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On-farm performance of Bunaji (White Fulani) cattle 2. Growth, reproductive performance, milk offtake and mortality

Published online by Cambridge University Press:  02 September 2010

J. E. O. Rege
Affiliation:
International Livestock Centre for Africa, PO Box 5689, Addis Ababa, Ethiopia
R. R. von Kaufmann
Affiliation:
International Livestock Centre for Africa, PO Box 5689, Addis Ababa, Ethiopia
W. N. M. Mwenya
Affiliation:
International Livestock Centre for Africa, PO Box 5689, Addis Ababa, Ethiopia
E. O. Otchere
Affiliation:
International Livestock Centre for Africa, PO Box 5689, Addis Ababa, Ethiopia
R. I. Mani
Affiliation:
International Livestock Centre for Africa, PO Box 5689, Addis Ababa, Ethiopia
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Abstract

An on-farm study was conducted over a 12-year period (1979 through 1990) at four locations in the subhumid zone of Nigeria to estimate levels of performance of Bunaji cattle and to examine factors affecting productivity in these production systems. Average weight at birth, at 9 months and at 12 months were 19·6 kg, 76·2 kg and 93·1 kg, respectively. Average daily gain between birth and 9 months was 211 g/day. The corresponding figure between 9 months and 12 months was 176 g/day. Cumulative calf mortality at 9 months and at 12 months were proportionately 0·14 and 0·15, respectively. Mean age at first calving was 62·5 months while interval between consecutive calvings averaged 22·5 months. Mean daily milk offtake was 510 ml. Mean length of offtake period varied substantially between locations ranging from 339 days in Kurmin Biri to 425 days in Madauchi. Lactation milk offtake was estimated at between 200 and 260 I. Peri-urban Madauchi had the highest daily milk offtake, the longest milk extraction period but the poorest calf growth and survival rates. Locations with low milk offtake had superior calf performance both in terms of growth and survival. Calves born in late wet and early dry seasons had superior growth and survival rates. Most calvings occurred in the dry season mainly because of the effect of season on conception rates. There was a tendency towards improved productivity on a per-animal basis over the years. This ivas so for age at first calving, calving interval, calf survival and milk offtake. Improved reproductive performance provided opportunity for higher offtakes. However, growth between 9 months and 12 months and weight at 12 months declined during the study period.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1993

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References

Eduvie, L. O. 1985. Factors affecting post partum ovarian activity and uterine involution in Zebu cattle indigenous to Nigeria. Animal Reproduction Science 8:123128.CrossRefGoogle Scholar
Eduvie, L. O. and Dawuda, P. M. 1986. Effect of suckling on reproductive activities of Bunaji cows during the postpartum period. Journal of Agricultural Science, Cambridge 107: 235238.CrossRefGoogle Scholar
Harvey, W. R. 1990. User's guide for LSMLMW and M1XMDL: mixed model least squares and maximum likelihood computer program. PC-2 version. Iowa State University, Ames, Ia.Google Scholar
International Livestock Centre for Africa. 1979. Livestock production in the subhumid zone of West Africa: a regional review. ILCA systems study no. 2. Addis Ababa, Ethiopia.Google Scholar
Johnson, A. O. and Bell, T. D. 1978. Comparative performance of calves from Bunaji (White Fulani) dams and Charolais, three-quarter Friesian and Bunaji sires. Journal of Agricultural Science, Cambridge 91: 305308.CrossRefGoogle Scholar
Johnson, A. O., Buvanendran, V. and Oyejola, B. A. 1984. Dairy potential of Bunaji (White Fulani) and Bokoloji (Sokoto Gudali) breeds. Tropical Agriculture 61: 267268.Google Scholar
Kaufman, R. von. 1986. An introduction to the subhumid zone of West Africa and the ILCA subhumid zone programme. In Livestock systems research in Nigeria's subhumid zone. Proceedings of second ILCA/NAPRI symposium Kaduna, Nigeria, 1984. International Livestock Centre for Africa, Addis Ababa, Ethiopia.Google Scholar
Knudsen, P. B. and Soahel, A. S. 1970. The Vom herd: a study of the performance of mixed Friesian/Zebu herd in a tropical environment. Tropical Agriculture 47: 189203.Google Scholar
Mrode, R. 1988. Lactation performance of the White Fulani cattle in southern Nigeria. Tropical Animal Health and Production 20:149154.CrossRefGoogle ScholarPubMed
Mrode, R. A. and Akinokun, J. O. 1986. Genetic parameters and factors affecting reproductive performance in White Fulani cattle in southern Nigeria. Tropical Animal Health and Production 18: 8185.CrossRefGoogle ScholarPubMed
Nicholson, M. 1983. Calf growth, milk offtake and estimated lactation yield of Borana cattle in the southern rangelands of Ethiopia. JEPSS report no. 6. International Livestock Centre for Africa, Addis Ababa, Ethiopia.Google Scholar
Oni, O. O., Buvanendran, V. and Dim, N. I. 1988. Factors affecting birth weight and performance to weaning of Bunaji calves. Journal of Agricultural Science, Cambridge 111: 407410.CrossRefGoogle Scholar
Oni, O. O., Buvanendran, V. and Dim, N. I. 1989. Estimates of genetic and phenotypic parameters for body weight in Bunaji (White Fulani) cattle. Tropical Agriculture 66:369371.Google Scholar
Otchere, E. O. 1983. The productivity of Bunaji (White Fulani) cattle in pastoralist herds on the Kaduna plains of Nigeria. International Livestock Centre for Africa, Subhumid Programme Kaduna, internal communication no. 46.Google Scholar
Otchere, E. O. 1986. Traditional cattle production in the subhumid zone of Nigeria. In Livestock systems research in Nigeria's subhumid zone. Proceedings of second ILCA/NAPRI symposium, Kaduna, Nigeria, 1984. International Livestock Centre for Africa, Addis Ababa, Ethiopia.Google Scholar
Oyedipe, E. O., Buvanendran, V. and Eduvie, L. O. 1982. Some factors affecting the reproductive performance of White Fulani (Bunaji) cattle. Tropical Agriculture (Trinidad) 59: 231234.Google Scholar
Pimentel, C. A., Deschamps, J. C., Oliveira, J. A. F. de, Cardelino, R. and Pimentel, M. A. 1979. Effects of early weaning on reproductive efficiency in beef cows. Theriogenology 11: 421427.CrossRefGoogle Scholar
Pullan, N. B. 1979. Productivity of White Fulani cattle on the Jos Plateua, Nigeria I. Herd structures and reproductive performance. Tropical Animal Health and Production 11: 231238.CrossRefGoogle Scholar
Pullan, N. B. 1980. Productivity of White Fulani cattle on the Jos Plateuau, Nigeria III. Disease and management factors. Tropical Animal Health and Production 12: 7784.CrossRefGoogle ScholarPubMed
Pullan, N. B. and Grindle, R. J. 1980. Productivity of White Fulani cattle on the Jos Plateau, IV. Economic factors. Tropical Animal Health and Production 12:161170.CrossRefGoogle ScholarPubMed
Rege, J. E. O. 1993. LOGMLVAR: a computer program for estimating sampling variances of predicted probabilities from maximum likelihood estimates in a logit response function. International Livestock Centre for Africa, Addis Ababa, Ethiopia.Google Scholar
Rege, J. E. O., Kaufmann, R. R. von and Mani, R. I. 1993. On-farm performance of Bunaji (White Fulani) cattle 1. Herd structures and cattle disposal. Animal Production 57: 199209.Google Scholar
Robinson, J. J. 1990. Nutrition in the reproduction of farm animals. Nutrition Research Reviews 3: 253276.CrossRefGoogle ScholarPubMed
Ross, J. G. 1958. The estimation of liveweight of Nigerian cattle from linear body measurements. Bulletin of Epizootic Diseases of Africa 6:3741.Google Scholar
Rudder, T. H., Seifert, G. W. and Burrow, H. M. 1985. Environmental and genotype effects on fertility in a commercial beef herd in Central Queensland. Australian Journal of Experimental Agriculture 25: 489496.CrossRefGoogle Scholar
Statistical Analysis System Institute. 1987. SAS user's guide. SAS Institute Inc., Cary NC.Google Scholar
Synge, B. 1980. Factors limiting cattle productivity in highland areas of Nigeria. Reports to Centre for Tropical Veterinary Medicine (CTVM), University of Edinburgh, Scotland.Google Scholar
Topps, J. H. 1977. The relationship between reproduction and undernutrition in beef cattle. World Review of Animal Production 13: 4349.Google Scholar
Trail, J. C. M., Sacker, G. D. and Fisher, I. L. 1971. Crossbreeding beef cattle in Western Uganda 3. Genetic analysis of body weight. Animal Production 13:153163.Google Scholar
Umoh, J. U. 1982. Relative survival of calves in a University herd in Zaria, Nigeria. British Veterinary Journal 138: 507514.CrossRefGoogle Scholar
Waters-Bayer, A. 1985. Dairying by settled Fulani women in Central Nigeria and some implication for dairy development. Paper no 20c, Agricultural Administration Unit, Overseas Development Institute, London.Google Scholar
Wagenaar, K. T., Diallo, A. K. and Sayers, A. R. 1986. Productivity of transhumant Fulani cattle in the inner Niger Delta of Mali. International Livestock Centre for Africa research report no. 13. Addis Ababa, Ethiopia.Google Scholar
Wheat, J. D. and Broadhurst, J. 1968. Analysis of data on Bunaji cattle at Birnin Kudu and Kabomo, Northern Nigeria. Samaru miscellaneous paper no. 25, JAR Ahmadu Bella University, Zaria, Nigeria.Google Scholar
Wilde, J. C. de. 1967. Experience with agricultural development in tropical Africa, vol 1 and 2. John Hopkins University Press, Baltimore, Maryland.Google Scholar
Williams, G. L. 1990. Suckling as a regulator of postpartum rebreeding in cattle: a review. Journal of Animal Science 68: 831852.CrossRefGoogle ScholarPubMed