1958
DOI: 10.3168/jds.s0022-0302(58)91160-3
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Studies on the Composition of the Ruminal Flora and Fauna of Young Calves

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Cited by 159 publications
(92 citation statements)
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References 30 publications
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“…Only after 45 days of age, microbial functional groups were similar to those of adult goats [14]. This agrees with Bryant et al [12], who reported that the ruminal microbial population between the fi rst and third week of life is different from adult animals. While between 9 and 17 weeks of age, microbial populations are similar to those of adult cattle.…”
Section: Functional Groups Of Rumen Microorganisms According To Age Asupporting
confidence: 81%
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“…Only after 45 days of age, microbial functional groups were similar to those of adult goats [14]. This agrees with Bryant et al [12], who reported that the ruminal microbial population between the fi rst and third week of life is different from adult animals. While between 9 and 17 weeks of age, microbial populations are similar to those of adult cattle.…”
Section: Functional Groups Of Rumen Microorganisms According To Age Asupporting
confidence: 81%
“…This coincides with Minato et al [36] and Anderson et al [11] argue that in calves some bacteria colonize the rumen in the fi rst days of life, even before the start of solid food intake. In kids of Brought to you by | MIT Libraries Authenticated Download Date | 5/11/18 5:43 AM both groups, cellulolytic bacteria were recorded from 45 days of age, long time after that reported in lambs [37] and calves [11,12], in which were found during the fi rst week of life. Protozoa were also established at 45 days of age, earlier than observed in calves [11,36], but after than lambs [38].…”
Section: Functional Groups Of Rumen Microorganisms According To Age Amentioning
confidence: 99%
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“…The changes in the structural and physiological properties of the rumen with age are linked to the development of the rumen microorganisms, as their fermentation products are important for the development of the rumen wall villi (Klein et al, 1987;Beharka et al, 1998). Early research into the emergence of microbial communities in the rumen of newborn animals revealed rapid colonization of the rumen by aerobic and facultative anaerobic microbial taxa close to birth, which decreased gradually to a constant level at between 6 and 8 weeks of age, being gradually replaced by exclusively anaerobic taxa (Bryant et al, 1958;Fonty et al, 1987;Minato et al, 1992). Interestingly, bacteria with cellulolytic capabilities appeared in 3-5-day-old animals, becoming abundant in 2-3-week-olds (Fonty et al, 1987;Minato et al, 1992).…”
Section: Introductionmentioning
confidence: 99%
“…Oxford (1955) reported sequential establishment of entodinia before diplodinia before holotrichs. Bryant et al (1958) found, similarly to our results, no proto- [245][246][247][248][249][250][251][252][253][254][255][256][257][258] zoa in three isolated calves during 13 weeks after birth; entodinia were first observed in these animals at 17 weeks of age after the calves were placed in contact with adult cattle and the sequence of establishment of entodinia, diplodinia and holotrichs was the same as reported by Oxford (1955). Naga et al (1969) reported that Entodinium followed by Eudiplodinium were the first two genera to appear in the rumen of buffalo calves where ciliated protozoa were seen earlier than in cow calves in which isotrichs and entodinia occurred almost simultaneously.…”
Section: Discussionmentioning
confidence: 99%