Hostname: page-component-78c5997874-fbnjt Total loading time: 0 Render date: 2024-11-03T05:15:15.174Z Has data issue: false hasContentIssue false
  • English
  • Français

Effects of age and state of incisor dentition on the chemical composition of the skeleton of sheep grazing hill pastures

Published online by Cambridge University Press:  27 March 2009

A. R. Sykes ,
A. C. Field  and
R. G. Gunn
A. R. Sykes
Affiliation:
Moredun Research Institute, Edinburgh, EH.17 7JH
A. C. Field
Affiliation:
Moredun Research Institute, Edinburgh, EH.17 7JH
R. G. Gunn
Affiliation:
Hill Farming Research Organisation, Bush Estate, Midlothian, EH26 OPH
Get access Rights & Permissions [Opens in a new window]

Summary

The chemical composition of the skeleton, mandible and 4th lumbar vertebra of 59 Scottish Blackface female sheep from a ‘broken mouth’ farm was determined. There were 27 6½-year-old sheep (11 with sound mouths, 16 with broken mouths), 16 5½-year old sheep (with loose incisor teeth which at the outset of the experiment were clipped to gum level) and 16 2½-year-old sheep. Sheep from each group were slaughtered at the beginning of pregnancy and in mid-lactation and from those with broken mouths and from the 5½-year-old and 2½-year-old groups at the end of the subsequent dry period. The sheep grazed hill pastures and received an energy supplement during late pregnancy and early lactation.

There were no differences between the 6½-year-old sheep with broken mouths and those with sound mouths in total skeletal mineral content or in the density of ash (ash: volume ratio) or organic matrix (organic matter: volume ratio) in the mandible and lumbar vertebra at the beginning of pregnancy or in mid-lactation. Nor were there differences in the density of ash or organic matrix between any groups, although the skeletons of the 6½-year-old sheep were larger. The lumbar vertebra, which is rich in cancellous bone, had a lower ash and organic matrix density in the 5½- and 2½-year-old sheep. It is suggested that bone mineralization may proceed slowly on such hill pastures.

The rates of repletion of the skeleton during the dry period, 0·35, 0·47 and 0·66 g Ca/day, respectively, in the 6½-year-old sheep with broken mouths, 5½-year-old and 2½-year-old sheep were much slower than rates given in the literature for sheep under controlled conditions. It is suggested that factors other than the major nutrients, protein, Ca and P, may be limiting repletion of the skeleton.

Recovery of the ash density of the vertebra was not complete at the end of the dry period. This was especially so in the sheep with broken mouths and resulted mainly from a failure to replace bone organic matrix.

The implications for the development of broken mouth of cyclical changes in the density of cancellous bone and of evidence that the ability to maintain and to remineralize the skeleton deteriorates with increasing age, are discussed.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 83 , Issue 1 , August 1974 , pp. 145 - 150
Copyright
Copyright © Cambridge University Press 1974

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

Benzie, D., Boyne, A. W., Dalgarno, A. C, Duckworth, J., Hill, R., & Walker, D. M. (1955). Studies of the skeleton of the sheep. I. The effect of different levels of dietary calcium during pregnancy and lactation on individual bones. Journal of Agricultural Science, Cambridge 46, 425–40.CrossRefGoogle Scholar
Benzie, D., Boyne, A. W., Dalgarno, A. C, Duckworth, J., Hill, R. & Walker, D. M. (1956). Studies of the skeleton of the sheep. II. The relationship between calcium intake and resorption and repair of the skeleton in pregnancy and lactation. Journal of Agricultural Science, Cambridge 48, 175–86.CrossRefGoogle Scholar
Benzie, D., Boyne, A. W., Dalgarno, A. C, Duckworth, J. & Hill, R. (1959). Studies of the skeleton of the sheep. III. The relationship between phosphorus intake and resorption and repair of the skeleton in pregnancy and lactation. Journal ofAgricultural Science, Cambridge 52, 112.CrossRefGoogle Scholar
Benzie, D. & Cresswell, E. (1962). Studies of the dentition of sheep. IV. Radiological studies from investigations into the shedding of permanent incisor teeth by hill sheep. Research in Veterinary Science 3, 416–28.CrossRefGoogle Scholar
Chick, H., Korenchevsky, V. & Roscoe, M. H. (1926). Difference in chemical composition of skeletons of young rats fed on diets deprived of fat soluble vitamins and on low phosphorus rachitic diets compared with those of normally nourished animals of the same age. Biochemical Journal 20, 622–31.CrossRefGoogle ScholarPubMed
Chick, H. & Roscoe, M. H. (1926). The anti-rachitic value of fresh spinach. Biochemical Journal 20, 137–51.CrossRefGoogle ScholarPubMed
Field, A. C. & Suttle, N. F. (1966). A method for determining the body composition of sheep based on dissolution of the sheep in nitric acid. Proceedings of the Nutrition Society 25, xxiiixxiv.Google Scholar
Field, A. C, Sykes, A. R. & Gunn, R. G. (1974). Effects of age and state of incisor dentition on faecal output of dry matter, and on faccal and urinary output of nitrogen and minerals of sheep grazing hill pastures. Journal of Agricultural Science, Cambridge 83, 151–60.CrossRefGoogle Scholar
Gunn, R. G. (1969). The effects of calcium and phosphorus supplementation on the performance of Scottish Blackface hill ewes, with particular reference to the premature loss of permanent incisor teeth. Journal of Agricultural Science, Cambridge 72, 371–78.CrossRefGoogle Scholar
Sykes, A. R. & Field, A. C. (1972). Effects of dietary deficiencies of energy, protein and calcium on the pregnant ewe. I. Body composition and mineral content of the ewes. Journal of Agricultural Science, Cambridge 78, 109–17.CrossRefGoogle Scholar
Sykes, A. R., Field, A. C. & Gunn, R. G. (1974). Effects of age and state of incisor dentition on the body composition and lamb production of sheep grazing hill pastures. Journal of Agricultural Science, Cambridge 83, 135–43.CrossRefGoogle Scholar
Sykes, A. R., Nisbet, D. I. & Field, A. C. (1973). Effects of dietary deficiencies of energy, protein and calcium on the pregnant ewe. V. Chemical analysis and histological examination ofsome individual bones. Journal of Agricultural Science, Cambridge 81, 433–40.CrossRefGoogle Scholar