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Summer legume intercrop effects on yield and nitrogen economy of wheat in the succeeding season

Published online by Cambridge University Press:  27 March 2009

S. P. Singh
S. P. Singh
Affiliation:
Division of Agronomy, Indian Agricultural Research Institute, New Delhi-110012, India
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Summary

The results of experiments conducted for 2 years in north-western India under irrigated conditions are described here. Wheat following legume intercrops gave increases in growth, yield attributes, yield and N uptake. Various legume intercrops such as groundnut, cow peas (both for fodder and grain) and greengram reduced the need of fertilizer nitrogen for wheat in the succeeding season by 30–84 kg/ha compared with sorghum.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 101 , Issue 2 , October 1983 , pp. 401 - 405
Copyright
Copyright © Cambridge University Press 1983

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References

Agboola, A. A. & Fayemi, A. A. (1972). Fixation and excretion of nitrogen by tropical legumes. Agronomy Journal 64, 409412.CrossRefGoogle Scholar
Giri, G. & De, R. (1979). Effect of preceding grain legumes on dryland pearlmillet in NW India. Experimental Agriculture 15, 169172.CrossRefGoogle Scholar
Giri, G. & De, R. (1980). Effect of preceding grain legumes on growth and nitrogen uptake of dryland pearlmillet. Plant and Soil 56, 459464.CrossRefGoogle Scholar
Giri, G. & De, R. (1981). Short-season fodder legume effects on the grain yield and nitrogen economy of barley under dryland conditions. Journal of Agricultural Science, Cambridge 96, 457461.CrossRefGoogle Scholar
Singh, S. P. (1981). Studies on spatial arrangement in sorghum-legume intercropping systems. Journal of Agricultural Science, Cambridge 97, 655661.CrossRefGoogle Scholar
Waghmare, A. B., Krishnan, T. K. & Singh, S. P. (1982). Crop compatibility and spatial arrangement in sorghum-based intercropping systems. Journal of Agricultural Science, Cambridge 99, 621629.CrossRefGoogle Scholar
Wien, H. C. & Nakgju, D. (1976). The cow pea as an intercrop under cereals. In Symposium on Inter-cropping in Semi-Arid Areas (Proceedings), Morogoro, Tanzania, 101205.Google Scholar
Wild, A. (1972). Mineralization of soil nitrogen at a Savanna site in Nigeria. Experimental Agriculture 8, 9197.CrossRefGoogle Scholar
Willey, R. W. (1979). Intercropping its importance and research needs. I. Competition and yield advantages. Field Crop Abstracts 32 (1), 110.Google Scholar