Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-30T21:00:18.916Z Has data issue: false hasContentIssue false

A model for calculation of the energy requirements of the pregnant ewe

Published online by Cambridge University Press:  02 September 2010

Pamela A Geisler
Affiliation:
Grassland Research Institute, Hurley, Maidenhead, Berkshire SL6 5LR
C. Merryl Jones
Affiliation:
Grassland Research Institute, Hurley, Maidenhead, Berkshire SL6 5LR
Get access

Abstract

A computer program is described which allows the calculation throughout pregnancy of the energy requirements of a ewe of any weight carrying any number of foetuses. The calculations rely on a prediction of potential lamb birth weight, from which a foetal growth curve of weight against time from conception is generated. Tied to the foetal growth curve are the growths of the placenta and fluids, while growth of the uterus is related to the ewe's weight at mating. Weights are converted to energy through energy density curves applicable through pregnancy for each component. An efficiency factor converts this energy requirement into a metabolizable energy requirement. With assumptions on the maintenance requirements for the ewe-foetus system, the total requirement for energy during pregnancy is calculated.

Predictions from the model are compared with other estimates of energy requirements available in the literature. The sensitivity of the predictions of energy requirements for the pregnant ewe to variations in the assumptions made in the construction of the model is discussed. The most important assumptions are those on the maintenance requirements for the ewe-foetus system. Effects on the predicted energy requirements of varying either the efficiency for foetal growth or the gestation length are also discussed.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1979

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. Agricultural Research Council, London.Google Scholar
Bradford, G. E. 1972. The role of maternal effects in animal breeding. VII. Maternal effects in sheep. J. Anim. Sci. 35: 13241334.CrossRefGoogle ScholarPubMed
Cloete, J. H. L. 1939. Prenatal growth in the Merino sheep. Onderstepoort J. vet. Sci. Anim. Ind. 13: 417558.Google Scholar
Dickinson, A. G., Hancock, J. L., Hovell, G. J. R., Taylor, St C. S. and Wiener, G. 1962. The size of lambs at birth—a study involving egg transfer. Anim. Prod. 4: 6479.Google Scholar
Donald, H. P. and Russell, W. S. 1970. The relationship between live weight of ewe at mating and weight of newborn lamb. Anim. Prod. 12: 273280.Google Scholar
Eaton, O. N. 1952. Weight and length measurements of foetuses of Karakul sheep and of goats. Growth 16: 175187.Google Scholar
Field, A. C. and Suttle, N. F. 1967. Retention of calcium, phosphorus, magnesium, sodium and potassium by the developing sheep foetus. J. agric. Sci., Camb. 69: 417423.CrossRefGoogle Scholar
Geisler, Pamela A. and Neal, Heather. 1979. A model for the effects of energy nutrition on the pregnant ewe. Anim. Prod. 29: 357369.Google Scholar
Geisler, P. A., Newton, J. E. and Mohan, A. E. 1977. A mathematical model of fertilization failure and early embryonic mortality in sheep. J. agric. Sci., Camb. 89: 309317.Google Scholar
Graham, N. McC. 1964. Energy exchanges of pregnant and lactating ewes. Aust. J. agric. Res. 15: 127141.Google Scholar
Hunter, G. L. 1957. The maternal influence on size in sheep. J. agric. Sci. Camb. 48: 3660.Google Scholar
Joubert, D. M. 1956. A study of pre-natal growth and development in the sheep. J. agric. Sci., Camb. 47: 382428.CrossRefGoogle Scholar
Laird, A. K. 1966. Dynamics of embryonic growth. Growth 30: 263275.Google Scholar
Langlands, J. P. and Sutherland, H. A. M. 1968. An estimate of the nutrients utilized for pregnancy by Merino sheep. Br. J. Nutr. 22: 217227.Google Scholar
Malan, A. P. and Curson, H. H. 1936. Further observations on the body weight and crown-rump length of Merino foetuses. Onderstepoort J. vet. Sci. Anim. Ind. 7: 239249.Google Scholar
Meat and Livestock Commission. 1975. Feeding the Ewe. Tech. Rep. No. 2. Meat and Livestock Commission, Bletchley, Milton Keynes.Google Scholar
Ministry of Agriculture, Fisheries and Food, Department of Agriculture and Fisheries for Scotland and Department of Agriculturefor Northern Ireland. 1975. Energy allowances and feeding systems for ruminants. Tech. Bull. 33. Her Majesty's Stationery Office, London.Google Scholar
Rattray, P. V. 1974. Energy requirements for pregnancy in sheep. Proc. N.Z. Soc. Anim. Prod. 34: 6777.Google Scholar
Rattray, P. V., Garrett, W. N., East, N. E. and Hinman, N. 1974a. Efficiency of utilization of metabolizable energy during pregnancy and the energy requirements for pregnancy in sheep. J. Anim. Sci. 38: 383393.CrossRefGoogle ScholarPubMed
Rattray, P. V., Garrett, W. N., East, N. E. and Hinman, N. 1974b. Growth, development and composition of the ovine conceptus and mammary gland during pregnancy. J. Anim. Sci. 38: 613626.Google Scholar
Robinson, J. J., McDonald, I., Fraser, C. and Crofts, R. M. J. 1977. Studies on reproduction in prolific ewes. I. Growth of the products of conception. J. agric. Sci., Camb. 88: 539552.Google Scholar
Robinson, J. J., Smart, R. I. and Pennie, K. 1978. The energy requirements of twin bearing ewes in late pregnancy and the extent of body tissue mobilization. Anim. Prod. 26: 390391 (Abstr.).Google Scholar
Russel, A. J. F., Doney, J. M. and Reid, R. L. 1967. Energy requirements of the pregnant ewe. J. agric. Sci., Camb. 68: 359363.Google Scholar
Russel, A. J. F., Maxwell, T. J., Sibbald, A. R. and McDonald, D. 1977. Relationships between energy intake, nutritional state and lamb birth weight in Greyface ewes. J. agric. Sci., Camb. 89: 667673.Google Scholar
Sykes, A. R. and Field, A. C. 1972. Effects of dietary deficiencies of energy, protein and calcium on the pregnant ewe. III. Some observations on the use of biochemical parameters in controlling energy undernutrition during pregnancy and on the efficiency of utilization of energy and protein for foetal growth. J. agric. Sci., Camb. 78: 127133.Google Scholar
Wallace, L. R. 1948. The growth of lambs before and after birth in relation to the level of nutrition. J. agric. Sci., Camb. 38: 93153, 243-302, 367-401.CrossRefGoogle Scholar
Winters, L. M. and Feuffel, G. 1936. Studies on the physiology of reproduction in the sheep. IV. Fetal development. Univ. Minnesota, agric. Exp. Stn, Tech. Bull. No. 118.Google Scholar
Young, B. A. and Corbett, J. L. 1972. Maintenance energy requirement of grazing sheep in relation to herbage availability. I. Calorimetric estimates. Aust. J. agric. Res. 23: 5776.Google Scholar