Hostname: page-component-cd9895bd7-8ctnn Total loading time: 0 Render date: 2024-12-17T16:31:13.632Z Has data issue: false hasContentIssue false

Fipa cattle in the southwestern highlands of Tanzania: desired attributes, breeding practices and productive performance

Published online by Cambridge University Press:  03 July 2012

P.L. Mwambene*
Affiliation:
Livestock Research Centre Uyole, Directorate of Research, Training and Extension, Ministry of Livestock and Fisheries Development, PO Box 6191, Mbeya, Tanzania
A.M. Katule
Affiliation:
Department of Animal Science and Production, Faculty of Agriculture, Sokoine University of Agriculture, PO Box 3004, Morogoro, Tanzania
S.W. Chenyambuga
Affiliation:
Department of Animal Science and Production, Faculty of Agriculture, Sokoine University of Agriculture, PO Box 3004, Morogoro, Tanzania
P.A.A. Mwakilembe
Affiliation:
Livestock Research Centre Uyole, Directorate of Research, Training and Extension, Ministry of Livestock and Fisheries Development, PO Box 6191, Mbeya, Tanzania
*
Correspondence to: P.L. Mwambene, Livestock Research Centre Uyole, Directorate of Research, Training and Extension, Ministry of Livestock and Fisheries Development, PO Box 6191, Mbeya, Tanzania. email: [email protected]
Get access

Summary

Farmers in different cattle production systems have different trait preferences and breeding strategies that need an investigation before designing any sustainable breeding plan. The present study was undertaken to assess characteristics deemed desirable, breeding practices and productive performance of Fipa cattle in three districts of southwestern highlands of Tanzania, using a structured questionnaire. The majority of farmers perceived body size (91.7 percent), body conformation (85 percent), body colours (85 percent), disease resistance (87.5 percent), heat/drought tolerance (82.5 percent), draught power (87.5 percent), better carcass (84.2 percent) and fertility (70.8 percent) as the most important attributes of the Fipa cattle. Most (91.6 percent) farmers preferred pure breeding to cross-breeding in order to maintain the genetic purity of the strain. Mating practice was random among the majority (95.8 percent) of the farmsteads owing to non-availability of breeding bulls for each individual farmstead (43.3 percent) and also owing to grazing on communal rangelands (52.5 percent). Selection of breeding bulls was rarely rationally done. Age at first calving was 50 ± 1.3 months, while lactation length and calving interval were 7.1 ± 2.8 and 15.5 ± 0.6 months, respectively. Mean daily milk yield at peak was 3.35 ± 0.15 litres, while longevity was 10.78 ± 0.59, 14.56 ± 0.50 and 15.48 ± 0.55 years for bulls, cows and castrates, respectively. The farmers’ preference for certain attributes and the inherent performance variability should be deployed as the entry point for participatory establishment of improvement and sustainable utilization strategies of the strain.

Résumé

Les agriculteurs des divers systèmes de production de bovins ont des préférences pour certains caractères et des stratégies d'amélioration génétique différentes qu'il faudrait analyser avant de concevoir tout programme de sélection durable. Cette étude a été réalisée pour évaluer les caractéristiques souhaitables, les pratiques d’élevage et les performances de production des bovins Fipa dans trois districts des hautes terres sud-occidentales de la Tanzanie, en utilisant un questionnaire structuré. La majorité des agriculteurs considèrent la taille (91,7 pour cent), la conformation (85 pour cent) et les couleurs (85 pour cent) du corps, la résistance aux maladies (87,5 pour cent), la tolérance à la chaleur/à la sécheresse (82,5 pour cent), la traction (87,5 pour cent), la meilleure qualité de la carcasse (84,2 pour cent) et la fécondité (70,8 pour cent) comme les caractères les plus importants des bovins Fipa. La plupart (91,6 pour cent) des agriculteurs préfèrent l’élevage en race pure au croisement pour conserver la pureté génétique de la souche. La pratique d'accouplement est aléatoire dans la majorité (95,8 pour cent) des fermes en raison du manque de disponibilité de taureaux reproducteurs pour chaque ferme (43,3 pour cent) et également en raison du pâturage sur les parcours communaux (52,5 pour cent). La sélection des taureaux reproducteurs est rarement réalisée de façon rationnelle. L’âge au premier vêlage est de 50 ± 1,3 mois tandis que la période de lactation et l'intervalle entre vêlages sont respectivement de 7,1 ± 2.8 et de 15.5 ± 0,6 mois. Le rendement journalier moyen en lait au maximum est de 3,35 ± 0,15 litres, tandis que la longévité est respectivement de 10,78 ± 0,59, 14,56 ± 0,50 et 15,48 ± 0,55 ans pour les taureaux, pour les vaches et pour les animaux châtrés. La préférence des agriculteurs pour certains caractères et la variabilité intrinsèque des performances devraient constituer le point de départ pour la mise en place participative des stratégies d'amélioration et d'utilisation durable de cette souche.

Resumen

Ganaderos que siguen diferentes sistemas de producción tienen también preferencias por distintas características y estrategias de mejora, necesitándose, por tanto, de un análisis previo antes de diseñar un programa de mejora sostenible. El presente estudio se llevó a cabo para evaluar las características que se consideraban más oportunas, así como las actuaciones de mejora y el rendimiento productivo del ganado vacuno Fipa en tres distritos del suroeste de las zonas montañosas de Tanzania, utilizando un cuestionario estructurado. La mayoría de los ganaderos tenían en cuenta el tamaño corporal (91,7%), la conformación corporal (85%), el color de la capa (85%), la resistencia a enfermedades (87,5%), la tolerancia al calor y a la sequía (82,5%), la fuerza de tiro (87,5%), la mejor conformación de la canal (84,2%) y la fertilidad (70,8%) como las cualidades más importantes del ganado Fipa. La mayoría de los ganaderos (91,6%) preferían reproductores de raza pura en lugar de los cruzados con objeto de mantener la pureza genética de la población. Los apareamientos tenían lugar al azar en la mayoría de las de las explotaciones (95,8%) debido a la falta de toros reproductores en cada explotación a nivel individual (43,3%) y también debido a que pastan en pastos comunales (52,5%). La selección de toros para cría rara vez se lleva a cabo de una forma muy pensada. La edad al primer parto era de 50 ± 1,3 meses, mientras que la duración de la lactación y el intervalo entre partos era de 7,1 ± 2,8 y 15,5 ± 0,6 meses, respectivamente. La media de producción diaria de leche en el punto más alto de la curva de lactación era de 3,35 ± 0,15 litros, mientras que la longevidad era de 10,78 ± 0,59, 14,56 ± 0,50 y 15,48 ± 0,55 años para los toros, vacas y los bueyes, respectivamente. Se deben utilizar las preferencias de los ganaderos por determinadas características de los animales, así como la variabilidad de éstos en cuanto a su rendimiento productivo, como punto de partida para el establecimiento participativo de un programa mejora y estrategias sostenibles de utilización de esta raza.

Type
Research Article
Copyright
Copyright © Food and Agriculture Organization of the United Nations 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

Bebe, B.O., Udo, H.M.J., Rowlands, G.J. & Thorpe, W. 2003. Smallholder dairy systems in the Kenya highlands: breed preferences and breeding practices. Livestock Prod. Sci., 82: 117127.Google Scholar
Bwire, J.M.N., Mkonyi, I.J. & Masao, D. 2005. Development and multiplication of Mpwapwa breed cattle for meat and milk production in Tanzania. In Proceedings on Hundred Years of Livestock Services in Tanzania, 6–11 June, 2005, LPRI, Mpwapwa, Tanzania, 8995.Google Scholar
Chenyambuga, S.W., Ngowi, E.E., Gwakisa, P.S. & Mbaga, S.H. 2008. Phenotypic description and productive performance of Tarime Zebu cattle in Tanzania. Tanzania Vet. J., 25(1): 6074.Google Scholar
Franzen, H., Reule, M., Richter, J., Peters, K. & Gall, C. 1996. Is animal farming in developing countries still worth financing? Anim. Res. Dev., 43(1): 1521.Google Scholar
Ishag, I.A. & Ahmed, M-K.A. 2011. Characterization of production system of Sudanese camel breeds. Livestock Res. Rural Dev., 23(3): 19.Google Scholar
Köhler-Rollefson, I. (2000). Management of animal genetic diversity at community level. Managing agro-biodiversity in rural areas. Eschborn, Germany, GTZ.Google Scholar
Kugonza, D.R., Nabasirye, M., Mpairwe, D., Hanotte, O. & Okeyo, A.M. 2011. Productivity and morphology of Ankole cattle in three livestock production systems in Uganda. Anim. Genet. Resources Inf., 48: 1322.CrossRefGoogle Scholar
Maeda-Machang'u, A.D., Mutayoba, S.K., Laswai, G.H., Mwaseba, D., Kimambo, A.E. & Lazaro, E. 2000. Local knowledge and gender roles in different livestock production systems in Tanzania. In Matovelo, J.A., ed. Proceedings of the 1st University-wide Scientific Conference, 5–7 April 2000, Morogoro, Tanzania, 657674.Google Scholar
McDonald, L.E. 1989. Veterinary Endocrinology and Reproduction, 4th edition. Lea and Febiger, Philadelphia. 571 pp.Google Scholar
Mpiri, D.B. 1994. Improving cattle productivity in Tanzania. A report submitted to the Ministry of Agriculture, Department of Research and Training, Dar es Salaam, 149 pp.Google Scholar
Msalale, A.L. 2007. Pastoralists and agro-pastoralists in Mbeya District of Tanzania and their perception of the national livestock policy. Wageningen University, The Netherlands, pp 44. (M.Sc. thesis).Google Scholar
Mukasa-Mugerwa, E. 1989. A review of reproductive performance of female Bos indicus (Zebu) cattle. ILCA, Monograph 6. ILCA (International Livestock Centre for Africa), Addis Ababa, Ethiopia. 134 pp.Google Scholar
Mwacharo, J.M. & Rege, J.E.O. 2002. On-farm characterization of the indigenous Small East African Shorthorn Zebu cattle (SEAZ) in the Southeast rangelands of Kenya. Anim. Genet. Resources Inf., 32: 7386.Google Scholar
Mwacharo, J.M. & Drucker, A.G. 2005. Production objectives and management strategies of livestock-keepers in Southeast Kenya: implications for a breeding programme. Trop. Anim. Health Prod., 37: 132.Google Scholar
Mwakilembe, P.A., Mbwile, R.P., Sendalo, D.C., Msanga, Y.N., Murro, J.K., Mwambene, P.L. & Temu, A.A. 2007. On-farm appraisal of Fipa cattle in Rukwa region in the Southern Highlands of Tanzania. A report submitted to the Ministry of Livestock and Fisheries Development, Tanzania, 68 pp.Google Scholar
Mwambene, P.L., Katule, A.M. & Chenyambuga, S.W. 2012. Fipa cattle in the southwestern highlands of Tanzania: socio-economic roles, traditional management practices and production constraints. Anim. Genet. Resour., in press. doi:10.1017/S2078633612000136.Google Scholar
Ngowi, E.S., Chenyambuga, S.W. & Gwakisa, P.S. 2008. Socio-economic values and traditional management practices of Tarime zebu cattle in Tanzania. Livestock Res. Rural Dev., 20(6): 18. (Available at: http://www.lrrd.org/lrrd20/6/cont2006).Google Scholar
Oseni, S.O. & Bebe, B.O. 2010. Animal adaptive characteristics and herders’ perception of adaptation to climate variability in pastoral systems in arid Kenya. In Proceedings on Pastoralism and Climate Change Adaptation in Africa, CCAA – Supported Conference, 24–28 May, 2010, Egerton, Kenya.Google Scholar
Oumam, E., Abdulai, A. & Drucker, A. 2005. Assessment of farmer preferences for cattle traits in cattle production systems of Kenya. In 11th Congress of the EAAE (European Association of Agricultural Economists), 24–27 August, 2005, Copenhagen, Denmark.Google Scholar
Ouma, E., Abdulai, A. & Drucker, A. 2007. Measuring heterogeneous preferences for cattle traits among cattle-keeping households in East Africa. Am. J. Agric. Econ., 89(4): 10051019.Google Scholar
Payne, J.A. & Wilson, T.R. 1999. An introduction to animal husbandry in the tropics. Oxford, UK, Blackwell Science Ltd.Google Scholar
Rege, J.E.O. & Tawah, C.L. 1999. The state of African cattle genetic resources II. Geographical distribution, characteristics and uses of present-day breeds and strains. Anim. Genet. Resources Inf., 26: 125.Google Scholar
Rege, J.E.O., Kahi, A.K., Okomo-Adhiambo, M., Mwacharo, J. & Hannotte, O. 2001. Zebu cattle of Kenya: uses, performance, farmer preferences, measures of genetic diversity and strategies for improved use. Animal Genetic Resources Research, ILRI, Nairobi, Kenya, 103 pp.Google Scholar
Roessler, R., Drucker, A.G., Scarpa, R., Markemann, A., Lemke, U., Thuy, L.T. & Valle, Z.A. 2008. Using choice experiments to assess smallholder farmers’ preferences for pig breeding traits in different production systems in North–West Vietnam. Ecol. Econ., 66(1): 184192.Google Scholar
Rwambo, P., Grootenhuis, J., Demartini, J. & Mkumbo, S. 1998. Results on the preliminary survey on major livestock diseases in the NCA. Report by SUA-NCAA, Norwegian Agency for International Development (NORAD) and the Ministry of Natural Resources and Tourism. 19 pp.Google Scholar
Saeed, A.M., Ward, P.N., Light, D., Durkin, J.W. and Wilson, R.T. 1987. Characterisation of Kenana cattle at Um Banein, Sudan. ILCA Research Report No. 16. Addis Ababa, Ethiopia. 44 pp.Google Scholar
Schwartz, H. 1992. The camel (Camelus romedaries) in Eastern Africa. In Schwarz, H.J. and Dioli, M., eds. The one-humped camels (Camelus romedaries) in Eastern of Africa: A pictorial guide to diseases, health care and management. Verlag Josef, Scientific Books, Weikersheim, Federal Republic of Germany.Google Scholar
Sungael, N. 2005. Phenotypic characterization and slaughter characteristics of Iringa red cattle. Sokoine University of Agriculture, Morogoro, Tanzania, pp 140. (M.Sc. dissertation).Google Scholar
SPSS. 2008. Statistical Package for Social Sciences, Version 16.0. Users manual. Chicago SPSS inc. Chicago.Google Scholar
URT. 2010. The United Republic of Tanzania. Rukwa Region Livestock Profile 2010. 20 pp.Google Scholar
Wollny, C.B.A. 2003. The need to conserve farm animal genetic resources in Africa: should policy makers be concerned? Ecol. Econ., 45: 341351.Google Scholar