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Natural variability and diurnal fluctuations within the bacteriophage population of the rumen

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Swain, R. A., Nolan, J. V. and Klieve, A. V. (1996) Natural variability and diurnal fluctuations within the bacteriophage population of the rumen. Applied and Environmental Microbiology, 62 (3). pp. 994-997.

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Article Link: https://doi.org/10.1128/aem.62.3.994-997.1996

Abstract

To investigate the impact of nutritional and environmental factors on bacteriophage activity in the rumen, it is first valuable to determine the extent of natural variations and fluctuations in phage populations from different animal species, and from animals located together and separately, and variation in animals over time. Differences in phage populations between sheep on different diets, between sheep and gnats, and within the rumen over time were investigated by using pulsed-field gel electrophoresis and comparing total phage DNA in ruminal fluid. It was found that no two individuals had similar DNA banding patterns, even when similarly fed and penned together, indicating there is considerable individual diversity in phage populations between animals. Despite these individual differences, the quantities, but not the banding patterns, of phage DNA were similar for animals within groups but varied between groups, suggesting that nutritional factors may influence overall phage activity in the rumen. In sheep fed once daily, a distinct diurnal variation in the phage population was observed. Two hours postfeeding, total phage DNA dropped to its lowest level. The phage population then increased, reaching a maximal level 8 to 10 h postfeeding before declining over the next 4 h to reach a stable concentration for the rest of the cycle. The general trend in phage DNA concentration appeared similar to previously recorded diurnal fluctuations in ruminal bacterial populations in cattle fed once daily.

Item Type:Article
Business groups:Animal Science
Additional Information:Open access Rosalind A. Swain changed name to Rosalind A. Gilbert
Keywords:article bacteriophage circadian rhythm nonhuman quantitative assay ruminant stomach virus detection
Subjects:Science > Microbiology
Science > Microbiology > Microbial ecology
Science > Microbiology > Microorganisms in the animal body
Animal culture > Cattle
Live Archive:12 Jul 2021 03:50
Last Modified:03 Sep 2021 16:46

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