The alleviation of chronic copper toxicity in sheep by ciliate protozoa

1. Rams, fauna-free from birth and initially of 48–65 kg live weight, were allocated to two groups of ten each and given a diet containing 14 μg copper/g dry matter; five additional rams were killed and their livers were analysed for Cu. 2. One group (faunated) was inoculated with a mixed population of ciliate protozoa, and contained between 60x105 and 195 x 105 protozoa/ml rumen fluid throughout the 184 d experiment. The other group remained fauna-free. Following blood sampling, three rams in each group were killed on day 63, two on day 125 and four on day 184. One sheep in each group died during the experiment. 3. Faunated rams showed higher weight gains and feed consumption than fauna-free rams. 4. Plasma Cu concentration (μg/ml) increased from an initial 0.82to a final 1.00 in faunated and 1.36 in fauna-free rams. Liver Cu concentration (μg/g dry matter) increased from an initial 745 to a final 962 and 1684 in faunated and in fauna-free sheep respectively, representing a 4.3-fold greater increase in the fauna-free than in the faunated group. The absorption and retention of Cu was 38–50% higher in the fauna-free than in the faunated rams. 5. It was suggested that rumen ciliate protozoa increased rumen production of sulphide (through increased breakdown of soluble proteins) which complexed part of the Cu, making it unavailable for absorption and utilization. Therefore, ciliate protozoa could determine susceptibility to chronic Cu toxicity in sheep.

[1]  K. Ushida,et al.  PROTOZOAL CONTRIBUTION TO NITROGEN DIGESTION IN SHEEP , 1984 .

[2]  D. Veira,et al.  THE EFFECT OF CILIATE PROTOZOA ON THE FLOW OF AMINO ACIDS FROM THE STOMACH OF SHEEP , 1984 .

[3]  M. Hidiroglou,et al.  Copper poisoning in a flock of sheep. Copper excretion patterns after treatment with molybdenum and sulfur or penicillamine. , 1984, The Canadian veterinary journal = La revue veterinaire canadienne.

[4]  J. Eadie,et al.  Methane formation in faunated and ciliate-free cattle and its relationship with rumen volatile fatty acid proportions , 1984, British Journal of Nutrition.

[5]  D. Veira,et al.  Rumen ciliate protozoa: effects on digestion in the stomach of sheep. , 1983, Journal of dairy science.

[6]  J. Sutton,et al.  The effect of varying the amount of linseed oil supplementation on rumen metabolism in sheep , 1982, British Journal of Nutrition.

[7]  Bostwick Jl Copper toxicosis in sheep. , 1982 .

[8]  D. Veira,et al.  EFFECT OF DIETARY PROTEIN ON THE SOLUBILITIES OF MANGANESE, COPPER, ZINC AND IRON IN THE RUMEN AND ABOMASUM OF SHEEP , 1981 .

[9]  J. Jouany,et al.  Rôle of the rumen ciliate protozoa Polyplastron multivesiculatum, Entodinium sp. and Isotricha prostoma in the digestion of a mixed diet in sheep. , 1981, Reproduction, nutrition, developpement.

[10]  M. Lamand,et al.  The fate of 99Mo-labelled sodium tetrathiomolybdate after duodenal administration in sheep: the effect on caeruloplasmin (EC 1.16.3.1) diamine oxidase activity and plasma copper , 1980, British Journal of Nutrition.

[11]  Y. Ruckebusch,et al.  Digestive Physiology and Metabolism in Ruminants , 1980, Springer Netherlands.

[12]  R. Leng,et al.  The effects of defaunation of the rumen on the growth of lambs on low-protein-high-energy diets , 1978, British Journal of Nutrition.

[13]  G. Ward,et al.  Molybdenum toxicity and hypocuprosis in ruminants: a review. , 1978, Journal of animal science.

[14]  S. B. Cammell,et al.  The digestion of frozen and dried grass by sheep , 1976, The Journal of Agricultural Science.

[15]  M. Beeler,et al.  Measurement of ceruloplasmin from its oxidase activity in serum by use of o-dianisidine dihydrochloride. , 1974, Clinical chemistry.

[16]  I. Hume The Proportion of Dietary Protein Escaping Degradation in the Rumen of Sheep Fed on Various Protein Concentrates , 1974 .

[17]  T. Klopfenstein,et al.  Effects of defaunation on feed digestibility rumen metabolism and blood metabolites. , 1966, Journal of animal science.

[18]  R. Kawashima,et al.  Influence of Protozoa upon Rumen Acid Production and Liveweight Gains in Lambs , 1965 .

[19]  K. El-Shazly,et al.  EFFECT OF ABSENCE OF CILIATE PROTOZOA FROM THE RUMEN ON MICROBIAL ACTIVITY AND GROWTH OF LAMBS. , 1964, Applied microbiology.

[20]  J. W. Hibbs,et al.  The Effect of Rumen Inoculations on the Digestibility of Roughages in Young Dairy Calves , 1950 .