Establishment of Ureolytic Staphylococci in the Rumen of Gnotobiotic Lambs

Six strains of ureolytic staphylococci isolated from rumen digesta and the rumen wall of conventionally reared sheep were inoculated per os into two germ-free lambs. High numbers of staphylococci established in rumen fluid, and urease activity and normal NH₃ and urea concentrations were maintained for approximately 4 weeks until slaughter. Staphylococci were found also to be associated with the rumen wall, conferring urease activity on this tissue.     

Antibiosis between Ruminal Bacteria and Ruminal Fungi

Cellulose digestion, bacterial numbers, and fungal numbers were monitored over time in vitro by using a purified cellulose medium with and without antibiotics (penicillin and streptomycin). All fermentations were inoculated with a 1:10 dilution of whole rumen contents (WRC). Without antibiotics, cellulose digestion was higher (P < 0.01) at 24, 30, 48, and 72 h; fungi had almost disappeared by 24 h, while bacterial concentrations increased over 100-fold in 24 h and then decreased gradually up to 72 h. In those fermentations with added antibiotics, fungal concentrations increased 4-fold by 30 h and up to 42-fold at 72 h; bacterial concentrations were markedly reduced by 24 h and remained low through 72 h. Similar results were obtained with ground alfalfa as a substrate. In further studies, the in vitro fermentation of purified cellulose without antibiotics was stopped after 18 to 20 h, and the microbial population was killed by autoclaving. Antibiotics were added to half of the tubes, and all tubes were reinoculated with WRC. After 72 h, extensive cellulose digestion had occurred in those tubes without antibiotics, as compared to very low cellulose digestion with added antibiotics. The extent of this inhibition was found to increase in proportion to the length of the initial fermentation period, suggesting the production of a heat-stable inhibitory factor or factors. The inhibitory activity was present in rumen fluid, could be extracted from lyophilized rumen fluid (LRF) with water, and was stable in response to proteolytic enzymes. In addition, the water-extracted residue of LRF was found to contain growth factor activity for rumen fungi in vitro.     

Pubertal Development of Intersertoli Cell Junctions in the Testis of Corriedale Ram Lambs

The ultrastructure of the tight junctional complex of pubertal ram lamb Sertoli cells was studied in immersion-fixed samples and related to clinical data and a light microscopical classification of the degree of spermatogenesis attained in the corresponding seminiferous tubule. Although the process followed the general mammalian developmental trend for tight junction complex formation, 2 unusual ultrastructural features were detected: the presence of an active Golgi complex during the early stage of tight junction formation and the transitory presence of ribosomes on both faces of the ectoplasmic cisternae bordering the developing junctions. The significance of these findings is discussed.     

Taxonomic Identification of Ruminal Epithelial Bacterial Diversity during Rumen Development in Goats

Understanding of the colonization process of epithelial bacteria attached to the rumen tissue during rumen development is very limited. Ruminal epithelial bacterial colonization is of great significance for the relationship between the microbiota and the host and can influence the early development and health of the host. MiSeq sequencing of 16S rRNA genes and quantitative real-time PCR (qPCR) were applied to characterize ruminal epithelial bacterial diversity during rumen development in this study. Seventeen goat kids were selected to reflect the no-rumination (0 and 7 days), transition (28 and 42 days), and rumination (70 days) phases of animal development. Alpha diversity indices (operational taxonomic unit [OTU] numbers, Chao estimate, and Shannon index) increased (P < 0.01) with age, and principal coordinate analysis (PCoA) revealed that the samples clustered together according to age group. Phylogenetic analysis revealed that Proteobacteria, Firmicutes, and Bacteroidetes were detected as the dominant phyla regardless of the age group, and the abundance of Proteobacteria declined quadratically with age (P < 0.001), while the abundances of Bacteroidetes (P = 0.088) and Firmicutes (P = 0.009) increased with age. At the genus level, Escherichia (80.79%) dominated at day zero, while Prevotella, Butyrivibrio, and Campylobacter surged (linearly; P < 0.01) in abundance at 42 and 70 days. qPCR showed that the total copy number of epithelial bacteria increased linearly (P = 0.013) with age. In addition, the abundances of the genera Butyrivibrio, Campylobacter, and Desulfobulbus were positively correlated with rumen weight, rumen papilla length, ruminal ammonia and total volatile fatty acid concentrations, and activities of carboxymethylcellulase (CMCase) and xylanase. Taking the data together, colonization by ruminal epithelial bacteria is age related (achieved at 2 months) and might participate in the anatomic and functional development of the rumen.     

Ruminal ciliated protozoa in bison

Ruminal contents from 79 slaughtered bison and 2 ruminally cannulated bison were collected to obtain information on total numbers and species distribution of ciliated protozoa. The bison originated from numerous herds throughout the Great Plains and were grouped into three dietary categories: (i) only forage; (ii) forage with moderate levels of supplementation; and (iii) feedlot concentrate-silage diet. Total ciliate counts were highest in bison receiving grain supplementation (210.1 x 10(4)/g) and lowest in bison consuming only forage (27.1 x 10(4)/g). All protozoan species found in bison have been reported in domestic livestock, although Ophryoscolex sp., a relatively common protozoan in cattle, was detected at low concentrations in only eight bison. The uncommon holotrich Microcetus lappus was present in five bison in concentrations reaching 8.4% of the total ciliate population. Charonina ventriculi, another infrequently observed species, was present in 18 bison, with the highest concentrations in forage-fed animals. Thirty bison possessed a type B protozoan population, characterized by Epidinium sp., Eudiplodinium maggii, and Eudiplodinium bovis. Thirty-eight bison possessed a mixed A-B population, characterized by Polyplastron sp. coexisting with low numbers of Eudiplodinium maggii or Epidinium sp. or both. Thirteen bison possessed populations lacking any remnant type B ciliate species. At least 29 of the bison possessing Polyplastron sp. were known to have been in contact with cattle, whereas all bison isolated from cattle had type B populations. The reduction of type B populations in bison becomes increasingly likely as bison production expands into areas inhabited by domestic livestock.     

Ruminal ciliated protozoa in bison

[This corrects the article on p. 2734 in vol. 54.].     

Ruminal Fermentation and Sugar Concentrations

The maximal amounts of growth of Selenomonas ruminantium were examined in the media containing various amounts of glucose. The yields of cells per unit weight of glucose are linear functions to glucose concentrations in the ranges between zero to 0.005% and 0.005 to 0.7%, Cell yields per glucose are greater in the former range, indicating greater a-mounts of energy are available per glucose at lower concentrations. Growth responses in lactate media containing various amounts of glucose showed that the preincubation with larger amounts of glucose is inhibitory for the following growth and metabolism of lactate. The organism produces predominantly lactate in the glucose medium. However, volatile fatty acid productions increase when the initial concentrations of glucose become low. Isotopic studies showed that the lactate utilization yielding volatile fatty acids is inhibited by the preceding metabolism of high concentrations of glucose. These results were discussed with regard to normal and abnormal fermentations in the rumen.     

Reciprocal Allogrooming in Wild Impala Lambs

Adult impala engage in a form of reciprocal allogrooming distinguished by a high degree of reciprocity and ***lack of influence of dominance or relatedness on partner preference or distribution of grooming between partners. A previous study on reciprocal allogrooming of captive newborn impala lambs in a zoological park found that the allogrooming emerged as early as the first week after birth and was identical in structure and reciprocity to allogrooming in adults. Because these findings of apparently unique allogrooming behavior of newborn impala could have been a reflection of the effects of being born and raised in a small, stable captive herd, it was necessary to investigate reciprocal allogrooming in newborn impala in the wild. The emergence, reciprocity, rate, and partner distribution of reciprocal allogrooming in wild newborn impala were observed at two study sites: a national park in Zimbabwe and a game farm in South Africa. Maternal one-way grooming between mother and newborn emerged as distinct from reciprocal allogrooming and rapidly declined after week 1 postpartum. Reciprocal allogrooming by lambs was first seen between 5 and 8 d postpartum, and as soon as the behavior occurred it was the same basic pattern as seen in adult impala. The reciprocity index for lambs was near 0.5, indicating that lambs delivered as much grooming during an encounter as the partner. Lambs were grooming frequently with non-mother adults and other lambs by week 1 or 2; by week 3 and onward the allogrooming rate of lambs was more than twice that of their mothers, as predicted by the body size principle of the programmed grooming model. The strong predisposition of neonatal impala lambs to deliver reciprocal allogrooming as early as the first or second week postpartum would appear to reflect a genetically acquired adaptation to the threat of tick infestation in their natural habitat.     

Ruminal ciliated protozoa in bison.

Ruminal contents from 79 slaughtered bison and 2 ruminally cannulated bison were collected to obtain information on total numbers and species distribution of ciliated protozoa. The bison originated from numerous herds throughout the Great Plains and were grouped into three dietary categories: (i) only forage; (ii) forage with moderate levels of supplementation; and (iii) feedlot concentrate-silage diet. Total ciliate counts were highest in bison receiving grain supplementation (210.1 x 10(4)/g) and lowest in bison consuming only forage (27.1 x 10(4)/g). All protozoan species found in bison have been reported in domestic livestock, although Ophryoscolex sp., a relatively common protozoan in cattle, was detected at low concentrations in only eight bison. The uncommon holotrich Microcetus lappus was present in five bison in concentrations reaching 8.4% of the total ciliate population. Charonina ventriculi, another infrequently observed species, was present in 18 bison, with the highest concentrations in forage-fed animals. Thirty bison possessed a type B protozoan population, characterized by Epidinium sp., Eudiplodinium maggii, and Eudiplodinium bovis. Thirty-eight bison possessed a mixed A-B population, characterized by Polyplastron sp. coexisting with low numbers of Eudiplodinium maggii or Epidinium sp. or both. Thirteen bison possessed populations lacking any remnant type B ciliate species. At least 29 of the bison possessing Polyplastron sp. were known to have been in contact with cattle, whereas all bison isolated from cattle had type B populations. The reduction of type B populations in bison becomes increasingly likely as bison production expands into areas inhabited by domestic livestock.     

Tick-Borne Fever in Lambs of Different Ages

Four groups of lambs aged 1 week, 4 weeks, 1/2 year and 1 year old respectively were inoculated with Ehrlichia phagocytophila infected blood. Clinical signs, temperature reactions, haematological changes and parasitaemia were more moderate in lambs inoculated with E. phagocytophila at the age of 1 week than those recorded in the older animals. The clinical response to tick-borne fever (TBF) appears to be more severe with increasing age of the lambs. The lymphocyte reactivity to mitogens was reduced in the TBF infected lambs, and was most pronounced in lambs in the 3 older age groups.     

Humoral and Cellular Immunity in Chromium Picolinate-Supplemented Lambs

The effects of oral supplementation of chromium picolinate (CrPic) on humoral and cellular immunity in sheep were investigated. Twenty-four male lambs divided into four treatments and received different dosages of CrPic: placebo (0), 0.250, 0.375, and 0.500 mg of chromium/animal/day during 84 days. The base ration was Panicum maximum cv Massai hay and concentrate. Blood samples were collected fortnightly for total and differential leukocyte counts. On days 28 and 56, the lambs were challenged with chicken ovalbumin I.M. Serum samples were collected on days 46 and 74 and subjected to an indirect enzyme-linked immunosorbent assay to measure IgG anti-ovalbumin. The cell-mediated immune response was determined by a delay-type hypersensitivity test using phytohemagglutinin. CrPic did not significantly affect humoral immunity in lambs but there was a negative effect on cellular immunity (P?<?0.05) as Cr supplementation increased. Therefore, the level of Cr supplementation for lambs must be better studied to address its effect on stressed animals or the possible toxic effects of Cr on the animal itself or its immune system.     

Ruminal Metabolism of Dnoc and Dnbp)

The metabolism of DNOG and DNBP in rumen fluid was examined in vitro after elaboration of analytical methods for quantitative determination of dinitrophenols, their 6-amino derivative and diamino-phenols. It was shown that, under anaerobic conditions, the dinitrophenols were rapidly converted into 6-amino derivatives, which successively were reduced to diamino compounds. Reduction did not take place in heat-sterilized rumen specimens, and the metabolism was inhibited by high initial concentrations of the dinitro compounds in the rumen fluid (1—4 × 10−3M). In vivo experiments were performed for determination of the concentrations of the dinitrophenols and their metabolites in rumen fluid and blood plasma in a cow. Ruminai metabolism was rapid like in vitro, and the parent compounds were reduced in 10—30 min. The 6-amino derivatives persisted in the rumen fluid for 1 nr., and thereafter only diaminophenols could be detected for another 8—10 hrs. At least 95 % of the absorbed DNOG or DNBP were bound to plasma proteins. 6-amino-4-nitro-o-cresol wτas found in plasma exclusively in conjugated form, while 6-amino-4-nitro-sec.-butylphenol was free. The diamino compounds were not demonstrated in blood plasma. Severe methaemoglobinaemia and haemolysis were seen after administration of DNBP. The difference in toxicity for ruminants between the two dinitrophenols is discussed on the basis of the observations reported pointing at the unconjugated 6-amino-4-nitro-sec-butylphenol as a potent inducer of methaemoglobinaemia.     

Hepatic Cobalt and Copper Levels in Lambs in Norway

Cobalt and copper concentrations were measured in 599 lamb livers collected at slaughter from 58 sheep flocks in 6 different parts of Norway in 1993. Information about pasture, additional feeding and mineral supplements in the flocks was obtained through a questionnaire. Average hepatic levels of cobalt in the lamb flocks varied from <0.003 to 0.22 μg/g ww, and of copper from 5 to 240 μg/g ww. Flocks with deficient or marginal cobalt status were found in all parts of southern Norway, but primarily in the west and south-west. Some flocks with marginal copper status were found in the south-west, while flocks with signs of excessive hepatic copper concentrations were found mainly in inner parts of central and northern Norway. Hepatic copper concentrations were significantly higher in lambs that had grazed mountain pastures than in those that had grazed lowland pastures in the summer.     

Ruminal Metabolism and Methemoglobin-Forming Effect of Dinobuton in Sheep

Many aromatic nitro compounds are reduced to the corresponding amines in the rumen by the activity of the rumen flora, and this may influence the effect of such compounds when given orally to ruminants. The dinitrophenol herbicide DNBP (2-(1-methyl-n-propyl)-4,6-dinitrophenol, dinoseb) is a good example of a compound with this property, as DNBP has a methemoglobin-forming effect in ruminants (Frøslie & Karlog 1970). These authors connected this phenomenon with the ruminai metabolism of DNBP, because it is reduced to 6-ANBP (2-(1-methyl-n-propyl)-4-nitro-6-aminophenol), and 6-ANBP successively is reduced to DABP (2-(1-methyl-n-propyl)-4,6-diaminophenol) in the rumen.     

Quantitative Antibiotic Sensitivities of Ruminal Bacteria

Fifteen species of ruminal bacteria were tested against 10 antibiotics in concentrations ranging from 0.1 to 200 mug/ml in an anaerobic tube dilution system.     

Effects of Thymol on Ruminal Microorganisms

Thymol (5-methyl-2-isopropylphenol) is a phenolic compound that is used to inhibit oral bacteria. Because little is known regarding the effects of this compound on ruminal microorganisms, the objective of this study was to determine the effects of thymol on growth and lactate production by the ruminal bacteria Streptococcus bovis JB1 and Selenomonas ruminantium HD4. In addition, the effect of thymol on the in vitro fermentation of glucose by mixed ruminal microorganisms was investigated. Neither 45 nor 90 μg/ml of thymol had any significant effect on growth or lactate production by S. bovis JB1, but 180 μg/ml of thymol completely inhibited growth and lactate production. In the case of S. ruminantium HD4, 45 μg/ml of thymol had little effect on growth and lactate production; however, 90 μg/ml of thymol completely inhibited growth of S. ruminantium HD4. Thymol also decreased glucose uptake by whole cells of both bacteria. When mixed ruminal microorganisms were incubated in medium that contained glucose, 400 μg/ml of thymol increased final pH and the acetate to propionate ratio and decreased concentrations of methane, acetate, propionate, and lactate. In conclusion, thymol was a potent inhibitor of glucose fermentation by S. bovis JB1 and S. ruminantium HD4. Even though thymol treatment decreased methane and lactate concentrations and increased final pH in mixed ruminal microorganism fermentations of glucose, concentrations of acetate and propionate were also reduced. Received: 13 May 2000 / Accepted: 14 June 2000     

Antibiotic Susceptibility of Anaerobic Ruminal Bacteria

This study demonstrated that 15 species of ruminal bacteria with no previous history of contact with antibiotics are susceptible to bacitracin, chloramphenicol, chlortetracycline, erythromycin, novobiocin, oleandomycin, oxytetracycline, penicillin, tetracycline, tylosin, and vancomycin. A number of the species were not inhibited by kanamycin, neomycin, polymyxin, and streptomycin. The data suggest that antibiotic-resistant cells occur within susceptible cultures of these species. Streptococcus bovis FD-10 and a nonruminal anaerobe, Bacteroides melaninogenicus BE-1, showed similar antibiotic susceptibilities.     

Electrophoretic Forms of Chitinolytic and Lysozyme Activities in Ruminal Protozoa

Homogenates from a mixed ruminal protozoal population and a ruminal protozoon Entodinium caudatum were analyzed for chitinolytic and lysozyme activities by sodium dodecyl sulfate polyacrylamide gel electrophoresis. For chitinase activity, up to eight bands in mixed protozoa and seven bands in E. caudatum were detected. Estimated molecular mass ranged from 70 to 110 kDa. These enzymes did not display lysozyme activity. N-Acetyl-β-glucosaminidase activity was also detected in both samples with an estimated molecular mass of 37 kDa. Lysozyme activity in mixed protozoa was present in two major and three minor bands, where one major band displayed the same motility as chicken egg white (CEW) lysozyme, and the other had an approximate molecular mass of 17.5 kDa. The latter remained active even when denatured in the presence of dithiothreitol and renatured under anaerobic conditions. Entodinium caudatum presented one major band coincident with that of CEW lysozyme and a minor band at the 17.5-kDa point. This study showed that protozoal chitinase and lysozyme activities are originated from several enzymes and that none of these enzymes exhibited both activities.