Hostname: page-component-7bb8b95d7b-w7rtg Total loading time: 0 Render date: 2024-09-07T06:14:11.176Z Has data issue: false hasContentIssue false
  • English
  • Français

The effect of variation in phosphorus intake on salivary phosphorus secretion, net intestinal phosphorus absorption and faecal endogenous phosphorus excretion in sheep

Published online by Cambridge University Press:  27 March 2009

D. Scott ,
F. G. Whitelaw ,
W. Buchan  and
L. A. Bruce
D. Scott
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen, AB2 9SB
F. G. Whitelaw
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen, AB2 9SB
W. Buchan
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen, AB2 9SB
L. A. Bruce
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen, AB2 9SB
Get access Rights & Permissions [Opens in a new window]

Summary

Mature sheep fitted with rumen and duodenal cannulae, and fed a pelleted hay diet, were given supplementary phosphorus by continuous infusion into the rumen and the effects on salivary phosphorus secretion, net intestinal phosphorus absorption and faecal endogenous phosphorus excretion were studied. In control periods little phosphorus was excreted in the urine and little increase was seen in response to supplementation, the faeces being the major pathway for excretion. Increasing phosphorus intake led to an increase in net intestinal phosphorus absorption, a rise in plasma phosphate concentration, an increase in salivary phosphorus secretion and an increase in faecal endogenous phosphorus excretion. Overall net intestinal absorptive efficiency for phosphorus did, however, decrease as intake rose so that changes in faecal endogenous phosphorus excretion were in part due to increased salivary phosphorus secretion and in part to a reduction in overall absorptive efficiency. The significance of these changes in relation to the control of phosphorus balance in ruminants is discussed.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 105 , Issue 2 , October 1985 , pp. 271 - 277
Copyright
Copyright © Cambridge University Press 1985

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Agricultural Research Council (1965). The Nutrient Requirements of Farm Livestock. No. 2. Ruminants. London: H.M.S.O.Google Scholar
Agricultural Research Council (1980). The Nutrient Requirements of Ruminant Livestock Farnham Royal: Commonwealth Agricultural Bureaux.Google Scholar
Banks, J. N. & Smith, R. H. (1984). Sites of absorption of magnesium and phosphate in the stomach of the ruminating calf. Proceedings of the Nutrition Society 43, 8A.Google Scholar
Braithwaite, G. D. (1984). Changes in phosphorus metabolism of sheep in response to the increased demands of P associated with an intravenous infusion of calcium. Journal of Agricultural Science, Cambridge 102, 135139.Google Scholar
Clark, R. C., Budtz-Olsen, O. E., Cross, R. B., Finnamore, P. & Bauert, P. A. (1973). The importance of the salivary gland in the maintenance of phosphorus homeostasis in the sheep. Australian Journal of Agricultural Research 24, 913919.CrossRefGoogle Scholar
Cooke, B. (1982). Feeding above mineral requirements enhances performance. Milling, Feed and Fertiliser 165 (9), 2733.Google Scholar
Engelhardt, W. V. & Hauffe, R. (1975). Role of the omasum in absorption and secretion of water and electrolytes in sheep and goats. In Digestion and Metabolism in the Ruminant (ed. McDonald, I. W. and Warner, A. C. I.), pp. 216230. Armidale: University of New England.Google Scholar
Field, A. C. (1981). Some thoughts on dietary requirements of macro-elements. Proceedings of the Nutrition Society 40, 267272.Google Scholar
Field, A. C., Kamphues, J. & Woolliams, J. A. (1983). The effect of dietary intake of calcium and phosphorus on the absorption of phosphorus in chimaeraderived sheep. Journal of Agricultural Science, Cambridge 101, 597602.Google Scholar
Garton, G. A. (1951). Observations on the distribution of inorganic phosphorus, soluble calcium and soluble magnesium in the stomach of the sheep. Journal of Experimental Biology 28, 358368.Google Scholar
Gitelman, H. (1967). An improved automated procedure for the determination of calcium in biological specimens. Analytical Biochemistry 18, 521531.Google Scholar
Grace, N. D. (1980). Effect of increasing phosphorus intake on the P faecal endogenous loss in the sheep. Proceedings of the New Zealand Society of Animal Production 40, 221225.Google Scholar
Grace, N. D. (1981). Phosphorus kinetics in the sheep. British Journal of Nutrition 45, 367374.Google Scholar
Hill, R. (1962). The provision and metabolism of calcium, magnesium and phosphorus in ruminants. World Review of Nutrition and Dietetics 6, 292325.Google Scholar
Kleiber, M., Smith, A. H., Ralston, M. P. & Black, A. L. (1951). Radiophosphorus (32P) as tracer for measuring endogenous phosphorus in cows faeces. Journal of Nutrition 45, 253263.Google Scholar
Parthasarathy, D., Garton, G. A. & Phillipson, A. T. (1952). The passage of phosphorus across the rumen epithelium of sheep. Biochemical Journal 52, xvi.Google Scholar
Pfeffer, E. (1968). Untersuchungen über Mineral-stoffbewegungen in Verdauungskanal von ausgewachsenen. Hameln. Habilitations-Schrift, University of Göttingen.Google Scholar
Roach, A. G. (1965). In Automation in Analytical Chemistry. Technicon Symposium, pp. 137141.Google Scholar
Scarisbrick, R. & Ewer, T. K. (1951). The absorption of inorganic phosphate from the rumen of the sheep. Biochemical Journal 49, lxxix.Google Scholar
Scott, D. & McLean, A. F. (1981). Control of mineral absorption in ruminants. Proceedings of the Nutrition Society 40, 257266.Google Scholar
Scott, D., McLean, A. F. & Buchan, W. (1984). The effect of variation in phosphorus intake on net intestinal phosphorus absorption, salivary phosphorus secretion and pathway of excretion in sheep fed roughage diets. Quarterly Journal of Experimental Physiology 69, 439452.Google Scholar
Smith, R. H. (1984). Microbial activity in the omasum. Proceedings of the Nutrition Society 43, 6368.Google Scholar
Smith, R. H. & Edrise, B. M. (1978). Absorption of magnesium and phosphate in the omasum of the young steer. Proceedings of the Nutrition Society 37, 60A.Google Scholar
Sperber, I. & Hyden, S. (1952). Transport of chloride through the rumen mucosa. Nature 169, 587.Google Scholar
Tomas, F. M. (1975). Renal response to intravenous phosphate infusion in the sheep. Australian Journal of Biological Science 28, 511520.Google Scholar
Towns, K. M., Boston, R. C. & Leaver, D. D. (1978). The effect of intravenous administration of phosphorus on phosphorus and calcium metabolism in sheep. Australian Journal of Agricultural Research 29, 587593.Google Scholar
Watson, R. H. (1933). The threshold for the renal excretion of inorganic phosphates in the sheep. Australian Journal of Experimental Biology and Medical Sciences 11, 197207.Google Scholar
Wright, E. (1955). Site of phosphorus absorption in sheep. Nature 176, 351352.Google Scholar
Young, D. S. (1966). An improved method for the automatic determination of serum inorganic phosphate. Journal of Clinical Pathology 19, 397399.Google Scholar