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The influence of dietary calcium and phosphorus concentration on their absorption in the cow

Published online by Cambridge University Press:  27 March 2009

R. Manston
R. Manston
Affiliation:
A.R.C. Institute for Research on Animal Diseases, Compton, Near Newbury, Berkshire
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Extract

Experiments were carried out in dry, nonpregnant cows by varying dietary concentrations of calcium and phosphorus. Calcium and phosphorus absorption were measured by balance and isotope techniques. It was found that absorption of calcium or phosphorus increased when the dietary intake of the element increased, but only for a few days.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 68 , Issue 2 , April 1967 , pp. 263 - 268
Copyright
Copyright © Cambridge University Press 1967

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References

REFERENCES

Agricultural Research Council (1965). The Nutrient requirements of farm livestock, no. 2, Ruminants. A.R.C. London.Google Scholar
Balch, C. C, Bartlett, S. & Johnson, V. M. (1951). Apparatus for separate collection of faeces and urine from cows. J. agric. Sci., Camb. 41, 98101.CrossRefGoogle Scholar
Boda, J. M. (1956). Further studies on the influence of dietary calcium and phosphorus on the incidence of milk fever. J. Dairy Sci. 39, 6671.CrossRefGoogle Scholar
Boda, J. M. & Cole, H. H. (1954). The influence of dietary calcium and phosphorus on the incidence of milk fever in dairy cattle. J. Dairy Sci. 37, 360–72.CrossRefGoogle Scholar
Ender, F., Dishington, I. W. & Helgebostad, A. (1956). Parturient paresis and related forms of hypocalcaemic disorders induced experimentally in dairy cows. Nord. Vet Med. 8, 507515.Google Scholar
Hansard, S. L., Comar, C. L. & Plumlee, M. P. (1954). The effects of age upon calcium utilization and maintenance requirements in the bovine. J. Anim. Sci. 13, 2536.CrossRefGoogle Scholar
Kramer, B. & Tisdall, F. F. (1921). A simple technique for the determination of calcium and magnesium in small amounts of serum. J. biol. Chem. 47, 475–78.CrossRefGoogle Scholar
Lengemann, F. W. (1965). Lack of effect of level of dietary phosphorus upon faecal endogenous calcium. J. Dairy Sci. 48, 1718–19.CrossRefGoogle Scholar
Luick, J. R., Boda, J. M. & Kleiber, M. (1957). Some biokinetic aspects of calcium metabolism in dairy cows. Am. J. Physiol. 189, 483–8.CrossRefGoogle Scholar
Manston, R. (1966). Simultaneous autoanalysis of calcium and phosphorus. Analyt. Biochem. 16, 65–9.CrossRefGoogle ScholarPubMed
Moodie, E. W. (1960). Some aspects of hypocalcaemia in cattle. Vet. Rec. 72, 1145–8.Google Scholar
Moodie, E. W., Marr, A. & Robertson, A. (1955).Serum calcium and magnesium and plasma phosphate levels in normal parturient cows. J. comp. Path. Ther. 65, 2036.CrossRefGoogle ScholarPubMed
Preston, R. L. & Pfander, W. H. (1964). Phosphorus metabolism in lambs fed varying phosphorus intakes. J. Nutr. 83, 369–78.CrossRefGoogle ScholarPubMed
Stott, G. H. (1965). Parturient paresis related to dietary phosphous. J. Dairy Sci. 48, 1485–9.CrossRefGoogle Scholar
Wise, M. B., Ordoveza, A. L. & Barrick, E. R. (1963). Influence of variations in dietary calcium: phosphorus ratio on performance and blood constituents of calves. J. Nutr. 79, 7984.CrossRefGoogle ScholarPubMed