 days of digestibility measurement. Bacterial, protozoa and archaeal biomass and the communities' structure was assessed by real time PCR (qPCR) and denaturing gradient gel electrophoresis (DGGE), respectively. The numbers of archaea and bacteria in both rumen and faeces were higher and lower, respectively, in animals fed AH diet (P < 0.005). Contrary, protozoal numbers were not affected by the diet but were lower (P < 0.001) in faeces than in rumen. The analysis of the community structure revealed a consistently different population in structure in rumen and faeces for the three studied microbial groups and that supplementing alfalfa hay with oats led to a decrease in the similarity between sites in the rumen and faeces: similarity indexes for bacteria (57 and 27%), archaea (26 and 9%) and protozoa (62 and 22%) in animals fed AH and AHO diets, respectively.
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| http://dx.doi.org/10.1016/j.anaerobe.2013.11.012 | DOI Listing |
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