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Minimizing losses in poultry breeding and production: how breeding companies contribute to poultry welfare

Published online by Cambridge University Press:  18 September 2007

D.K. Flock ,
K.F. Laughlin  and
J. Bentley
D.K. Flock*
Affiliation:
Lohmann Tierzucht GmbH, P.O. Box 460, 27454 Cuxhaven, Germany
K.F. Laughlin
Affiliation:
Aviagen Group. Newbridge, Midlothian, EH28 8SZ, Scotland, UK
J. Bentley
Affiliation:
British United Turkeys Ltd., Hockenhull Hall, Tarvin, Chester, CH3 8LE, UK
*
*Corresponding author: dkfloct@t-online.de
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Abstract

The modern poultry industry has a remarkable record in reducing mortality, applying a combination of effective disease control, adequate nutrition, good husbandry and genetic selection. Primary breeders, specialized in the adaptation of layers, broilers and turkeys to changing demands of a global food market, have made three major contributions in the past: (1) eradication of vertically transmitted disease agents such as lymphoid leucosis viruses, mycoplasmas and salmonellae; (2) selection between and within lines for general liveability and specific disease resistance; and (3) dissemination of management recommendations which may help customers to minimize losses at the commercial level. Current focus is on components of liveability which are directly or indirectly linked to poultry welfare: selection against feather pecking and cannibalism in egg-type chickens and selection against leg disorders and heart/lung dysfunction in rapidly growing meat poultry.

Keywords

breedingpoultrylayersbroilersturkeysliveabilitymortalitywelfare
Type
Reviews
Information
World's Poultry Science Journal , Volume 61 , Issue 2 , June 2005 , pp. 227 - 237
Copyright
Copyright © Cambridge University Press 2005

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References

Beaumount, C., Dambrine, G., Chaussé, A.M., and Flock, D.K. (2003) Selection for disease resistance: conventional breeding for resistance to bacteria and viruses. Chapter 20 in MUIR and AGGREY (editors) Poultry Genetics, Breeding and Biotechnology, CABI publishing.Google Scholar
Bentley, J.S. (2002) Breeding for future market trends in the turkey market. Proceedings. 11th European Poultry ConferenceBremen.Google Scholar
Cheng, H.H., Nicura, M. and Hunt, H. (2004) Identifying Marek's disease resistance genes and pathways through integrative genomic approaches. Proc. XXII World's Poultry Congress, Istanbul, 170 (Abstract.).Google Scholar
Damme, K. (1999) Effect of beak trimming and strain on performance, feather loss and nesting behaviour of different commercial white layer hybrids in floor pens. Archiv für Geflügelkunde 63: 9399.Google Scholar
Dickerson, G.E. (1955) Genetic slippage in response to selection for multiple objectives. Cold Spring Harbor Symposia on Quantitative Biology 20: 213224.Google Scholar
Ferket, P. (2002) Turkey growth statistics: growing bigger, faster. WATT Poultry USA, 02. 2002.Google Scholar
Flock, D.K. and Heil, G. (2002) A long-term analysis of time trends in the performance profile of whiteegg and brown-egg hybrid laying strains based on results of official German random sample tests from 1974/75 to 1997/99. Archiv für Geflügelkunde 66: 120.Google Scholar
Flock, D.K. and Preisinger, R. (2002) Breeding plans for poultry with emphasis on sustainability. Proceedings. 7th World Congress on Genetics Applied to Livestock ProductionMontpellier.Google Scholar
Flock, D.K., Von Krosigk, C.M., Pirchner, F.R. and Landgraf, H. (1975) Genetic changes in Marek's resistance and general productivity in Leghorn strain crosses. Archiv für Geflügelkunde 39: 2128.Google Scholar
Flock, D.K., Voss, M. and Vielitz, E. (1992) Genetic analysis of Marek's disease mortality in brownegg type cockerels. Proc. XIXth World's Poultry Congress, Amsterdam.Google Scholar
Goliomytis, M., Panopoulou, E. and Rogdakis, E. (2003) Growth curves for body weight and major component parts, feed consumption and mortality of male broiler chickens raised to maturity. Poultry Science 82: 10611068.CrossRefGoogle ScholarPubMed
Gordon, J.F. (1974) Broilers – Fifty year old meat industry presents outstanding picture of specialization. Chapter 11 in: Hanke, O.A., Skinner, J.L. and Florea, J.H.: American Poultry History 1823–1973, American Printing and Publishing Inc, Madison, Wisconsin.Google Scholar
Havenstein, G.B.H., Ferket, P.R. and Qureshi, M.A. (2003) Growth, livability, and feed conversion of 1957 versus 2001 broilers when fed representative 1957 and 2001 broiler diets. Poultry Science 82: 15001508.Google Scholar
Klein, S., Flock, D.K. and Ellendorff, F. (2003) Management of newly hatched male layer chicks – current knowledge on sex determination and sex diagnosis in chickens. World's Poultry Science Journal 59: 6264.Google Scholar
McKay, J.C., McAdam, J., Koerhuis, A.N.M. and Barton, N.F. (2002) Breeding meat-type chickens for changing demands. Proceedings. 11th European Poultry ConferenceBremen.Google Scholar
Muir, W.M. (2003) Indirect selection for improvement of animal well-being. Chapter 14 in MUIR and AGGREY (editors) Poultry Genetics, Breeding and Biotechnology, CABI Publ.Google Scholar
Pfeiffer, D.U. and Dall'Aqua, F. (2002) An analysis of an industry broiler leg weakness study in the United Kingdom. British Poultry Council, London.Google Scholar
Rauw, W.M., Kanis, E., Noordhuizen-Stassen, E.N. and Grommers, F.J. (1998) Undesirable side effects of selection for high production efficiency in farm animals: a review. Livestock Production Science 56: 1533.Google Scholar
Roberson, K.D., Kalbfleisch, J.L. and Dransfield, D. (2004) Comparison of growth performance and carcass component yield of a new strain of tom turkeys to other commercial strains. International Journal of Poultry Science 3: 791795.Google Scholar
Savory, C.J. (2004) Laying hen welfare standards: a classic case of “power to the people”. Animal Welfare 2004, 13: 153158. Universities Federation for Animal Welfare, The Old School, Brewhouse Hill, Wheathampstead, Hertfordshire.Google Scholar
Singer, P. (1975) Animal Liberation. A new ethics for our treatment of animals. The New York Review, New York, USA.Google Scholar
Taylor, A.A. and Hurnik, F. (1996) The long-term productivity of hens housed in battery cages and an aviary. Poultry Science 75: 4751.Google Scholar