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Sesame Agronomy in South-east Tanzania. II. Intercropping with Sorghum

Published online by Cambridge University Press:  03 October 2008

B. R. Taylor
Affiliation:
Agricultural Research Institute, Naliendele, PO Box 509, Mtwara, Tanzania

Summary

Field trials are described in which sesame varieties maturing in 125 days at 2 m high, were grown in alternate rows with sorghum maturing in 175 days at 4 m. Compared to sowing both crops together, the yield of sesame sown 10, 14 and 28 days after sorghum fell by 53, 68 and 100%, respectively, but sorghum yield was not consistently affected. Improved sesame varieties, despite being shorter and less branched, performed better than the local variety, and nitrogen fertilizer applied to one or both components of the mixture did not appear to favour one crop at the expense of the other.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1986

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References

REFERENCES

Goldsworthy, P. R. (1970). The sources of assimilate for grain development in tall and short sorghum. Journal of Agricultural Science, Cambridge 74:523531.CrossRefGoogle Scholar
Jha, K. P. & Chandra, D. (1980). Parallel multiple cropping with rice. Indian Journal of Agronomy 25:520521.Google Scholar
May, K. W. & Misangu, R. (1982). Genotype evaluations and implications for adapting plant material for intercropping. In Intercropping, Proceedings of the Second Symposium on Intercropping in Semi-Arid Areas, Morogoro, Tanzania, 4–7 August 1980, 7983 (Eds Keswani, C. L. & Ndunguru, B. J.). Ottowa: International Development Research Centre.Google Scholar
Mead, R. & Stern, R. D. (1980). Designing experiments for intercropping research. Experimental Agriculture 16:329342.CrossRefGoogle Scholar
Osman, H. el G. & Khidir, M. O. (1974). Relations of yield components in sesame. Experimental Agriculture 10:97103.CrossRefGoogle Scholar
Pandey, J., Singh, D. P., Prasad, S. D. & Sharma, N. N. (1981). Intercropping under rainfed conditions in north Bihar. Indian Farming 31:1718.Google Scholar
Singh, J. (1978). Research and production programmes for maize in India. In Technology for Increasing Food Production, 586591 (Ed. Holmes, J. C.). Rome: FAO.Google Scholar
Taylor, B. R. & Chambi, J. Y. (1986). Sesame agronomy in south-east Tanzania. I. Plant population and sowing method. Experimental Agriculture 22:243251.CrossRefGoogle Scholar
Tribe, A. J. (1967). Sesame. Field Crop Abstracts 20:189194.Google Scholar
Van Rheenen, H. A. (1973). Major problems of growing sesame (Sesamum indicum L.) in Nigeria. Mededelingen Landbouwhogeschool, Wageningen 73–12:1130.Google Scholar
Willey, R. W. (1979). Intercropping – its importance and research needs. Part 1. Competition and yield advantages. Field Crop Abstracts 32:110.Google Scholar