Hostname: page-component-cd9895bd7-fscjk Total loading time: 0 Render date: 2024-12-30T17:29:05.621Z Has data issue: false hasContentIssue false

Characterisation and monitoring of poultry genetic resources

Published online by Cambridge University Press:  12 May 2009

M. TIXIER-BOICHARD*
Affiliation:
INRA, AgroParisTech, UMR1313 ‘Animal Genetics and Integrative Biology’, 78350 Jouy-en-Josas, FRANCE
A. BORDAS
Affiliation:
INRA, AgroParisTech, UMR1313 ‘Animal Genetics and Integrative Biology’, 78350 Jouy-en-Josas, FRANCE
X. ROGNON
Affiliation:
INRA, AgroParisTech, UMR1313 ‘Animal Genetics and Integrative Biology’, 78350 Jouy-en-Josas, FRANCE
*
Corresponding author: michele.boichard@jouy.inra.fr
Get access

Abstract

Poultry genetic resources encompass all types of populations, from village chickens to commercial and experimental lines. Characterisation includes collection of data on population size and structure, geographical distribution, production systems in which the breed is found, phenotypic attributes (physical features, performance levels and any unique features), historical development of the breed (crossbreeding, selection). Such data can be available for standardised breeds and experimental lines, but are generally confidential for commercial lines and difficult to record for village chickens. In the past, random sample tests provided recurrent data for layer and broiler strains, but these have been discontinued. Available literature on local populations provides information on specific features such as morphological diversity, scavenging behaviour, product quality and disease resistance.

Molecular markers provide useful information on genetic variability, either within or between populations, and make it possible to quantify relatedness between populations and to detect introgressions. Molecular markers contribute to define breed identity and may be used to assign individuals to their population of origin. Current results provide a reasonably complete picture of genomic variability and population structure in the domestic chicken. Yet, this does not make it possible to predict performance: phenotypic data are still needed to document molecular data. In the future, the progress of genomics may merge functional data with historical data.

Monitoring poultry genetic resources is not always a priority for certain countries. Indicators may be proposed for between- as well as within- population variability.

Type
Review Article
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

BAUMUNG, R., SIMIANER, H. and HOFFMANN, I. (2004) Genetic diversity studies in farm animals – a survey. Journal of Animal Breeding and Genetics 12: 361-373.CrossRefGoogle Scholar
BERTHOULY, C., BED'HOM, B., TIXIER-BOICHARD, M., CHEN, C.F., LEE, Y.P. LALOË, D., , LEGROS, H., VERRIER, E. and ROGNON, X. (2008) Using molecular markers and multivariate methods to study the genetic diversity of local European and Asian chicken breeds. Animal Genetics 39: 121-129.CrossRefGoogle Scholar
BOWCOCK, A.M., RUIZ-LINARES, A., TOMFOHRDE, J., MINCH, E., KIDD, J.R. and CAVALLI-SFORZA, L.L. (1994) High-resolution of human evolutionary trees with polymorphic microsatellites. Nature 368: 455-467.CrossRefGoogle ScholarPubMed
COQUERELLE, G. (2000) La poule: diversité génétique visible. INRA Editions p.183Google Scholar
DEKA, R. and KALITA, N. (2004) Elevage de poulets de chair dans un système semi-intensif en zone rurale d'Assam (Inde). Bulletin RIDAF (INFPD Newsletter for English version), 14, no. 2.Google Scholar
FAO, (2007) The State of the World's Animal Genetic Resources for Food and Agriculture, (http://www.fao.org/docrep/010/a1250e/a1250e00.htm) (RISCHKOWSKY, B. & PILLING, D., Eds) Rome, Italy.Google Scholar
GRANEVITZE, Z., HILLEL, J., CHEN, G.H., CUC, N.T.K., FELDAM, M., EDING, H. and WEIGEND, S. (2007) Genetic diversity within chicken populations from different continents and management histories. Animal Genetics 38: 576-83.CrossRefGoogle ScholarPubMed
Groenen, M.A., Cheng, H.H., Bumstead, N., Benkel, B.F., Briles, W.E., BURKE, T., BURT, D.W., CRITTENDEN, L.B., DODGSON, J., HILLEL, J., LAMONT, S., PONCE DE LEON, F.A., SOLLER, M., TAKAHASHI, H. and VIGNAL, A. (2000) A consensus linkage map of the chicken genome. Genome Research 10: 137-147.Google ScholarPubMed
GUÈYE, E.F. (1998) Village egg and fowl meat production in Africa. World's Poultry Science Journal 54: 73-86.CrossRefGoogle Scholar
GUÈYE, E.F. (2002) Employment an income generation through family poultry in low-income food-deficit countries. World's Poultry Science Journal 58: 541-557.CrossRefGoogle Scholar
HAVENSTEIN, G.B., 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: 1500-1508.CrossRefGoogle ScholarPubMed
HEIL, G. and HARTMANN, W. (1999) Combined summaries of European random sample egg production tests completed in 1997 and 1998. Report of the ‘Poultry Breeding and Genetics’ working group 3 of the European Federation of WPSA branches. World's Poultry Science Journal 55: 203-205.CrossRefGoogle Scholar
HENNING, J., PYM, R., HLA, T., KYAW, N. and MEERS, J. (2007) Village chicken production in Myanmar- purpose, magnitude and major constraints. World's Poultry Science Journal 63: 308-322.CrossRefGoogle Scholar
HILLEL, J., GROENEN, M.A.M., TIXIER-BOICHARD, M., KOROL, A.B., DAVID, L., KIRZHNER, V.M., BURKE, T., BARRE-DIRIE, A., CROOIJMANS, R.P.M.A., ELO, K., FELDMAN, M.W., FREIDLIN, P.J., MAKI-TANILA, A., OORTWIJN, M., THOMPSON, P., VIGNAL, A., WIMMERS, K. and WEIGEND, S. (2003) Biodiversity of 52 chicken populations assessed by microsatellite typing of DNA pools. Genetics Selection Evolution 35: 533-557.CrossRefGoogle ScholarPubMed
HILLEL, J., GRANEVITZE, Z., TWITO, T., BEN-AVRAHAM, D., BLUM, S., LAVI, U., DAVID, L., FELDMAN, M.W., CHENG, H. and WEIGEND, S. (2007) Molecular markers for the assessment of chicken biodiversity. World's Poultry Science Journal 63: 33-45.CrossRefGoogle Scholar
HILLIER, L.W., MILLER, W., BIRNEY, E., WARREN, W., HARDISON, R.C., PONTING, C.P., BORK, P., BURT, D.W., GROENEN, M.A.M. and DELANY, M.E. (2004) Sequence and comparative analysis of the chicken genome provide unique perspectives on vertebrate evolution. Nature 432: 695-716.Google Scholar
HOCKING, P., CHANNING, C., ROBERTSON, G., EDMOND, A. and JONES, R. (2004) Between breed genetic variation for welfare-related behavioural traits in domestic fowl. Applied Animal Behaviour Science 89: 85-105.CrossRefGoogle Scholar
HOFFMANN, I. (2009) The global plan of action for animal genetic resources and the conservation of poultry genetic resources. World's Poultry Science Journal 65: 287-297.CrossRefGoogle Scholar
MUCHADEYI, F.C., EDING, H., WOLLNY, C.B.A., GROENEVELD, E., MAKUSA, S.M., SHAMSELDIN, R., SIMIANER, H. and WEIGEND, S. (2007) Absence of population structuring in Zimbabwe chicken ecotypes inferred using microsatellite analysis. Animal Genetics 38: 332-339.CrossRefGoogle ScholarPubMed
MWACHARO, J.M., NOMURA, K., HANADA, H., JIANLI, H., HANOTTE, O. and AMANO, T. (2007) Genetic relationships among Kenyan and other East African indigeneous chickens. Animal Genetics 38: 485-490.CrossRefGoogle ScholarPubMed
NEI, M., TAJIMA, F. and TATENO, Y. (1983) Accuracy of estimated phylogenetic trees from molecular data. Journal of Molecular Evolution 19:153-170.CrossRefGoogle ScholarPubMed
OTTE, J., PFEIFFER, D., TIENSIN, T., PRICE, L. and SILBERGELD, E. (2007) HPAI risk, bio-security and smallholder diversity. SSFPF symposium, 5-6 March 2007, Bangkok, Asian Pacific Federation of WPSA, R.A.E. Pym (Ed.), 1-8.Google Scholar
PINARD-VAN DER LAAN, M-H., MONVOISIN, J-L., PERY, P., HAMET, N. and THOMAS, M. (1998) Comparison of outbred lines of chickens for resistance to experimental infection with coccidiosis (Eimeria tenella). Poultry Science 77: 185-191.CrossRefGoogle ScholarPubMed
PIRY, S., ALAPETITE, A., CORNUET, J.M., PAETKAU, D., BAUDOUIN, L. and ESTOUP, A. (2004) GENECLASS 2: a software for genetic assignment and first-generation migrant detection. Journal of Heredity 95: 536-539.CrossRefGoogle Scholar
PISENTI, J.M., DELANY, M.E., TAYLOR, R.L. JR., ABBOTT, U., ABPLANALP, H., ARTHUR, J.A., BAKST, M.R., BAXTER-JONES, C., BITGOOD, J.J., BRADLEY, F., CHENG, K.M., DIETERT, R.R., DODGSON, J.B., DONOGHUE, A.M., EMSLEY, A.B., ETCHES, R.J., FRAHM, R.R., GERRITS, R.J., GOETINCK, P.F., GRUNDER, A.A., HARRY, D.E., LAMONT, S.J., MARTIN, G.R., MCGUIRE, P.E., MOBERG, G.P., PIERRO, L.J., QUALSET, C.O., QURESHI, M.A., SHULTZ, F.T. and WILSON, B.W. (1999) Avian genetic resources at risk: an assessment and proposal for conservation of genetic stocks in the USA and Canada. University of California Davis, report no.20.Google Scholar
PRITCHARD, J.K., STEPHENS, M. and DONELLY, J.P. (2000) Inference of population structure using multilocus genotype data. Genetics 155: 945-959.CrossRefGoogle ScholarPubMed
PYM, R.A.E., EVANS, M., HUQUE, Q.M.E. and GIBBINS, A.M. (2005) Le rôle de la WPSA dans l'appui à l'aviculture familiale dans les pays en voie de développement. Bulletin RIDAF, (INFPD Newsletter for English version) 15 no. 2: 11-15.Google Scholar
PYM R.A.E., (2007) Minimising the impact of avian influenza on small scale family poultry farming in developing countries. SPFPF working group. Proceedings of the 8th Asian Pacific Poultry Conference, Bangkok, March 5-6, 2007.Google Scholar
REYNOLDS, J., WEIR, B. and COCKERHAM, C. (1983) Estimation of the co-ancestry coefficient: basis for a short-term genetic distance. Genetics 105: 767-779.CrossRefGoogle Scholar
ROSENBERG, N.A., BURKE, T., ELO, K., FELDMAN, M.W., FREIDLIN, P.J., GROENEN, M.A.M., HILLEL, J., MAKI-TANILA, A., TIXIER-BOICHARD, M., VIGNAL, A., WIMMERS, K. and WEIGEND, S. (2001) Empirical evaluation of genetic clustering methods using multilocus genotypes from 20 chicken breeds. Genetics 159: 699-713.CrossRefGoogle ScholarPubMed
SHADONG, X. (2006) The background and significance of AnGR surveys, at http://www.sdxm.gov.cn/nodepages/LU0EF2002B.shtm.Google Scholar
SOMES, R.G. JR. (1988) International registry of poultry genetic stocks. Storrs Agricultural Experimental Station Bulletin 476, The University of Connecticut.Google Scholar
SU, L., YANG, N., LI, X., XU, G., CHEN, K., YANG, H., ZHANG, L., WU, G., HOU, Z. and XU, G. (2004) Genetic diversity of 78 Chinese chicken breeds based on microsatellite analysis. XIIth World Poultry Congress, Istanbul, 8-13 June 2004.Google Scholar
TIXIER-BOICHARD, M., MONVOISIN, J-L., MORISSON, M., COVILLE, J-L., LE COQ, H. and GUITTET, M. (1998) The endogenous viral gene ALVE6 does not affect resistance to Marek's disease in Fayoumi chickens. 6th World Congress on Genetics Applied to Livestock Production, Armidale, Australia, January 12-16, 1998, 27: 370-373.Google Scholar
TIXIER-BOICHARD, M., COQUERELLE, G., VILELA-LAMEGO, C. and THE AVIANDIV CONSORTIUM, (1999) Contribution of data on history, management and phenotype to the description of the diversity between chicken populations sampled within the AVIANDIV project. 1st European Poultry Genetics Symposium, 6-8 October 1999, Lohmann Tierzucht, Cuxhaven, Germany, pp. 15–21.Google Scholar
TIXIER-BOICHARD, M. (2003) A survey of experimental poultry lines in Europe: prospects for research and conservation issues. 3rd European Poultry Symposium, 17-19 Sept. 2003, Wageningen, The Netherlands, pp 43-47.Google Scholar
VERRIER, E., TIXIER-BOICHARD, M., BERNIGAUD, R. and NAVES, M. (2005) Conservation and value of local livestock breeds: usefulness of niche products and/or adaptation to specific environments. Animal Genetic Resources Information 36: 21-32CrossRefGoogle Scholar
WEIGEND, S. and ROMANOV, M.N. (2001) Current strategies for the assessment and evaluation of genetic diversity in chicken resources. World's Poultry Science Journal 57: 275-288.CrossRefGoogle Scholar
WEIGEND, S. and ROMANOV, M.N. (2002) The World Watch List of domestic animal diversity in the context of conservation and utilisation of poultry biodiversity. World's Poultry Science Journal 58: 411-430.CrossRefGoogle Scholar
WIMMERS, K., PONSUKSILI, S., HARDGE, T., VALLE-ZARATE, A., MATHUR, P.K. and HORST, P. (2000) Genetic distinctness of African, Asian and South American local chickens. Animal Genetics 31: 159-65.CrossRefGoogle ScholarPubMed