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The Effect of Selection and Genetic Factors on Resistance to Disease in Fowls—A Review

Published online by Cambridge University Press:  18 September 2007

W. Hartmann
Affiliation:
Institute of Poultry and Small Animals,Federal Research Centre of Agriculture (FAL), Dörnbergstr. 25-27, D-3100 Celle, Federal Republic of Germany
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Abstract

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Research Article
Copyright
Copyright © Cambridge University Press 1985

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References

Abplanalp, H. (1979). The role of genetics in the immune response. Avian Diseases 23: 299308.CrossRefGoogle Scholar
Briles, W. E. and Allen, C. P. (1961). The B blood group system of chickens. 11. The effects of genotype on livability and egg production in seven commercial inbred lines. Genetic 46: 12731293.;CrossRefGoogle Scholar
Briles, W. E., Stone, H. A. and Cole, R. K. (1977). Marek's disease: Effects of B histocompatibility alloalleles in resistant and susceptible chicken lines. Science 195: 193195.CrossRefGoogle ScholarPubMed
Briles, W. E., Briles, R. W., McGibbon, W. H. and Stone, H. A. (1980). Identification of B alloalleles associated with resistance to Marek's disease. In: Resistance a - nd immunity to Marek's disease. ECSC-EEC Publ. Brussels, 395416.Google Scholar
Champion, L. R. (1954). Inheritance to resistance of caecal coccidiosis in the domestic fowl. Poultry Science 33: 670681.CrossRefGoogle Scholar
Collins, W. M., Briles, W. E., Zsigray, R. M. and Dunlop, W. R. (1977). The B locus (MHC) in the chicken: Association with the fate of RSV-Induced tmours. Immunogenetics 5: 333343.CrossRefGoogle Scholar
Coe, R. K. (1972). The genetics of resistance to Marek's disease. In: Oncogenesis and Herpesviruses, IARC Scient. Publ. Nr. 2. Lyon, 123128.Google Scholar
Cole, R. K. amd Hutt, F. B. (1973). Selection and heterosis in Cornell White Leghorns: A review with special consideration of interstrain hybrids. Animal Breeding Abstracts 41: 103118.Google Scholar
Cotter, P. F., Collins, W. M., Corbett, A. C. and Dunlop, W. R. (1973). Regression of Rous Sarcoma in two lines of chickens. Poultry Science 52: 799800.CrossRefGoogle ScholarPubMed
Crittenden, L. B., Stone, H. A., Reamer, R. H. and Ikazaki, W. (1967). Two loci controlling genetic cellular resistance to avian Leukosis-sarcoma viruses. Journal of Virology 1: 898904.CrossRefGoogle ScholarPubMed
Crittenden, I. B. (1975). Two levels of genetic resistance to lymphoid Leukosis. Avian Diseases 19: 281292.CrossRefGoogle ScholarPubMed
Flock, D. K., von Krosigk, C. M., Pirchner, F. and Landgraf, H. (1975). Genetische Veränderungen hinsichtlich Marek-Resistenz and Produktionseigenschaften in Leghornkreuzugen. Archiv für Geflügelkunde 39: 2128.Google Scholar
Flock, D. K. (1979). Commercial breeding of laying type chickens. Lohmann Information, Cuxhaven.Google Scholar
Flock, D. K. (1980). Genetic improvement of egg production in laying type chickens. Proceedings Symposium Selection experiments in Laboratory and Domestic Animals ed. Robertson, A.Comm. Agric. Bureaux.Google Scholar
Fredeen, H. T. (1965). Genetic aspects of disease resistance. Animal Breeding Abstracts 33: 1726.Google Scholar
Friars, G. W., Chambers, J. R., Kennedy, A. and Smith, A. D. (1972). Selection for resistance to Marek's disease in conjunction with other economic traits in chickens. Avian Diseases 16: 210.CrossRefGoogle ScholarPubMed
Gavora, J. S. and Spencer, J. L. (1978). Breeding for genetic resistance to disease: Specific or general? World's Poultry Science Journal 34: 137148.CrossRefGoogle Scholar
Gavora, J. S. and Spencer, J. L. (1979). Studies on genetic resistance of chickens to Marek's disease—A review. Comparative Immunology and Microbiology of Infectious Diseases 2: 359371.CrossRefGoogle ScholarPubMed
Gavora, J. S., Spencer, J. L. and Chambers, J. R. (1982). Performance of meat-type chickens test-positive and negative for Lymphoid Leukosis virus infection. Avian Pathology 11: 2938.CrossRefGoogle ScholarPubMed
Gavora, J. S., Spencer, J. L., Gowe, R. S. and Harris, D. L. (1980). Lymphoid Leukosis virus infection: Effects on production and mortality and consequences in selection for high egg production. Poultry Science 59: 21652178.CrossRefGoogle ScholarPubMed
Goodwin, K. (1966). The environment and problems in selection for disease resistance in the fowl. World's Poultry Science Journal 22: 299315.CrossRefGoogle ScholarPubMed
Gross, W. B. and Siegel, P. B. (1973). Effect of social stress and steroids on antibody production. Avian Diseases 17: 807815.CrossRefGoogle ScholarPubMed
Gross, W. B., Siegel, P. B., Hall, R. W., Domermuth, C. H. and DuBoise, R. T. (1980). Production and persistence of antibodies in chickens to sheep erythrocytes. 2. Resistance to infectious diseases. Poultry Science 59: 205210.CrossRefGoogle ScholarPubMed
Gyles, N. R. and Brown, C. J. (1971). Selection in chickens for retrogression of tumours caused by Rous-Sarcoma-Virus. Poultry Science 50: 901905.CrossRefGoogle ScholarPubMed
Hartmann, W. and Sanz, M. (1971). Resistance to Marek's disease in broiler strains under natural and aritificial exposure. Archiv Für Geflügelkunde 35: 16.Google Scholar
Hartmann, W. (1972). Möglichkeiten zur Verringerung der Krankheitsbelastung von Haustierpopulationen durch Resistenzzüchtung. Berichte über Landwirtschaft 50: 747763.Google Scholar
Hartmann, W. (1976). Aspects of selection for general disease resistance in poultry. Proc. 18. British Poultry Breeders Round Table North Berwick, Nov. 1976.Google Scholar
Hartmann, W., Hagen, D. v.d. and Löliger, H. -Ch. (1978). Zur Methodik der Bestimmung des Genotyps Für Untektionsresistecz gegen Geflügelleukose. Archic fügelkunde 42: 145149.Google Scholar
Hartmann, W., Hagen, D. v.d. and Heil, G. (1984). Genetic resistance to Leukosis virus infection: Effects on mortality and egg production in Leghorn hens. British Poultry Science 25: 4352.CrossRefGoogle ScholarPubMed
Hansen, M. P., Van Zandt, J. N. and Law, R. J. (1967). Differences in susceptibility to Marek's disease in chickens carrying two different B locus blood group alleles. Poultry Science 46: 1268.Google Scholar
Hutt, F. B. (1958). Genetic resistance to disease in domestic animals. Constable Comp. Ltd., London. pp. 198.Google Scholar
Hutt, F. B. and Crawford, R. D. (1960). On breeding chicks resistant to pullorum disease without exposure thereto. Canadian Journal of Genetics and Cytology 21: 357370.CrossRefGoogle Scholar
Klimes, B. (1969). Die genetische Resistenz gegen Geflügelkrankheiten. Deutsche Geflügelwirtschaft 21: 20652068.Google Scholar
Krosigk, V. C. M., McClary, C. F., Vielitz, E. and Zander, D. V. (1972). Selection for resistance to Marek's disease and its expected effects on other important traits in White Leghorn strain crosses. Avian Diseases 16: 1119.CrossRefGoogle Scholar
Lambert, W. V. (1932). Natural resistance to disease in the chicken. I. The effect of selective breeding on natural resistance to fowl typhoid. Journal of Immunology 23: 229240.CrossRefGoogle Scholar
Longenecker, B. M., Pazderka, F., Gavora, J. S., Spencer, J. L. and Ruth, R. F. (1976). Lymphoma induced by herpesvirus: resistance associated with a major histocompatibility gene. Immunogenetics 3: 401407.CrossRefGoogle Scholar
Morris, J. R., Ferguson, A. E. and Jerome, F. N. (1970). Genetic resistance and susceptibility to Marek's disease. Canadian Journal of Animal Science 59: 6981.CrossRefGoogle Scholar
Nordskog, A. W., Pevzner, I. Y., Trowbridge, W. L. and Benedict, A. A. (1977). Immune response and adult mortality associated with the B locus in chickens. In Bendict, A. A. (ed. ): Avian Immunology, pp 245256. Plenum Press, London and New York.CrossRefGoogle Scholar
Norsdkog, A. W. (1983). Immunogenetics as an aid to selection for disease resistance in the fowl. World's Poultry Science Journal 39: 199209.Google Scholar
Osborne, R. (1969). Consequences of selection techniques on selection for disease resistance and elimination of specific pathogens. World's Poultry Science Journal 25: 112123.CrossRefGoogle ScholarPubMed
Payne, L. N. (1973). Interaction between host genome and avian RNA tumour viruses. In: RNA Viruses and Host Genome in Oncogenesis, North-Holland, Amsterdam pp ?93115.Google Scholar
Pazderka, F., Longenecker, B. M., Law, G. R. J. and Ruth, R. F. (1975). The major histocompatibility complex of the chicken. Immunogenetics 2: 101130.CrossRefGoogle Scholar
Pevzner, I. Y. (1979). Major gene control of viability in chickens. Proc. 28. National Breeders Round Table, Memphis, May 1979.Google Scholar
Prince, A. M. (1958). Quantitative studies on Rous sarcoma virus. II. Journal of the National Cancer Institute 20: 843850.Google ScholarPubMed
Roberts, E. and Card, L. E. (1935). Inheritance of resistance to bacterial infection in animals. A genetic study of pullorum disease. Illinois Agriculture Experiment Station Bulletin. 419.Google Scholar
Rosenberg, M. M., Alicata, J. E. and Palafox, A. L. (1954). Further evidence of hereditary resistance and susceptibility to caecal coccidiosis in chickens. Poultry Science 33: 972980.CrossRefGoogle Scholar
Schierman, L. W. and Nordskog, A. W. (1963). Influence of the B blood group-histo-compatibility locus in chickens on a graft-versus-host reaction. Nature 197: 511512.CrossRefGoogle Scholar
Schierman, L. W. and Nordskog, A. W. (1964). Immunogenetic studies with fowl: relationship of blood groups to transplantation immunity and tolerance. Annals N. Y. Academy of Science 120: 348355.CrossRefGoogle ScholarPubMed
Schierman, L. W., Watanbe, D. H. and McBride, R. A. (1977). Genetic control of Rous Sarcoma Regression in chickens: Linkage with the major histocompatibility complex. Immunogenetics 5: 325332.CrossRefGoogle Scholar
Siegel, P. B. (1976). Social behaviour of the fowl. Poultry Science 55: 513.CrossRefGoogle Scholar
Siegel, P. B. and Gross, W. B. (1980). Production and persistence of antibodies in chickens to sheep erythrocytes. 1. Directional selection. Poultry Science 59: 15.CrossRefGoogle Scholar
Spencer, J. L., Grunder, A. A., Robertson, A. and Speckman, G. W. (1972). Attenuated Marek's disease herpesvirus: protection conferred to strains of chickens varying in genetic resistance. Avian Diseases 16: 94107.CrossRefGoogle ScholarPubMed
Spencer, J. L., Gavora, J. S., Grunder, A. A., Robertson, A. and Speckman, G. W. (1974). Immunization against Marek's disease: influence of strain of chickens, maternal antibody and type of vaccine. Avian Diseases 18: 3344.CrossRefGoogle ScholarPubMed
Stone, H. A. (1975). Use of highly inbred chickens in research. USDA Technical Bulletin 1514, 22 pp.Google Scholar
Stone, H. A., Briles, W. E. and McGibbon, W. H. (1977). The influence of the major histocompatibility locus on Marek's disease in chicken. In Benedict, A. A. (ed.): Avian Immunology, pp 299307, Plenum Press, London and New York.CrossRefGoogle Scholar
Van Albada, M. (1964). Geflügelzüchtung und Krankheitsresistenz. Archiv für Geflügelkunde 28: 81127.Google Scholar
Van der Zijpp, A. J. and Leenstra, F. R. (1980). Genetic analysis of the humoral immune response of White Leghorn chicks. Poultry Science 59: 13631369.CrossRefGoogle ScholarPubMed
Van der Zijpp, A. J. (1983). Breeding for immune responsiveness and disease resistance. World's Poultry Science Journal 39: 118131.CrossRefGoogle Scholar
Waters, N. F. (1945). Breeding for resistance and susceptibility to lymphomatosis. Poultry Science 24: 259269.CrossRefGoogle Scholar
Waters, N. F. and Burmester, B. R. (1961). Mode of inheritance of resistance to Rous sarcoma virus in chickens: Journal of the National Cancer Institute 27: 655661.Google ScholarPubMed