Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-26T02:59:23.917Z Has data issue: false hasContentIssue false

Current state of knowledge on indigenous chicken genetic resources of the tropics: domestication, distribution and documentation of information on the genetic resources

Published online by Cambridge University Press:  21 February 2012

T. DESSIE
Affiliation:
International Livestock Research Institute (ILRI), Animal Genetic Resources Group, PO Box 5689, Addis Ababa, Ethiopia
N. DANA*
Affiliation:
Southern Agricultural Research Institute, PO Box 06, Hawasa, Ethiopia
W. AYALEW
Affiliation:
International Livestock Research Institute (ILRI), Animal Genetic Resources Group, PO Box 5689, Addis Ababa, Ethiopia
O. HANOTTE
Affiliation:
School of Biology, University of Nottingham, Nottingham, NG7 2RD, United Kingdom
*
Corresponding author: [email protected]
Get access

Abstract

This paper covers the domestication and distribution of chickens in different parts of the world and describes the global data bases containing information on chicken genetic resources. The review shows the dispersion of chickens from the putative centres of domestication to different parts of the world, although introduction of the domesticated chicken into Africa is poorly documented. Currently, there are three globally accessible data bases containing information on chickens; however none of these provide a comprehensive system for systematically classifying domestic chickens in developing countries in terms of their present-day uses, potential for the future and distribution within and across countries. Such a system should be developed to include indigenous chicken genetic resources at the same level of detail as for other farm animals. The data management systems should incorporate all available information at the molecular level. Such information is important not only for discerning the existing diversity but also for making decisions on conservation priorities. Addressing the gaps in information on indigenous chicken genetic resources should primarily be the focus on the Domestic Animal Genetic Resources Information System (DAGRIS). DAGRIS, as a virtual library of indigenous animal genetic resources in developing countries, could play a leading role in delivering systematic information on the diversity, distribution and classification of domestic chicken in the tropics.

Type
Review Article
Copyright
Copyright © World's Poultry Science Association 2012

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

AKISHINONOMIYA, F., MIYAKE, T., SUMI, S., TAKADA, M., OHNO, S. and KONDO, N. (1994) One subspecies of the red jungle fowl (Gallus gallus gallus) suffices as the matriarchic ancestor of all domestic breeds. Proceedings of the National Academy of Science 91: 12505-12509.CrossRefGoogle Scholar
AKISHINONOMIYA, F., MIYAKE, T., TAKADAM, M., SHINGU, R., ENDO, T., GOJOBORI, T., KONDO, N. and OHNO, S. (1996) Monophyletic origin and unique dispersal patterns of domestic fowls. Proceedings of the National Academy of Science 93: 6792-6795.Google Scholar
AL-NASSER, A., AL-KHALAIFA, H., AL-SAFFAR, A., KHALIL, F., AL-BAHOUH, M., RAGHEB, G., AL-HADDAD, A. and MASHALY, M. (2007) Overview of chicken taxonomy and domestication. World's Poultry Science Journal 63: 285-300.CrossRefGoogle Scholar
BREEDS OF LIVESTOCK OF THE WORLD, (2005) Department of Animal Science, Oklahoma State University, Oklahoma, USA. (http://www.ansi.okstate.edu/breeds/).Google Scholar
CLUTTON-BROCK, J. (1993) The spread of domestic animals in Africa, in: SHAW, T., SINCLAIR, P., ANDAH, B. & OKPOKO, A. (Eds) The Archaeology of Africa: Food, metals and towns, pp. 61-70 (London, Routledge Press).Google Scholar
CLUTTON-BROCK, J. (1999) A Natural History of Domesticated Mammals (Cambridge, Cambridge University Press).Google Scholar
CRAWFORD, R.D. (1984) Assessments and conservation of animal genetic resources in Canada. Canadian Journal of Animal Science 64: 235-251.CrossRefGoogle Scholar
CRAWFORD, R.D. (1990) Origin and history of poultry species, in: CRAWFORD, R.D. (Ed.) Poultry Breeding and Genetics, pp. 1-42 (Amsterdam, Elsevier Science Publishers).Google Scholar
CRAWFORD, R.D. (1995) Origin, history and distribution of commercial poultry, in: HUNTON, P. (Ed.) Poultry Production, pp.1-20 (Amsterdam, Elsevier Science Publishers).Google Scholar
DAD-IS (Domestic Animal Diversity–Information System)., (2005) The Food and Agriculture Organization of the United Nation, Rome (http://www.fao.org/dad-is).Google Scholar
ERIKSSON, J., LARSEN, G., GUNNARSSON, U., BED'HOM, B., TIXIER-BOICHARD, M. STROMSTEDT, L., , WRIGHT, D., JUNGERIUS, A., VEREIJKEN, A., RANDI, E., JENSEN, P. and ANDERSSON, L. (2008) Identification of the yellow skin gene reveals the hybrid origin of domestic fowl. PLoS Genetics 4: 1-8.CrossRefGoogle Scholar
FAO (FOOD AND AGRICULTURE ORGANIZATION OF THE UNITED NATIONS), (1973) Report of the forth FAO expert consultation on animal genetic resources (poultry breeding). Meeting report AGAL 1973/1, FAO, Rome.Google Scholar
FAO (FOOD AND AGRICULTURE ORGANISATION OF THE UNITED NATIONS), (1999) The Global Strategy for the Management of Animal Genetic Resources: Executive Brief. Initiative for Domestic Animal Diversity, 43p. FAO, Rome.Google Scholar
FAO (FOOD AND AGRICULTURE ORGANISATION OF THE UNITED NATIONS), (2000) World watch list for domestic animal diversity, 726p. FAO, Rome.Google Scholar
FAO (FOOD AND AGRICULTURE ORGANISATION OF THE UNITED NATIONS), (2007) The State of the World's Animal Genetic Resources for Food and Agriculture, Rome.Google Scholar
GLATZ, P., CRITCHLEY, K. and LUNAM, C. (1996) The domestic chicken. Australian and New Zealand Council for the Care of Animals in Research and Teaching (ANZCCART): Facts Sheet 9(2): 1-4.Google Scholar
HAWES, R.O. (1986) The Bangor Show, the White Plymouth Rock and chicken nuggets. American Poultry Historical Society Bulletin 16: 5-6.Google Scholar
HORST, P. (1989) Native fowl as reservoir for genomes and major genes with direct and indirect effects on the adaptability and their potential for tropically orientated breeding plans. Archiv für Geflügelkunde 53 (3): 93-101.Google Scholar
KOMIYAMA, T., IKEO, K., TATENO, Y. and GOJOBORI, T. (2004) Japanese domesticated chickens have been derived from Shamo traditional fighting cocks. Molecular Phylogenetics and Evolution 33: 16-21.CrossRefGoogle ScholarPubMed
LIU, Y., WU, G., YAO, Y., MIAO, Y., LUIKART, G., BAIG, M., BEJA-PEREIRA, A., DING, Z., PALANICHAMY, M.G. and ZHANG, Y. (2006) Multiple maternal origin of chickens: Out of the Asian jungles. Molecular Phylogenetics and Evolution 38: 12-19.CrossRefGoogle ScholarPubMed
MACDONALD, K.C. (1992) The domestic chicken (Gallus gallus) in sub-Saharan Africa: a background to its introduction and its osteological differentiation from indigenous fowls (Numidinae and Francolinus Spp.). Journal of Archaeological Science 19: 303-318.CrossRefGoogle Scholar
MOISEYEVA, I. G., ROMANOV, M.N., NIKIFOROV, A.A., SEVASTYANOVA, A.A. and SEMYENOVA, S.K. (2003) Evolutionary relationships of Red Jungle Fowl and chicken breeds. Genetics Selection Evolution 35: 403-423.CrossRefGoogle ScholarPubMed
NISHIBORI, M., SHIMOGIRI, T., HAYASHI, T. and YASUE, H. (2005) Molecular evidence of hybridization of species in the genus Gallus except for Gallus varius. Animal Genetics 36: 367-375.CrossRefGoogle ScholarPubMed
PLUG, I. (1996) Domestic animals during the early Iron Age in South Africa, in: PWITI, G. & SAPER, R. (Eds) Aspects of African archaeology, (University of Zimbabwe).Google Scholar
PONSUKSILI, S., WIMMERS, K. and HORST, P. (1996) Genetic variability in chickens using polymorphic microsatellite markers. Thai Journal of Agricultural Science 29: 571-580.Google Scholar
SHAHBAZI, S., MIRHOSSEINI, S.Z. and ROMANOV, M.N. (2007) Genetic diversity in five Iranian native chicken populations estimated by microsatellite markers. Biochemical Genetics 45 (1/2): 63-75.CrossRefGoogle ScholarPubMed
SKINNER, J.L. (1974) Breeds, in: SKINNER, J.L. (Ed.) American Poultry History, pp. 1823-1973 (Madison, American Printing and Publishing Inc.).Google Scholar
SKINNER, J. (2000) Classes, Breeds, Varieties and Strains. Society for Preservation of Poultry Antiquities: Bulletin 5(4): 7.Google Scholar
SONAIYA, E.B. (1999) Culture and family poultry development. Journal of the Institute of Cultural Studies 7: 1-10.Google Scholar
TADELLE, D. (1996) Studies on village poultry production systems in the central high lands of Ethiopia. M. Sc. Thesis, Swedish University of Agricultural Sciences.Google Scholar
TADELLE, D., EPHREM, G., YETNAYET, M., REGE, J.E.O., HANOTTE, O. and WORKNEH, A. (2005) Delivering Systematic Information on Indigenous Farm Animal Genetic Resources of Developing Countries: Inclusion of Poultry in DAGRIS. In the proceedings of. the 4th poultry show and seminar, 10-12 March, held in Dhaka, Bangladesh, pp190-195.Google Scholar
WEST, B. and ZHOU, B.X. (1988) Did chicken go North? New evidence for domestication. Journal of Archaeological Science 15: 515-533.CrossRefGoogle Scholar
WILLIAMSON, K. (2000) Did chicken go west?, in: BLENCH, R.M. & MACDONALD, K.C. (Eds) Origins and development of African livestock: archaeology, genetics, linguistics and ethnography, pp. 368-448 (London, University College London press).Google Scholar