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On the use of opportunity costs in deriving the economic value of herd life

Published online by Cambridge University Press:  02 September 2010

A. F. Groen
Affiliation:
Division of Animal Breeding and Genetics, Wageningen Institute of Animal Sciences, PO Box 338, 6700 AH Wageningen, The Netherlands
J. A. M. van Arendonk
Affiliation:
Division of Animal Breeding and Genetics, Wageningen Institute of Animal Sciences, PO Box 338, 6700 AH Wageningen, The Netherlands
M. E. Goddard
Affiliation:
Animal Genetics and Breeding Unit, University of New England, NSW, Australia
A. R. Vollema
Affiliation:
Division of Animal Breeding and Genetics, Wageningen Institute of Animal Sciences, PO Box 338, 6700 AH Wageningen, The Netherlands
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Abstract

This paper presents the economic perspectives applied when either using or not using opportunity costs of postponed replacement in deriving the economic value of herd life. Results show the equivalence of the rescaling method and the correction for opportunity costs. In economic terms, using rescaling or correction for opportunity costs forces the value of genetic improvement to change from revenues of increased output to reduction of costs per unit of (fixed) ouput. Under the zero profit theory, the economic value of herd life is equal when either using or not using correction for opportunity costs. In deriving economic values to define breeding goals, the choice of a method and price parameters will have to depend on foreseen future production circumstances for the system under study.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1997

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References

Allaire, F. R. and Gibson, J. P. 1992. Genetic value of herd life adjusted for milk production. Journal of Dairy Science 75: 13491356.Google Scholar
Arendonk, J. A. M. van. 1991. Use of profit equations to determine relative economic value of dairy cattle herd life and production from field data. Journal of Dairy Science 74: 11011107.CrossRefGoogle Scholar
Arendonk, J. A. M. van and Brascamp, E. W. 1990. Economic considerations in dairy cattle breeding. Proceedings of the fourth world congress on genetics applied to livestock production, Edinburgh, volume XIV, pp. 7885.Google Scholar
Böbner, C. 1994. Schätzung wirtschaftlichcr Cewichte für sekundäre Leistungsmerkmale bei Schweizerischen Zweinutzungsrindern under Anwendung der dynamischen Optimierung. Ph.D. thesis, Technische Hochschule, Zurich.Google Scholar
Brascamp, E. W., Smith, C. and Guy, D. R. 1985. Derivation of economic weights from profit equations. Animal Production 40: 175180.Google Scholar
Cassell, B. G., Smith, B. B. and Pearson, R. E. 1993. Influence of herd-life opportunity and characteristics of cows and herds on different net income functions. Journal of Dairy Science 76:11821190.Google Scholar
Gibson, J. P. 1989. Economic weights and index selection of milk production traits when multiple production quotas apply. Animal Production 49:171181.Google Scholar
Groen, A. F. 1989. Economic values in cattle breeding. II. Influence of production circumstances in situations with output limitations. Livestock Production Science 22:1730.Google Scholar
Groen, A. F., Steine, T., Colleau, J.-J., Pedersen, J., Pribyl, J. and Reinsch, N. 1997. Economic values in dairy cattle breeding, with special reference to functional traits. Report of an EAAP-working group. Livestock Production Science 49: 121.Google Scholar
Haan, M. H. A. de, Cassell, B. G., Pearson, R. E. and Smith, B. B. 1992. Relationships between net income, days of productive life, production, and linear type traits in grade and registered Holsteins. Journal of Dairy Science 75: 35533561.CrossRefGoogle Scholar
Harris, B. L. and Freeman, A. E. 1993. Economic weights for milk yield traits and herd life under various economic conditions and production quotas. Journal of Dairy Science 76: 868879.Google Scholar
Reinsch, N. 1993. Berechnung wirtschaftlicher Gewichtungsfaktoren fur sekundäre Leistungsmerkmale beim Fleckvieh. Ph.D. thesis, Institut für Tierwissenschaften, Technische Universität, München-Weihenstephan.Google Scholar
Renkema, J. A. and Stelwagen, J. 1979. Economic evaluation of replacement rates in dairy herds. I. Reduction of replacement rates through improved health. Livestock Production Science 6:1517.CrossRefGoogle Scholar
Smith, C., James, J. W. and Brascamp, E. W. 1986. On the derivation of economic weights in livestock production. Animal Production 43: 545551.Google Scholar
Steverink, M. H. A., Groen, A. F. and Berentsen, P. B. M. 1994. The influence of environmental policies for dairy farms on dairy cattle breeding goals. Livestock Production Science 40: 251261.Google Scholar
Stonier, A. W. and Hague, D. C. 1964. A textbook of economic theory. Longmans, Green and Co. Ltd, London.Google Scholar
Stott, A. W. 1994. The economic advantage of longevity in the dairy cow. Journal of Agricultural Economics 45: 113123.CrossRefGoogle Scholar
Veerkamp, R. F., Hill, W. G., Stott, A. W., Brotherstone, S. and Simm, G. 1995. Selection for longevity and yield in dairy cows using transmitting abilities for type and yield. Animal Science 61:189197.CrossRefGoogle Scholar
Visscher, P. M., Bowman, P. J. and Goddard, M. E. 1994. Breeding objectives for pasture based dairy production systems. Livestock Production Science 40:123137.CrossRefGoogle Scholar
Visscher, P. M. and Goddard, M. E. 1995. Genetic analyses of profit for Australian dairy cattle. Animal Science 61: 918.Google Scholar
Weigel, D. J., Cassell, B. G., Hoeschele, I. and Pearson, R. E. 1995. Multiple-trait prediction of transmitting abilities for herd life and estimation of economic weights using relative net income adjusted for opportunity cost. journal of Dairy Science 78: 639647.CrossRefGoogle ScholarPubMed
Willer, H. 1967. Technische Fortschritt und Umdurirtschaft. Verlag Paul Parey, Hamburg.Google Scholar