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Effect of nitrogen on nodulation and yield of soya beans under two systems of production in Sudan

Published online by Cambridge University Press:  27 March 2009

F. M. Khalifa
Affiliation:
Kenana Research Station, Abu-Naama, B.N.P. Sudan

Summary

Two experiments were run over a 3-year period in the central rainlands of Sudan under two systems of production, rainfed and irrigated, to assess the effects of system of production, inoculation and nitrogen fertilizers on plant and nodule development and grain yield of soya beans. Nodulated plants could fix more than 80 kg N/ha under irrigation whereas under rainfed conditions nodulation was neither effective nor efficient. Soya bean was responsive to nitrogen fertilizers under both systems of production giving significant increments in grain yields. Non-nodulating plants with added nitrogen fertilizers produced more total dry matter than nodulating plants during the vegetative phase until flowering time. At 2 weeks after flowering total dry-matter production for both types was equal and from then on to maturity nodulating plants outyielded non-nodulating ones in total dry-matter production. In 1979 and 1980 yield of irrigated nodulating soya-bean grain was 0·53 and 1·54 t/ha higher than rainfed yields whereas the difference in grain yields of the non-nodulating soya beans was 0·21 t/ha and zero during the same two seasons, respectively. There was a contrasting inverse relation between the number of nodules and dry weights under the two systems of production. Fewer and heavier nodules were produced under irrigation whereas under rainfed conditions nodulation was profuse and nodules were light. On the evidence available 1–4 g/m length of the granular form of soil implant inoculant (Nitragin), i.e. 16·6·66.4 kg/ha, is to be recommended for irrigated soya-bean production in Sudan.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1987

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References

Bhangoo, M. S. & Albritton, D. J. (1975). Nodulating and non-nodulating Lee soybean isolines response to applied nitrogen. Agronomy Journal 68, 642645.CrossRefGoogle Scholar
Caldwell, B. E., Howell, R. W., Judd, R. W. & Johnson, H. W. (1973). Soya-beans: improvement, production and uses. No. 6 in the series Agronomy. Madison, Wisconsin, U.S.A.: American Society of Agronomy.Google Scholar
Hinson, K. (1975). Nodulation responses from nitrogen applied to soybean half-root systems. Agronomy Journal 67, 799804.CrossRefGoogle Scholar
Kang, B. T. (1975). Effects of inoculation and nitrogen fertilizer on soybean in western Nigeria. Experimental Agriculture 11, 2331.CrossRefGoogle Scholar
Keya, S. O. (1979). Implementing the network program: strengthening rhizobiology through networks, conferences and training courses. Planning an International Network of Legume Inoculation Trials, pp. 193202. Niftal project. College of Tropical Agriculture and Human Resources, University of Hawaii and U.S. Agency for International Development.Google Scholar
Le, Clerg E. L., Leonard, W. H. & Clark, A. G. (1962). Field Plot Technique. Minneapolis 23, Minnesota: Burgess Publishing Company.Google Scholar
Lloyd, R. (1979). Strengths and constraints of research programs in developing countries. Planning an International Network of Legume Inoculation Trials, pp. 115124. Niftal Project. College of Tropical Agriculture and Human Resources, University of Hawaii and U.S. Agency for International Development.Google Scholar
Schweitzer, E. (1980). Altered reproductive sink development, light enhancement and nitrogen fertilization: effects of the assimilation and partitioning of carbon and nitrogen in soya-bean (Glycine max. (L.) Merr.). Ph.D. thesis, University of Illinois, Department of Agronomy.Google Scholar
Smith, R. S. & Escurra, G. A. (1979). Evaluation of soya-bean inoculant types and rates under dry and irrigated field conditions. Irrigated Soya-Bean Production in Arid and Semi-Arid Regions. Proceedings of a Conference held in Cairo, Egypt, 31 August–6 09 1979 (ed. Judy, W. H. and Jackobs, J. A.). INTSOY. Series No. 20. International Soya-bean Program. International Agriculture Publications, College of Agriculture, University of Illinois, U.S.A.Google Scholar
Tanner, J. W. & Anderson, I. C. (1964). External effect of combined nitrogen on nodulation. Plant Physiology 39, 10391043.CrossRefGoogle ScholarPubMed
Wang, S. R., Wang, G. M., Queiroz, E. F. & Mesquita, C. M. (1979). Research on drought resistance and irrigation of soya-beans in Parana, Brazil. Irrigated Soya-bean Production in Arid and Semi-Arid Regions. Proceedings of a Conference held in Cairo Egypt 31 August–6 09 1979 (ed. Judy, W. H. and Jackobs, J. A.). INTSOY. Series No. 20. International Soyabean Program. International Agriculture Publications, College of Agriculture, University of Illinois, U.S.A.Google Scholar
Weber, C. R. (1966). Nodulating and nonnodulating soybean isolines. II. Response to applied nitrogen and modified soil conditions. Agronomy Journal 58, 4649.CrossRefGoogle Scholar