Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-26T03:12:13.590Z Has data issue: false hasContentIssue false

Analysis of an open nucleus breeding programme for Djallonkè sheep in the Ivory Coast. 1. Examination of non-genetic factors

Published online by Cambridge University Press:  02 September 2010

C. V. Yapi-Gnaorè
Affiliation:
Institut Des Savanes (IDESSA), DRA. 01 BP 633 Bouakè 01, Ivory Const
A. Oya
Affiliation:
ANADER/PNSO, 01 BP 1166 Bouakè 01, Ivory Coast
J. E. O. Rege
Affiliation:
International Livestock Research Institute, Addis Ababa, Ethiopia
B. Dagnogo
Affiliation:
ANADER/PNSO, 01 BP 1166 Bouakè 01, Ivory Coast
Get access

Abstract

Data on Djallonke sheep collected from 1983 through 1992 on 29 participating farms of an open nucleus improvement programme and from the nucleus were analysed. Initial on-farm records on 14342 lambs and on-station records on 2551 ram lambs were edited down to 6605 for birth weight (BWT), 5857 for preselection (birth to 80 days) average daily gain (PSADG), 10417 for 80-day weight (WT80), 13054 for lamb survival at pre-selection, 1978 for 180 (WT180) and 849 for 365 (WT365) day weights. Year of birth, sire line, flock, month and season of birth had significant (at leastP < 0·05) effects on both on-farm and on-station weights and on lamb survival. Trait means were 2·2 (s.e. 0·02) kg for BWT, 69·6 (s.e. 1·26) g/day for PSADG, 9·1 (s.e. 0·05) kg for WT80, 19·7 (s.e. 0·24) kg for WT180 and 31·8 (s.e. 0·45) kg for WT365. Mean survival was 90 (s.e. 0·9) %. Single lambs were heavier at birth and at 80 days of age, grew faster to 80 days and were about 200 and 500 g heavier at 180 and 365 days respectively than multiple lambs. There was a large variation between flocks: flock means for WT80 varied from 6·4 to 12·0 kg (CV 0·21), with smaller flocks having generally the lowest means. Lambs born in the hot-rainy season had the heaviest birth and 80-day weights, whereas ram lambs born in the cool rainy and early hot-dry seasons had the heaviest 180- and 365-day weights. Lambs born during the cool months of July to October had the lowest survival rate. Multiplicative factors were found to be more appropriate for adjusting on-farm records for type of birth, management level, birth date, season of birth and ewe parity than additive adjustment factors.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1997

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

Abassa, K. P., Pessinaba, J. and Adeshola-Ishola, A. 1992. Croissance prè-sevrage des agneaux Djallonkè au Centre de Kolokopè (Togo). Revue d'Elevage et de Mèdecine Vètèrinaire des Pays Tropicaux 45: 4954.Google Scholar
Adeleye, I. O. A. 1984. Seasonal effects on lamb production under tropical conditions. Nigerian journal of Animal Production 11: 168174.CrossRefGoogle Scholar
Ademosum, A. A., Benyi, K., Chiboka, O. and Munyabuntu, C. M. 1983. Review of hair sheep study in Southwestern Nigeria. In Hair sheep of Western Africa and the Americas. A genetic resource for the tropics (ed. Fitzhugh, H. A. and Bradford, G. E.), pp. 219226. A Winrock International Study. Westview Press, Boulder, Colorado.Google Scholar
Adu, I. F., Olaloku, E. A. and Oyenuga, V. A. 1974. The effects of energy intake during late pregnancy on lamb birth weights and lactation of Nigeria Dwarf sheep. Nigerian Journal of Animal Production 1: 151160.CrossRefGoogle Scholar
Armbruster, T., Peters, K. J. and Hadji-Thomas, A. 1991a. Sheep production in the humid zone of West Africa. III. Mortality and productivity of sheep in improved production systems in Côte d'lvoire. Journal of Animal Breeding and Genetics 108: 220226.CrossRefGoogle Scholar
Armbruster, T., Peters, K. J. and Metz, T. 1991b. Sheep production in the humid zone of West Africa. II. Growth performance and liveweight of sheep in improved and traditional production systems in Cote d'lvoire. Journal of Animal Breeding and Genetics 108: 210219.CrossRefGoogle Scholar
Aziz, D. A., Alkass, J. E. and Hermiz, H. N. 1989. Adjustment factors for growth traits in Awassi sheep. Indian journal Animal Science 59: 12851289.Google Scholar
Bradford, E. G. and Fitzhugh, H. A. 1983. Hair sheep: a general description. In Hair sheep of Western Africa and the Americas. A genetic resource for the tropics (ed. Fitzhugh, H. A. and Bradford, G. E.), pp. 322. A Winrock International Study. Westview Press, Boulder, Colorado.Google Scholar
Cèsar, J. 1978. Les savanes du Nord-Est de la Cote d'lvoire: valeur pastorale et possibilitè d'amèlioration. Ministére de la Recherche Scientifique, CRZ, Bouakè, Côte d'lvoire.Google Scholar
Cèsar, J. 1982. Contribution á l'ètude de la composition floristique des savanes exploitees par coupe. Revue d'Elevage et de Mèdecine Vètèrinaire des Pays Tropicaux 35: 435442.Google Scholar
Cundiff, L. V., Willham, R. L. and Pratt, C. A. 1966. Additive versus multiplicative factors for weaning weight in beef cattle. Journal of Animal Science 25: 983987.CrossRefGoogle Scholar
Dickerson, G. E., Glimp, H. A., Tuma, H. J. and Gregory, K. E. 1972. Genetic resources for efficient meat production in sheep. Growth and carcass characteristics of ram lambs of seven breeds. Journal of Animal Science 34: 940951.CrossRefGoogle Scholar
d'leteren, G. D. M. 1994. Trypanotolerant livestock, a sustainable option for increasing livestock producion in tsetse-affected areas. In Toivards increased use of trypanotolerance: current status of research and future direction (ed. Rowlands, G. J. and Teale, A. J.), pp. 311. Proceedings of a workshop organized by ILRAD and ILCA, ILRAD, Nairobi, Kenya, 26-29 April 1993. ILRAD, Nairobi, Kenya/ILCA, Addis Ababa, Ethiopia.Google Scholar
Djemali, M., Aloulou, R. and Ben Sassi, M. 1994. Adjustment factors and genetic and phenotypic parameters for growth traits of Barbarine lambs in Tunisia. Small Ruminant Research 13: 4147.CrossRefGoogle Scholar
Dyrmundsson, O. R. 1987. Advancement of puberty in male and female sheep. In New techniques in sheep production (ed. Marai, I. F. M. and Owen, J. B.), pp. 6576. Butterworths, London.CrossRefGoogle Scholar
Epstein, H. 1971. The origin of domestic animals of Africa, vol. 2. Africana Publishing Corporation, New York.Google Scholar
Fall, A., Diop, M., Wissocq, Y. J., Durkin, J., Trail, J. C. M. and Gueye, E. 1982. Evaluation des productivites des ovins Djallonke' et des taurins N'Dama au Centre de Recherches Zootcchniques de Kolda, Sènègal. CIPEA Rapport de Recherche no. 3. International Livestock Centre for Africa, Addis Ababa.Google Scholar
Filius, P., Weniger, J. H. and Teuscher, T. 1986. Investigations on the performance of Djallonkè sheep. Animal Research and Development 24: 8597.Google Scholar
Food and Agriculture Organization. 1980. Le bètail trypanotolèrant en Afrique Occidentale et Centrale. Etude gènèrale. FAO Etude Production et Santè Animales no. 20(1).Google Scholar
Frisch, J. E. 1981. Changes occurring in cattle as a consequence of selection for growth rate in a stressful environment. Journal of Agricultural Science, Cambridge 96: 2338.CrossRefGoogle Scholar
Geenty, K. G. and Dyson, C. B. 1986. The effects of various factors on the relationship between lamb growth rate and ewe milk production. Proceedings of the New Zealand Society of Animal Production 46: 265269.Google Scholar
Afrique, Jeune. 1973. The atlas of Africa (ed. Afrique, Jeune), pp. 162167.Google Scholar
Mason, I. L. 1991. Classification and distribution of sheep breeds. In Genetic resources of pig, sheep and goat (ed. Maijala, K.), pp. 179193. World Animal Science, B8. Elsevier.Google Scholar
Ngere, L. O., Akinuli, K. E. and Adeleye, I. O. 1983. Optimum breeding age for the West African Dwarf sheep in Ibadan. Nigerian journal of Animal Production 10: 5559.CrossRefGoogle Scholar
Oya, A. 1990. Rapport annual 1990. Ministère de l'Agriculture et des Ressources Animales, SODEPRA Centre, Bouakè, Côte d'lvoire.Google Scholar
Poivey, J. P., Charray, J. and Humbert, J. M. 1986. Research on sheep in Ivory. Study and improvement of the Djallonkè breed. World Review of Animal Production 22: 7782.Google Scholar
Poivey, J. P., Landais, E. and Berger, Y. 1982. Etude et amèlioration gènètique de la croissance des agneaux Djallonkè. Rèsultats obtenus au Centre de Recherches Zootechniques de Bouakè (Côte d'lvoire). Revue d'Elevage et de Mèdecine Vètèrinaire des Pays Tropicaux 35: 421433.Google Scholar
Rege, J. E. O. 1992. LOGMLVAR: a computer programme for estimating sampling variance of predicted probabilities from maximum likelihood estimate in a logit response function. International Livestock Research Institute (ILRI), Addis Ababa, Ethiopia.Google Scholar
Rombaut, D. 1980. Comportement du mouton Djallonkè en èlevage rationnel. Revue d'Elevage et de Mèdecine Vètèrinaire des Pays Tropicaux 33: 427439.Google Scholar
Rombaut, D. and Vlaenderen, G. van. 1976. Le mouton Djalonkè de Côte-d'Ivoire en milieu villageois. Comportement et alimentation. Revue d'Elevage et de Mèdecine Vètèrinaire des Pays Tropicaux 29: 157172.Google Scholar
Ryder, M. L. 1991. Domestication, history and breed evolution in sheep. In Genetic resources of pig, sheep and goat (ed. Maijala, K.), pp. 157177. World Animal Science, B8. Elsevier.Google Scholar
Snedecor, G. W. and Cochran, W. G. 1976. Statistical methods. Iowa State University Press, Ames, Iowa.Google Scholar
Statistical Analysis Systems Institute. 1987. SAS/STAT guide for personal computers, version 6 edition. SAS Institute Inc., Cary, NC.Google Scholar
Strutz, C. and Glombitza, K. F. 1986. Les moutons Djallonkè èlevès par les villageois au Congo peuvent-ils etre sèlectionnès pour l'augmentation du poids? Revue d'Elevage et de Mèdecine Vètèrinaire des Pays Tropicaux 39: 107111.Google Scholar
Sumberg, J. E. and Mack, S. D. 1985. Village production of West African Dwarf goats and sheep in Nigeria. Tropical Animal Health and Production 17: 135140.CrossRefGoogle ScholarPubMed
Tuah, A. K. and Baah, J. 1985. Reproductive performance, pre-weaning growth rate and preweaning lamb mortality of Djallonkè sheep in Ghana. Tropical Animal Health and Production 17: 107113.CrossRefGoogle ScholarPubMed
Vallerand, F. and Branckaert, R. 1975. La race ovine Djallonkè au Cameroun. Potentialitès zootechniques, conditions d'èlevage, avenir. Revue d'Elevage et de Mèdecine Vètèrinaire des Pays Topicaux 28: 523545.Google Scholar
Yapi-Gnaorè, C. V., Rege, J. E. O., Oya, A. and Alemayehu, Nega. 1997. Analysis of an open nucleus breeding programme for Djallonke sheep in Ivory Coast. 2. Response to selection on body weights. Animal Science 64: 301307.CrossRefGoogle Scholar