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Grain Yields of Maize and the Nitrogen Contribution Following Stylosanthes Pasture in the Nigerian Subhumid Zone

Published online by Cambridge University Press:  03 October 2008

M. A. Mohamed Saleem
Affiliation:
International Livestock Centre for Africa (ILCA), Subhumid Zone Programme, Kaduna, Nigeria
R. M. Otsyina
Affiliation:
International Livestock Centre for Africa (ILCA), Subhumid Zone Programme, Kaduna, Nigeria

Summary

Maize grain yields were significantly higher following one to three years of Stylosanthes than after natural fallow or repeated cropping. This demonstrates an important benefit of the forage legume in addition to its value as a ruminant feed supplement. The implications for the development of traditional agro-pastoral production systems are discussed.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1986

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References

REFERENCES

Birch, H. F. (1962). Effect of a legume on soil nitrogen mineralisation and percentage nitrogen in grasses. In Global Impact of Applied Microbiology 299–3 (Ed. Gaden Jr, E. H.,). Biotech Bioenerg. Sym. No. 1 FAO. Addis Ababa.Google Scholar
Bourn, D. & Milligan, K. (1983). The dynamics of cattle distribution in the Nigerian Subhumid Zone: An assessment based on environmental analysis and low intensity, low altitude aerial surveys. Working Document 1983. Kaduna, Nigeria: International Livestock Centre for Africa – Subhumid Zone.Google Scholar
Delgado, C. L. (1978). An investigation of the lack of mixed farming in West African Savannah: A Farming Systems Approach for Tenkodogo, Upper Volta. Ann Arbor, Michigan: CRED.Google Scholar
IAR (1981) Annual Report 1980–1981. Samaru, Zaria, Nigeria: Institute of Agricultural Research.Google Scholar
Jones, M. J. & Wild, A. (1975). Soils of the West African Savannah. Technical Communication 55. England: CAB.Google Scholar
Kowal, J. M. & Kassam, A. H. (1978). Soil Resources. In Agricultural Ecology: A Study of West Africa 114149. Oxford: Clarendon Press.Google Scholar
Little, T. M. & Hill, F. J. (1978). Agricultural Experimentation. Design and Analysis. New York: John Wiley & Sons.Google Scholar
Mohamed Saleem, M. A. (1984a). The ecology, vegetation and land use. Paper presented at the 2nd ILCA/NAPRI Symposium on Livestock Production in the Nigerian Subhumid Zone. Lugard Hall, Kaduna, Oct. 30–Nov. 2, 1984.Google Scholar
Mohamed Saleem, M. A. (1984b). Fodder Banks. Paper presented at the 2nd ILCA/NAPRI Symposium on Livestock Production in the Nigerian Subhumid Zone. Lugard Hall, Kaduna, Oct 30–Nov. 2, 1984.Google Scholar
Moore, A. W. (1962). The influence of a legume on soil fertility under grazing tropical pasture. Empire Journal of Experimental Agriculture 30:239248.Google Scholar
Taylor-Powell, E. & Suleiman, H. (1984). Input, extension and adoption of ILCA interventions. Paper presented at the 2nd ILCA/NAPRI Symposium on Livestock Production in the Nigerian Subhumid Zone. Lugard Hall, Kaduna, Oct. 30–Nov. 2, 1984.Google Scholar
Vallis, I. & Gardener, C. J. (1984). Nitrogen inputs into agricultural systems by Stylosanthes. In The Biology and Agronomy of Stylosanthes (Eds Stace, H. M. & Edye, L. A.). Australia: Academic Press.Google Scholar
Wetselaar, R. & Norman, M. J. T. (1960). Soil and Crop Nitrogen at Kathrine, N.T. Technical Paper No. 10, CSIRO Aust. Div. Land Res. Reg. Surv.Google Scholar
Wetselaar, R. (1967). Estimation of nitrogen fixation by four legumes in a dry monsoonal area of North-Westem Australia. Australian Journal of Experimental Agriculture and Animal Husbandry 7:518–22.CrossRefGoogle Scholar
Williams, W. A. (1967). The role of leguminosae in pasture and soil improvements in the neotropics. Tropical Agriculture (Trinidad) 44:103105.Google Scholar