Hostname: page-component-78c5997874-xbtfd Total loading time: 0 Render date: 2024-11-19T16:42:51.631Z Has data issue: false hasContentIssue false

Current state of knowledge on phenotypic characteristics of indigenous chickens in the tropics

Published online by Cambridge University Press:  10 August 2011

T. DESSIE
Affiliation:
International Livestock Research Institute, P.O. Box 5689, Addis Ababa, Ethiopia
T. TAYE*
Affiliation:
International Livestock Research Institute, P.O. Box 5689, Addis Ababa, Ethiopia The University of Nottingham, School of Biology, University Park, Nottingham NG7 2RD, UK
N. DANA
Affiliation:
Ethiopian Agricultural Research Institute, P.O. Box 32, Debre Zeit, Ethiopia
W. AYALEW
Affiliation:
International Livestock Research Institute, P.O. Box 5689, Addis Ababa, Ethiopia
O. HANOTTE
Affiliation:
The University of Nottingham, School of Biology, University Park, Nottingham NG7 2RD, UK
*
Corresponding author: takele_taye@yahoo.com
Get access

Abstract

The rearing of indigenous chickens is an integral part of the smallholder farming system in the tropics, where they are kept by the rural poor to fulfil multiple functions. Their special adaptation to environmental stresses and poor husbandry practices has made them the choice of breed for smallholder production systems. However, little effort has been made to characterise the indigenous chicken and their production environment, despite the increase in emerging works recently. This paper aims at reviewing the current state of phenotypic characterisation work on indigenous chickens in the tropics. By and large, studies conducted on indigenous chickens to evaluate their performance usually ignore their unique physiological and behavioural characteristics and their socio-cultural values. Moreover, unfair comparisons with exotic chickens are not uncommon, especially for yield related traits. Due to their high genetic diversity, there is also remarkable variation in the performance of indigenous chickens within and among breeds. This variation is an important genetic attribute of the indigenous chicken, whereby selection can act to improve their performance. It is recommended that characterisation works use a common set of descriptions developed by international institutions with proven poultry experience so results across countries and regions can be accurately compared.

Type
Small-Scale Family Poultry Production
Copyright
Copyright © World's Poultry Science Association 2011

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

AACMC (Australian Agricultural Consulting, Management Company), (1984). Livestock sub-sector review. Vol., Annex 3, MOA, Addis Ababa and Ethiopia.Google Scholar
ABEBE, H. (1992) Terminal report on the comparative evaluation of native chicken in the Hararge Administrative region and their crosses with the single comb white Leghorn. Mimeographed report. Alemaya University of Agriculture, Ethiopia pp22.Google Scholar
BHATTI, B.M. and SAHOTA, A.W. (1996) A comparative study on growth and laying behaviour of Desi, Fayoumi and Rod Island Red breeds of chicken maintained under local environmental conditions of Rawalpindi Pakistan. Pakistan Veterinary Journal 16: 26-30.Google Scholar
CLUTTON-BROCK, J. (1999) A Natural History of Domesticated Mammals. Cambridge, UK: Cambridge University Press.Google Scholar
CRAWFORD, R.D. (1990) Origin and history of poultry species, in: CRAWFORD, R.D. (Ed) Poultry Breeding and Genetics (Elsevier, Amsterdam).Google Scholar
DARWISH, A.A., HATABA, N.A. and SHALASH. S.M., (1990) Effects of seasonal variation and dietary protein level on some performance of Fayoumi layers. Third International Symposium on feed and quality control, Egypt.Google Scholar
DORGHAM, S.A. (1989) Studies on fatty liver in Fayoumi chicken. Ph.D. Thesis, El-Azhar University, Egypt.Google Scholar
FAO, (2000) World watch list for domestic animal diversity. FAO (Food and Agriculture Organisation of the United Nations), 3rd edition. Rome, Italy. 727pp.Google Scholar
HAMMOND, K. (1999) Research and Development Options for Family Poultry. Introductory paper to the First INFPD/FAO Electronic Conference on Family Poultry. http://www.fao.org/ag/aga/agap/lpa/fampo1/com-intp.htm.Google Scholar
HASSAN, M.K., AFIFY, M.A. and ALY, M.M. (2004) Genetic resistance of Egyptian chickens to infections bursal disease and Newcastle disease. Tropical Animal Health and Production 36:1-9.CrossRefGoogle ScholarPubMed
HODGES, J. (1990) Conservation of animal genetic resource in developing countries, in: Alderson, L. (Ed.) Genetic Conservation of Domestic Livestock, pp: 128-145 (CAB International).Google Scholar
HORST, P. (1989) Native fowl as a reservoir for genomes and major genes with direct and indirect effect on the adaptability and their potential for tropically oriented breeding plans. Archiv für Guflügelkunde 53(3): 93-101.Google Scholar
HORST, P. (1991) Native fowl as a reservoir for genomes and major genes with direct and indirect effects on the adaptability and their potential for tropically orientated breeding plans: A review. Animal Research and Development 33: 63-79.Google Scholar
HOSSARY, M.A. and GALAL, S. (1995) Improvement and adaptation of the Fayoumi chicken. Animal Genetic Resources Information 14: 33-42.CrossRefGoogle Scholar
IRAQI, M.M., HANAFI, M.S., KHALIL, M.H., EL-LABBAN, A.F.M. and ELL-SISY, M. (2002) Genetic evaluation of growth traits in a crossbreeding experiment involving two local strains of chickens using multi-trait animal model. Livestock Research for Rural Development 14(5). http://www.lrrd.org/lrrd14/5/iraq145tmp.htm.Google Scholar
IYER, S.G. (1950) Improved indigenous hen evolved by selective breeding. Indian Veterinary Journal 26: 80-86.Google Scholar
LIEM, D.T. (2001) Biodiversity Approach in Poultry Breeding in Vietnam, University of Agriculture and Forest - Ho Chi Minh City.Google Scholar
MOISEYEVA, J. (1998) Ancient evidence for the origin and distribution of domestic fowl. Proceedings of the 10th European Poultry Conference, WPSA Israel Branch. Jerusalem, Israel. 21-26, June 1998.Google Scholar
MAFENI, M.J. (1995) Studies of productivity immuniocompetance and genetic diversity of naked neck and normal feathered indigenous Cameroon and German Dahlem Red fowl and their crosses. Ph.D. Thesis Humboldt University of Berlin, 108pp.Google Scholar
MSOFFE, P.L.M., MTAMBO, M.M.A., MINGA, U.M., GWAKISA, P.S., MDEGELA, R.H. and OLSEN, J.E. (2002) Productivity and natural disease resistance potential of free ranging local chicken ecotypes in Tanzania. Livestock Research for Rural Development 14 (3) 2002. http://www.cipav.org.co/lrrp/lrrp14/3/Msof143.htm.Google Scholar
MTAMBO, J.M.P. (2000) Improving the health and productivity of the rural chicken in Africa: report on phase 1 of an Enreca project.Google Scholar
NWOSU, C.C. (1979) Poultry production in Nigeria. Proc. 1st National seminar in Poultry Production: Zaria. 187-210.Google Scholar
OLORI, V.E. (1994) Quantitative variation in the Nigerian indigenous chicken: Juvenile growth characteristics. Proceedings of the 5th World Congress on Genetics Applied to Livestock production, Guelph, Canada, Vol. 20, 417-420.Google Scholar
OLUYEMI, J.A. (1979) Potentials of the indigenous species of poultry for meat and egg production in Nigeria. Proc. 1st National Seminar in Poultry Production: Zaire. 163-186.Google Scholar
OMEJE, S.S.I. and NWOSU, C.C. (1984) Heterosis and superiority in body weight and feed efficiency evaluation of exotic parent-stock by local chicken F1 crossbreds. Nigerian Journal of Genetics 5: 11-26.Google Scholar
PETERS, K.J. (1988) Principles in evaluation of goat populations in tropical and subtropical environments. World Review of Animal Production, Vol. XXIV, No. 1, January-March 1988.Google Scholar
SALEH, K., EL-SAYED, T.M. and HATTABA, Z. (1994) Results of random sample tests of twelve native strains of chickens. Proc. of the second scientific conference on Poultry. 12-13 Sept., Kafr El-Sheikh, Egypt.Google Scholar
SERÉ, C. and STEINFELD, H. (1996) . World livestock production systems. Current status, issues and trends. FAO Animal Production and Health Paper 127: 1-48.Google Scholar
SOLTAN, M.E. and AHMED, B.M. (1990) Performance of selected-Sinai fowl in comparison with Fayoumi and Baladi fowls as standard Egyptian local breeds. I. Egg production. World Review of Animal Production 25: 17-26.Google Scholar
TADELLE, D. and OGLE, B. (2001) Village poultry production systems in the central highlands of Ethiopia. Tropical Animal Health and Production 33(6): 521-537.Google Scholar
TADELLE, D. (2003) Phenotypic and genetic characterisation of local chicken ecotypes of Ethiopia. Ph.D. Thesis, Humboldt University, Germany, 209 pp.Google Scholar
TEKETEL, F. (1986) Studies on the meat production potential of some local strains of chicken in Ethiopia. Ph.D. Thesis, J.L. Giessen University, Germany.Google Scholar
VAN MARLE-KOSTER, E. (2001) Genetic and phenotypic characterisation of native fowl population in South Africa. Ph.D. Thesis, University of Pretoria, South Africa.CrossRefGoogle Scholar