Abstract
The aim of this review was to present the breeding status of pure or crossbreeds of European cattle with African indigenous cattle in order to improve milk yield in African tropical conditions. As the African indigenous breeds are characterized by small size, low body weight (300–450 kg) and low production performances (less than 1000 kg per lactation), short lactation length (205–240 days), etc., the crossbreeding with pure European cattle was done in order to ameliorate production performances especially milk and beef production. As results, it was seen that F1 offspring improved output productions than their parents of tropical origin. Also, it was seen that F1 offspring showed disease and heat resistance than their parents of temperate climate origin. However, at different degrees of crossbreeding, it was seen that the offspring can demonstrate bad production performances than their parents and therefore, the crossbreeding has to respect a certain degree. Other consequences are that the crossbreeding of local and pure European cattle breeds has resulted in calving complications in African local cattle. In African indigenous cattle, the selection as an improvement tool was given less emphasis as a solution to improve output production. That is why, the implementation of a well-prepared selection programs could be practiced in African indigenous cattle in order to preserve African cattle genotypes, as they are endangered of extinction due to various crossbreeding with exotic cattle breeds.
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Adekeneye, B.A., Adebanjo, A.K., 1978. Lactational characteristics of imported British Friesian cattle in Western Nigeria. J. Agric. Sci., 91, 645-651.
Akman, N., Yener, S.M., Cedden, F., Şen, A.Ö., 2015. Cattle breeding in Turkey; situation, changes and insigths. VIII. Technical Congress of Agricultural Engineering in Türkiye, Proceedings Book. Pp:781-808. Özdoğan Matbaa Yayın Hed. Eşya San. Tic. Ltd. Şti. Matbaacılar Sitesi 558. Sokak No:29 İvedik OSB Yenimahalle ANKARA/ TÜRKİYE. https://www.zmo.org.tr/resimler/ekler/ccc76acbfd6b3e5_ek.pdf.
Anonymous, 2018. African Trypanosomiasis. Last seen on 14/12/2023 https://www.cfsph.iastate.edu/Factsheets/pdfs/trypanosomiasis_african.pdf
Bahbahani, H., Afana, A., Wragg, D., 2018. Genomic signatures of adaptive introgression and environmental adaptation in the Sheko cattle of southwest Ethiopia. PloS one, 13, e0202479.
Bahbahani, H., Clifford, H., Wragg, D., Mbole-Kariuki, M.N., Van Tassell, C., Sonstegard, T., Woolhouse, M., Hanotte, O., 2015. Signatures of positive selection in East African Shorthorn Zebu: A genome-wide single nucleotide polymorphism analysis. Scientific reports, 5, 1-13.
Banzira, M., 1990. Historique de la Recherche Zootechnique à la Station de Mahwa. In: Journée de la Recherche Agronomique, du 3 au 8 décembre 1990. Ministère de l’Agriculture et de l’Elevage du Burundi : Bujumbura, 301-319.
Biyanke, P., Mercy, E., Barancira, N., 1989. Rapport Annuel 1989 sur le Projet d’Intensification de l’Elevage dans le Mugamba. Ministère de l’Agriculture et de l’Elevage: Bujumbura, 147 p.
Blench, R.M., MacDonald, K.C., 2006. The Origins and Development of African Livestock: archaeology, genetics, linguistics and ethnography. Routledge, London, UK.
Buffum, B.C., 1909. Arid Agriculture: A Hand-book for the Western Farmer and Stockman. Self published, Worland, WY, USA.
Collier, P., Gunning, J.W., 1999. Explaining African economic performance. J. Econ. Lit. 37:64-111.
De Roos, A.P.W., Hayes, B.J., Spelman, R.J., Goddard, M.E., 2008. Linkage disequilibrium and persistence of phase in Holstein–Friesian, Jersey and Angus cattle. Genetics 179:1503-1512.
Demeker, S., Neser, F.W.C, Schoeman, J. 2004. Estimates of genetic parameters for Boran, Friesian, and crosses of Friesian and Jersey with the Boran cattle in the tropical highlands of Ethiopia: milk production traits and cow weight. J. Anim. Breed. Genet., 121, 57-65.
EARO., 1999. Livestock Research Strategy: ExecutiveSummary. EARO (Ethiopian Agriculture Research Organization), Addis Ababa, Ethiopia.
Epstein, H., 1971. The origin of the domestic animals of Africa. Africana Publishing Corporation, New York, USA.
Flint, A.P.F., Woolliams, J.A., 2008. Precision animal breeding. Philosophical Transactions of the Royal Society B:Biological Sciences 363:573-590.
Gakulande, E., Mulindwa, H., Wurzinger, M., Mwai, A.O., Mpairwe, D., Sölkner, J., 2010. On-farm Comparison of Milk Production and Growth of Purebred Ankole and Crossbred Friesian–Ankole Cattle in South-Western Uganda. BOKU - University of Natural Resources and Applied Life Sciences, Vienna, 117 p.
Gasamuduri, I., 2004. Contribution à l’Etude des Performances de Reproduction et de Production Laitière des Bovins de la Race Frisonne: Cas de la Ferme de Bukeye (mémoire de fin d’étude). Université du Burundi, Faculté des Sciences agronomiques: Bujumbura, 65 p.
Gaston, J., 2007. La Race Bovine Ayrshire. Adresse URL: http://tceplus.com/index.cfm?PgNm=TCE&Params=f1SEC84870 6.
Gebremedhin, B., Hoekstra, D., Jemaneh, S., 2007. Heading Towards Commercialization? The Case of Live Animal Marketing in Ethiopia. International Livestock Research Institute, Nairobi, Kenya.
Haile, A., Ayalew, W., Kebede, N., Tadelle, D., Tegegne, A., 2011. Breeding strategy to improve Ethiopian Boran cattle for meat and milk production. IPMS (Improving Productivity and Market Success) of Ethiopian Farmers. Project Working Paper 26. Nairobi, Kenya, ILRI.
Haile, A., Joshi, B.K., Ayalew, W., Tegegne, A., Singh, A., 2009. Genetic evaluation of Boran cattle and their crosses with Holstein Friesian in central Ethiopia: milk production traits. Animal. 3(4):486-493.
Hakizimana, E., 2005. Contribution à l’Evaluation de la Production Laitière des Bovins de Race Frisonne à la Station Zootechnique de Mahwa. (Mémoire de fin d’étude). Université du Burundi, Faculté des Sciences agronomiques:Bujumbura, 70 p.
Hanotte, O., Dessie, T., Kemp, S., 2010. Time to tap Africa’s livestock genomes. Science (Washington) 328:1640-426 1641.
Hanotte, O., Tawah, C.L., Bradley, D.G,. Okomo, M., Verjee, Y., Ochieng, J., Rege, J., 2000. Geographic distribution and frequency of a taurine Bos taurus and an indicine Bos indicus Y specific allele amongst sub-Saharan African cattle breeds. Mol. Ecol. 9:387-396.
Hansen, P.J., 2004. Physiological and cellular adaptations of zebu cattle to thermal stress. Anim. Reprod. Sci. 82:349-360.
Hatungumukama, G., Hornick, J.L., Detilleux, J., 2007. Aspects zootechniques de l’élevage bovin laitier au 430 Burundi : présent et futur. Annales de médecine vétérinaire, 15.
Herrero, M., Grace, D., Njuki, J., Johnson, N., Enahoro, D., Silvestri, S., Rufino, M.C., 2013. The roles of livestock in developing countries. Animal, 7, 3-18.
International Livestock Research Institute Kenyan Sahiwal. [en ligne] (2007). http://agtr.ilri.cgiar.org/BreedInformation/breedpg/cattle/KenSahiwal.htm Consulté le 14/03/07
John, E.R., 1970. United Kingdom cattle. In: Cattle of Europe. South America, Australia and New Zealand. Norman: University of Oklahoma Press, Oklahoma, 485 p.
Kemp, S., Mamo, Y., Asrat, B., Dessie, T., 2006. Domestic Animal Genetic Resources Information System (DAGRIS). International Livestock Research Institute, Addis Ababa, Ethiopia.
Kim, J., Hanotte, O., Mwai, O.A., Dessie, T., Bashir, S., Diallo, B., Agaba, M., Kim, K., Kwak, W., Sung, S., Seo, M., 2017.The genome landscape of indigenous African cattle. Genome Biology, 18,1-14.
Kugonza, D.R., Nabasirye, M., Mpairwe, D., Hanotte, O., Okeyo, A., 2011. Productivity and morphology of Ankole cattle in three livestock production systems in Uganda. Anim. Genet. Res. 48:13-22.
Manzi, M., 2018. Performance of Ankole and its Crossbreeds in Rwanda. Faculty of Veterinary medicine and Animal Science, Department of Animal Breeding and Genetics, Uppsala. Doctoral Thesis. 73 p.
Marshall, K., Gibson, J.P., Mwai, O., Mwacharo, J.M., Haile, A., Getachew, T., Mrode, R., Kemp, S.J., 2019. Livestock genomics for developing countries - African examples in practice. Frontiers in Genetics 10, 297.
Mattioli, R.C., Pandey, V.S., Murray, M., Fitzpatrick, J.L., 2000. Immunogenetic influences on tick resistance in African cattle with particular reference to trypanotolerant N’Dama (Bos taurus) and trypanosusceptible Gobra zebu (Bos indicus) cattle. Acta Trop. 75:263-277.
Mee, J.F., 2008. Prevalence and risk factors for dystocia in dairy cattle: A review. Vet. J., 176 (2008), pp. 93-101
Mirkena, T., Duguma, G., Haile, A., Tibbo, M., Okeyo, A., Wurzinger, M., Sölkner, J., 2010. Genetics of adaptation in domestic farm animals: A review. Livestock Science, 132, 1–12.
Murray, M., Morrison, W., Whitelaw, D., 1982. Host susceptibility to African trypanosomiasis: Trypanotolerance. Adv. Parasitol. 21:1-68.
Murray, M., Trail, J.C.M., Davis, C.E., Black, S.J., 1984. Genetic resistance to African trypanosomiasis. J. Infect.Dis. 149:311-319.
Musa, L.M.A., Ahmed, M.A., Peters, K.J., Zumbach, B., Gubartalla, K.E.A., 2005. The reproductive and milk performance merit of Butana cattle in Sudan. Arch. Tierz. 48:445-459.
Mwai, O., Hanotte, O., Kwon, Y.J., Cho, S., 2015a. African indigenous cattle: unique genetic resources in a rapidly changing world. Asian-australas Journal of Animal Science, 28, 911.
Mwai, O., Hanotte, O., Kwon, Y.J., Cho, S., 2015b. African indigenous cattle: Unique genetic resources in a rapidly changing world. Asian Australian. J. Anim. Sci. 28:911-921
Ndayirukiye, D., 2004. Contribution à l’Evaluation de la Production Laitière des Croisées Sahiwal x Ankole à la Station de Mahwa. (Mémoire de fin d’études). Université du Burundi, Faculté des Sciences Agronomiques:Bujumbura, 61 p.
Ndumu, D.B., Baumung, R., Hanotte, O., Wurzinger, M., Okeyo, M. A., Jianlin, H., Kibogo, H., Solkner, J., 2008. Genetic and morphological characterisation of the Ankole Longhorn cattle in the African Great Lakes region. Genet. Sel. Evol. 40:467-490.
Nimubona, G., 2003. Etude du Comportement et de Productivité des Bovins de Race Brune Suisse en Conditions de Stabulations Permanente: Cas de la Ferme de Bukeye. (Mémoire de fin d’étude). Université du Burundi, Faculté des Sciences agronomiques : Bujumbura, 77 p.
Njogu, A., Dolan, R., Wilson, A., Sayer, P., 1985. Trypanotolerance in East African Orma Boran cattle. Vet. Rec. 117:632-636.
Nkurunziza, T., 2004. Contribution à l’Evaluation de la Production Laitière des Vaches de Race Frisonne dans la Zone Périurbaine de Bujumbura. (Mémoire de fin d’étude). Université du Burundi, Faculté des Sciences agronomiques: Bujumbura, Burundi, 63 p.
Otten, D., Van den Weghe, H.F., 2011. The Sustainability of intensive livestock Areas (ILAS): Network system and conflict potential from the perspective of animal farmers. Int. J. Food Syst. Dyn. 2:36-51.
Ouda, J.O., Kitilit, J.K., Indetie, D., Irungu, K.R.G., 2001. The effects of levels of milking on lactation and growth of pre-weaning calves of grazing Boran cattle. East African Agricultural and Forestry Journal. 67:73-79
Pryce, J.E., Royal, M.D., Garnsworthy, P.C., Mao, I.L., 2004. Fertility in the high-producing dairy cow. Livest. Prod. Sci. 86:125-135.
Pullan, N.B., Grindle, R.J., 1980. Productivity of white Fulani cattle on the Jos plateau, Nigeria. IV. Economic factors. Trop. Anim. Health Prod. 12:161-170.
Rege J. 1998. Utilization of Exotic Germoplasm for Milk Production in the Tropics. In : Proceedings of the 6th World Congress on Genetics Applied to Livestock Production, 11-16 January 1998, Armidale, Australia, 193-465.200.
Rege, J.E.O., 1999. The state of African cattle genetic resources I. Classification framework and identification of threatened and extinct breeds. Anim. Genet. Res. Inf. 25:1-25.
Rege, J.E.O., Ayalew, W., Getahun, E., Hanotte, O., Dessie, T., 2006. Domestic Animal Genetic Resources Information System (DAGRIS). International Livestock Research Institute, Addis Ababa, Ethiopia.
Rege, J.E.O., Gibson, J.P., 2003. Animal genetic resources and economic development: issues in relation to economic evaluation. Ecological Economics, 45, 319-330.
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. Animal Genetic Ressources. Cambridge University Press: Volume 26, pp. 1-25. DOI: https://doi.org/10.1017/S1014233900001152
Renaudeau, D., Collin, A., Yahav, S., De Basilio, V., Gourdine, J.L., Collier, R.J., 2012. Adaptation to hot climate and strategies to alleviate heat stress in livestock production. Animal 6:707- 728.
Roberts, C.J., Gray, A.R., 1973. Studies on trypanosome resistant cattle. II. The effect of trypanosomiasis on N’Dama, Muturu and Zebu cattle. Trop. Anim. Health Prod. 5:220-233.
Sivasupramaniam, G., Nik-Mahmood, M., 1981. Comparison of Performance of Friesian and Friesian Cross LID Cattle on Majuternak Farms. Proc. 11th Ann. Conf. Malaysian Society of Animal Production. pp. 202–213.
Syrstad, O., 1990. Dairy cattle crossbreeding in the tropics: the importance of genotype x environment interaction. Livest. Prod. Sci., 24, 109-118.
Tadesse, M., Tadelle, D., 2003. Milk production performance of zebu, Holstein Friesian and their crosses in Ethiopia. Livest. Res. Rural Dev., 15 (3).
Taye, M., Lee, W., Caetano-Anolles, K., Dessie, T., Cho, S., Jong Oh, S., Lee, H.K., Kim, H., 2018. Exploring the genomes of East African Indicine cattle breeds reveals signature of selection for tropical environmental adaptation traits. Cogent Food & Agriculture, 4, 1552552
Tegegne, A., Haile, A., Ayalew, W., Kebede, N., Tadelle, D., 2011. Breeding Strategy to Improve Ethiopian Boran Cattle for Meat and Milk Production Improving Productivity and Market Success of Ethiopian Farmers project (IPMS)–International Livestock Research Institute (ILRI), Addis Ababa, Ethiopia.
Terefe, E., Haile, A., Mulatu, W., Dessie, T., Mwai, O., 2015. Phenotypic characteristics and trypanosome prevalence of Mursi cattle breed in the Bodi and Mursi districts of South Omo zone, southwest Ethiopia. Trop. Anim. Health Prod. 47:485-493.
Trail, J.C.M., Gregory, K.E., Durkin, J., Sandford, J., 1984. Crossbreeding cattle in beef production programmes in Kenya. H. Comparison of purebred Boran and Boran crossed with the Red Poll and Santa Gertrudis breeds. Trop. Anim. Health Prod. 16:191-200.
Wurzinger, M., Mirkena, T., Sölkner, J., 2014. Animal breeding strategies in Africa: current issues and the way forward. J. Anim. Breed. Genet. 131:327–328. doi: https://doi.org/10.1111/jbg.12116.
Xavier, R., 2001. Les Races Bovines Françaises, Race Bovine Montbéliarde. Adresse URL: http://www.inapg.inra.fr/dsa/ especes/bovins/
Zwane, A.A., Nxumalo, K.S., Makgahlela, M.L., Van Marle-Koster, E., Maiwashe, N., 2021. Gene-set enrichment analysis of selective sweeps reveals phenotypic traits in Nguni cattle. South African Journal of Animal Science, 514 51, 761-777.
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Ndihokubwayo, F., Koç, A. Breeding pure and crossbreeds of European cattle breeds for milk production improvement under tropical climate conditions—a review. Trop Anim Health Prod 56, 23 (2024). https://doi.org/10.1007/s11250-023-03868-x
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DOI: https://doi.org/10.1007/s11250-023-03868-x