Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-26T07:44:29.890Z Has data issue: false hasContentIssue false
  • English
  • Français

Indigenous naked neck chicken: a valuable genetic resource for Bangladesh

Published online by Cambridge University Press:  02 March 2009

M.A. ISLAM  and
M. NISHIBORI
M.A. ISLAM*
Affiliation:
Department of Animal Science, Bangabandhu Sheikh Mujibur Rahman Agricultural University, Gazipur-1706, Bangladesh Department of Bioresource Science, Graduate School of Biosphere Science, Hiroshima University, Higashi-Hiroshima 739-8528, Japan
M. NISHIBORI
Affiliation:
Department of Bioresource Science, Graduate School of Biosphere Science, Hiroshima University, Higashi-Hiroshima 739-8528, Japan
*
Corresponding author: aminul_dgvc@yahoo.com
Get access

Abstract

The present review work aims at determining the potential usefulness of indigenous naked neck (INN) chicken (D. Nana) for poultry production in a hot-humid climate. INN chicken has good heat dissipation mechanism and well adaptive to harsh tropical environment and nutrition, and is highly resistant to disease and superior to indigenous full-feathered and exotic egg-type or exotic naked neck counterparts in terms of growth rate, egg production, egg quality and meat yield traits. It can produce double the standard number of eggs under improved nutrition and management conditions. Crossbreds of INN with exotic chicken can perform even better than that of exotic chicken in respect of productive and reproductive traits. Consumers prefer the meat and eggs of INN chickens for reasons of pigmentation, leanness, taste, firmness, and they are also used in special dishes. INN chicken prices are typically higher compared with those of products from exotic stocks. There are a very few published papers on the molecular aspects of INN chickens, although this is essential to determine genetic distance or relationship within or between INN chicken and indigenous full-feathered (IFF) varieties (D. nana) for future breeding plans. Therefore INN strains may be a promising and worthy genetic resource for the development of a breed or strain through selective or crossbreeding program suited to Bangladesh and in other countries where similar environments and socio-economic conditions exist. Thus, the present review provides genetic and performance information on INN chickens which may be useful for further improvement of tropical breeds.

Keywords

adaptabilityBangladeshnaked neck chickenproductionresource
Type
Small-Scale Family Poultry Production
Information
World's Poultry Science Journal , Volume 65 , Issue 1 , March 2009 , pp. 125 - 138
Copyright
Copyright © World's Poultry Science Association 2009

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

AHMED, S. and ISLAM, M.N. (1985) Backyard poultry development in 100 villages sponsored by Bangladesh Agricultural University and UNICEF. Proceedings of the first National conference of Bangladesh Animal Husbandry Association, pp. 133-138.Google Scholar
AHMMAD, K. (2005) Poultry Business Guide. Poultry khamar bichitra, Dhaka, Bangladesh.Google Scholar
AINI, I. (1990) Indigenous chicken production in South East Asia. World's Poultry Science Journal 41: 51-57.CrossRefGoogle Scholar
ALAM, M.S., ISLAM, M.S., HOWLIDER, M.A.R. and ISLAM, M.A. (1995) The effect of protein and energy on broiler and naked neck Australorp chicken in hot humid environment. Bangladesh Journal of Animal Science 24: 173-183.Google Scholar
BANGLADESH ECONOMIC REVIEW, (2006) Ministry of finance. Government of the People's Republic of Bangladesh, Dhaka, Bangladesh.Google Scholar
BARLOW, R. (1981) Experimental evidence for interaction between heterosis and environment in animals. ABA 49: 715-737.Google Scholar
BARUA, A. and HOWLIDER, M.A.R. (1990) Prospect of native chickens in Bangladesh. Poultry Adviser 23: 57-61.Google Scholar
BARUA, A. and HOWLIDER, M.A.R. (1991) Meat yield of free range naked neck and full feathered Bangladeshi chicken. Indian Journal of Animal Sciences 61: 772-775.Google Scholar
BARUA, A. and YOSHIMURA, Y. (1997) Rural poultry keeping in Bangladesh. World's Poultry Science Journal 53: 388-394.CrossRefGoogle Scholar
BARUA, A., HOWLIDER, M.A.R. and YOSHIMURA, Y. (1998) INN fowl of Bangladesh. World's Poultry Science Journal 54: 279-285.CrossRefGoogle Scholar
BATTI, B.M. and SAHOTA, A.W. (1996) A comparative study on growth and laying behaviour of desi, Fayoumi and Rhode Island Red breeds of chicken maintained under local environmental condition of Rawalpindi (Pakistan). Pakistan Veterinary Journal 16: 26-30.Google Scholar
BBS, (2000) Bangladesh Bureau of Statistics. Statistics Division, Ministry of Planning, Government of the Peoples Republic of Bangladesh. Dhaka, Bangladesh.Google Scholar
BEGUM, E. (1993) Feathering pattern and body composition of free range heterozygous naked neck (Nana) and full feathered (nana) Bangladeshi chickens. M.Sc. Thesis, Department of Poultry Science, Bangladesh Agricultural University, Mymensingh, Bangladesh.Google Scholar
BHUIYAN, A.K.F.H., BHUIYAN, M.S.A. and DEB, G.K. (2005) Indigenous chicken genetic resources in Bangladesh: Current status and future outlook. Animal Genetic Resources Information's-Bulletin, 36:www.fao.org/docrep/008/a0070t/a0070tod.htm.CrossRefGoogle Scholar
BORDAS, A.P., MERAT, P., SERGENT, D. and RICARD, F.H. (1978) Influence of Na (Naked neck) gene on growth, feed consumption and body composition of chicks according to environmental temperature. Annales de Génétique et Sélection Animales 10: 209-331.Google Scholar
BRANCKAERT, R.D.S. (2007) Avian influenza: the new challenges for family poultry. World's Poultry Science Journal 63: 129-131.CrossRefGoogle Scholar
BULBUL, S.M. (1983) More protein for the under nourished through a village poultry project. Maximum livestock production from minimum land. Proceedings of the 4th seminar held in Bangladesh Agricultural University, Mymensingh, Bangladesh.Google Scholar
CAHANER, A., DEEB, N. and GUTMAN, M. (1993) Effect of the plumage-reducing naked neck (Na) gene on the performance of fast growing broilers at normal and high ambient temperatures. Poultry Science 72: 767-775.CrossRefGoogle Scholar
CHOWDHURY, S.D., AHMED, S. and HAMID, M.A. (2006) Improved feeding of Desi chicken reared in confinement. The Bangladesh Veterinarian 23: 29-35.Google Scholar
CHRYSOSTOME, C.A.A.M., BELL, J.G., DEMAY, F. and VERHULST, A. (1995) Seroprevalencies to three diseases in village chickens in Benin. Preventive Veterinary Medicine 22: 257-261.CrossRefGoogle Scholar
CRAWFORD, R.D. (1990) Poultry Breeding and Genetics. Elsevier Science publishing company, INC. 655, Avenue of the Americas, New York, NY 10010, USA, pp.429-467.Google Scholar
DAS, S.C., CHOWDHURY, S.D., KHATUN, M.A., NISHIBORI, M., ISOBE, N. and YOSHIMURA, Y. (2008) Poultry production profit and expected future projection in Bangladesh. World's Poultry Science Journal 64: 99-118.CrossRefGoogle Scholar
DEEB, N. and CAHANER, A. (1996) The effect of naked neck (Na) gene on broiler stocks differing in growth rate. Proceedings of the XX World's Poultry Congress, New Delhi, India, 2-5 September, Vol.-IV, pp.11Google Scholar
DLS, (1998) Expansions and Activities. Department of Livestock services. Dhaka, Bangladesh pp.31Google Scholar
EL-SAFTY, S.A., ALI, U.M. and FATHI, M.M. (2006) Immunological parameters and laying performance of naked neck and normally feathered genotypes of chicken under winter condition of Egypt. International Journal of Poultry Science 5: 780-785.Google Scholar
GALAL, A., AHMED, A.M.H., ALI, U.M. and YOUNIS, H.H. (2007) Influence of naked neck gene on laying performance and some hematological parameters of dwarfing hens. International Journal of Poultry Science 6: 807-813.CrossRefGoogle Scholar
GALAL, A., EL-ATTAR, A.H. and FATHI, M.M. (2000) Laying performance of naked neck and frizzled genotypes of chicken under low ambient temperature. Egyptian Poultry Science Journal 20: 889-904.Google Scholar
GUÈYE, E.F. (1998) Village egg and fowl meat production in Africa. World's Poultry Science Journal 54: 73-86.CrossRefGoogle Scholar
HAQUE, M.F. and HOWLIDER, M.A.R. (2000) Growth and meat yield in native naked neck, exotic chicken and their crossbreds; F2 generation. Indian Journal of Animal Science 70: 501-503.Google Scholar
HORST, P. (1988) Using major gene for feather restriction. Poultry Misset 4: 8-9.Google Scholar
HORST, P. (1989) Native fowl as a reservoir for genomes and major genes with direct and indirect effects on productive adaptability and their potential for tropically oriented breeding plans. Archive für Geflügelkunde 53: 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 oriented breeding plans-a review. Animal Research and Development 33: 63-79.Google Scholar
HORST, P. and RAUEN, H.W. (1986) Significance of the naked neck gene (Na-gene) in poultry breeding in the tropics. Proceedings of 7th European Poultry Conference (Paris) 1: 191-195.Google Scholar
HOSSAIN, M.M., HOWLIDER, M.A.R. and HOSSAIN, M.J. (1991) Growth performance and meat yield of naked neck Australorps and broiler chickens in a hot-humid environment. The Bangladesh Veterinarian 8: 4-7.Google Scholar
HOWLIDER, M.A.R. (1988) Rearing temperature and the meat yield of broilers. Ph.D. Thesis, University of Aberdeen, Scotland.Google Scholar
HOWLIDER, M.A.R., BEGUM, F., ISLAM, M.S. and WAHID, M.A. (1995) Feathering and meat yield of full feathered and Naked Neck indigenous chicken of Bangladesh. Journal of Applied Animal Research 8: 191-195.CrossRefGoogle Scholar
HUQUE, Q.M.E., CHOWDHURY, S.A., HAQUE, M.E. and SIL, B.K. (2001) Poultry Research in Bangladesh: Present status and its implication for future research. Proceedings of the 2nd International Poultry Show and Seminar. The World's Poultry Science Association-Bangladesh Branch, Dhaka, Bangladesh, pp: 15-24.Google Scholar
HUQUE, Q.M.E. (1996) Improving skill of the small farmers in poultry management. World's Poultry Congress, New Delhi, India, 2-5 September, Vol. 1: 47-60.Google Scholar
HUQUE, Q.M.E. and HAQUE, M.E. (1990) The onset of lay in indigenous hens following hatching of chicks. Poultry Adviser 13: 57-60.Google Scholar
HUQUE, Q.M.E. and SALAHUDDIN, M. (2001) Identification and evaluation of native chicken. Progress Report. Poultry Production Research Division. BLRI, Savar, Dhaka, Bangladesh.Google Scholar
ISLAM, M. A. (2000) Effect of local and exotic strains of chicken for broiler production at hot-humid climate. Ph.D. Thesis. Institute of Animal Science, Faculty of Agriculture and Horticulture, Humboldt University of Berlin, Germany.Google Scholar
ISLAM, M.A. (2003) Poultry products processing and marketing system in Bangladesh. Pakistan Journal of Biological Science 6: 883-886.CrossRefGoogle Scholar
ISLAM, M.A. (2006) Comparative egg production and egg quality of indigenous full feathered and naked neck chicken at hot-humid climate. Bangladesh Journal of Animal Science 35: 99-105.Google Scholar
ISLAM, A.B.M.M., HOQUE, M.M. and RAHIM, Q.M.E. (1981) Reproductive performance of Upgraded Indigenous chicken. Poultry Adviser 14: 33-36.Google Scholar
ISLAM, M.A., BULBUL, S.M., HOWLIDER, M.A.R. and ISLAM, A.B.M.M. (2000) Growth and egg production of local and exotic broiler parents in tropical environment. The Bangladesh Veterinarian 17: 111-117.Google Scholar
ISLAM, M.A., BULBUL, S.M., SEELAND, G. and ISLAM, A.B.M.M. (2001a) Egg quality of different chicken genotypes in summer and winter. Pakistan Journal of Biological Sciences 4: 1411-1414.Google Scholar
ISLAM, M.A., SEELAND, G., HORST, P. and HOWLIDER, M.A.R. (2001b) Interaction of genetic group and season on fertility and hatchability of chicken eggs under adverse tropical environment. The Bangladesh Veterinarian 18: 141-147.Google Scholar
ISLAM, M.A., SEELAND, G., BULBUL, S.M. and HOWLIDER, M.A.R. (2002) Meat yield and cooked meat taste of hybrids from different genetic groups in a hot-humid climate. Indian Journal of Animal Research 36: 35-38.Google Scholar
JOHNSON, I. and RENDEL, J. (1968) Genetics and Animal Breeding. W.H. Freeman and Co., San Fransisco.Google Scholar
KAMBLE, K.D., SINGH, D.P., JORI, D.C. and SHARMA, R.D. (1996) Reproductive performance of various Indian native breeds and their crosses with Dahlem Red. Proceedings of the XX World's Poultry Congress, New Delhi, India, 2-5 September, Vol.-IV, pp.36.Google Scholar
KHAN, M.R. and ROY, P.C. (2003) Credit policy, disbursement and its impact on poultry industry in Bangladesh. Proceedings of 3rd International Poultry show and seminar, Dhaka, Bangladesh. World's Poultry Science Association, Bangladesh Branch, pp: 43-51.Google Scholar
KHATUN, R., ISLAM, M.S., FARUQUE, S., AZMAL, S.A. and UDDIN, M.S. (2005) Study on the productive and reproductive performance of 3 native genotypes of chicken under intensive management. Journal of Bangladesh Agricultural University 3: 99-104.Google Scholar
KHONDOKER, M.A.M.Y., FARUQUE, M.O., HOWLIDER, M.A.R. and ALI, A. (1996) Performance of upgraded indigenous desi chicken under farm condition. Bangladesh Journal of Animal Science 25: 85-89.Google Scholar
LIU, Y.P., W.U, G..S., YAO, Y.G.., MIAO, Y.W., LUIKART, G., BAIG, M. PEREIRA, A.B., , DING, Z.L., PALANICHAMY, M.G.. and ZHANG, Y.P. (2006) Multiple maternal origin of chickens: Out of the Asian jungles. Molecular Phylogenetics and Evolution 38: 12-19.CrossRefGoogle ScholarPubMed
MAFENI, M.J. (1995) Studies of productivity, immunocompetence and genetic diversity of naked neck normal feathered indigenous Cameroon and German Dahlem red fowl and their crosses. A thesis for Ph. D. in tropical animal production. Prince Leopold Institute of tropical medicine. Department of tropical animal production and health. Antwerpen, Belgium.Google Scholar
MERAT, P. (1986) Potential usefulness of the Na (Naked neck) genes in poultry production. World's Poultry Science Journal 42: 124-142.CrossRefGoogle Scholar
NWOSU, C.C. (1979) Poultry Production in Nigeria. Proceedings of 1st National Seminar on Poultry Production, Ahmadu Bello University, Zaria, 187-210.Google Scholar
N'DRI, A.L., MIGNON-GRASTEAU, S., SELLIER, N., BEAUMONT, C. and TIXIER-BOICHARD, M. (2007) Integrations between the naked neck gene, sex, and fluctuating ambient temperature on heat tolerance, growth, body composition, meat quality and sensory analysis of slow growing meat type broilers. Livestock Science 10: 33-45.CrossRefGoogle Scholar
OH, B.T. (1987) Malaysia: Economic importance, in: COPLAND, J.W. (Ed.) Newcastle disease in poultry a new food pellet vaccine, pp. 83-85, ACIAR Monograph No.5, Canberra.Google Scholar
OKA, T., INO, Y., NOMURA, K., KAWASHIMA, S., KUWAYAMA, T., HANADA, H., AMANO, T., TAKADA, M., TAKAHATA, N., HAYASHI, Y. and AKISHINONOMIYA, F. (2007) Analysis of mtDNA sequences shows Japanese native chickens have multiple origins. Animal Genetics 38: 287-293.CrossRefGoogle ScholarPubMed
OKADA, I.Y., HASHIGUCHI, M.T., HASNATH, M.A., FARUQUE, M.O. and MAJID, M.A. (1988) Gene constitution of indigenous chickens in Bangladesh. Japanese Poultry Science 25: 15-26.CrossRefGoogle Scholar
OSMAN, S.A.M., SEKINO, M., KUWAYAMA, T., KINOSHITA, K., NISHIBORI, M., YAMAMOTO, Y. and TSUDZUKI, M. (2006) Genetic variability and relationships of native Japanese chickens based on Microsatelite DNA polymorphisms-focusing on the Natural Monuments of Japan. Journal of Poultry Science 43: 12-22.CrossRefGoogle Scholar
PAUL, B.P., HOWLIDER, M.A.R. and BULBUL, S.M. (1990) Comparison of meat yield between free range desi and broiler chicken. Indian Journal of Animal Sciences 60: 866-868.Google Scholar
PAUL, D.C. and HUQUE, Q.M.E. (1996) Performance and phenotypic characteristics of indigenous germplasm of chicken in Bangladesh. Proceedings of the XX World's Poultry Congress, New Delhi, India, 2-5 September, Vol.-IV, pp. 20.Google Scholar
PRAWIROKUSUMO, S. and HADINATO, A.W.M. (1987) Profile of Indonesian native chicken. Rep. at DLG-Seminar, Hannover, FGR.Google Scholar
RAO, G. V. (1983) Improved desi birds for poultry farming in Tribal areas. Indian farming 33: 36-38.Google Scholar
RAUEN, H.W., HORST, P. and VALLE-ZARATE, A. (1985) Use of major genes in poultry breeding for the tropics. Poster: 36th EAAP meeting, Thessaloniki, 30 September- 3 October. Institute for animal production, Berlin, Federal Republic of Germany.Google Scholar
RAUEN, H.W., HORST, P. and VALLE-ZARATE, A. (1986) Bedeutung des gens für Befiederungsreduktion und Nackthalsigkeit (Na) für das productive Adaptions-vermögen von Legehennen unter hoher Temperatur-Dauerbelastung. Archiv für Geflügelkunde 50: 235-245.Google Scholar
SALAHUDDIN, M. and HOWLIDER, M.A.R. (1991) Effect of breed and season on egg quality traits of fowl. Indian Journal of Animal Science 61: 859-863.Google Scholar
SAZZAD, M.H. (1986) . Reproductive performance of Deshi hens under scavenging and intensive system of rearing. Proceedings of 1st Annual Livestock Research Workshop. Bangladesh Livestock Research Institute, Savar, Dhaka, pp. 60-62.Google Scholar
SINGH, D.P., JOHARI, D.C., MOHAPATRA, S.C. and SHARMA, R.D. (1996) Efficiency of growth and production performance of four Indian native breeds of chicken. Proceedings of the XX World's Poultry Congress, New Delhi, India 2-5 September, Vol. 4, pp. 18.Google Scholar
SMITH, L.T. and LEE, R. (1977) A study of the naked neck gene of the fowl. Poultry Science 56: 1758 (Abstract).Google Scholar
SONAIYA, E.B. (1995) Sustainable rural poultry production in Africa. Proceedings of an International workshop held on June 13-16 at the International Livestock Research Institute, Addis Ababa, Ethiopia, pp. 57-65.Google Scholar
SUPRAMANIAM, P. (1987) Economic importance of disease vaccine to the village poultry industry in Malaysia. Proceedings of the poultry diseases, pp. 511-516.Google Scholar
YEASMIN, T. and HOWLIDER, M.A.R. (1998) Comparative physical Feature, Egg production and egg quality characteristics of normal and dwarf indigenous (Desi) hens of Bangladesh. Journal of Applied Animal Research 13: 191-196.CrossRefGoogle Scholar
YOSHIMURA, Y., BARUA, A., OLIRA, HERYANTO H. and ZHENG, W. (1997) Reproductive physiology in domestic animals: a basic knowledge to improve poultry production in Asian countries. Journal of International Development and Cooperation, Hiroshima University, Vol. 3, pp. 27-41.Google Scholar
ZAMAN, S.A., ALI, A., FARUQUE, M.O. and BHUIYAN, A.K.F.H. (1991) Transferring polymorphism and growth rate in Rhode Island Red crossbred and native chicken. Asian-Australasian Journal of Animal Science 4: 231-234.CrossRefGoogle Scholar
ZAMAN, M.A., SORENSEN, P. and HOWLIDER, M.A.R. (2004) Egg production performances of a breed and three crossbreeds under semi-scavenging system of management. Livestock Research for Rural Development 16: www.cipav.org.co/Irrd16/8/zama16060.htm.Google Scholar