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Nitrogen fixation as influenced by pesticides and rice straw in paddy soils

Published online by Cambridge University Press:  27 March 2009

P. K. Jena
Affiliation:
Division Of Soil Science and Microbiology, Central Rice Research Institute, Cuttack 753 006, India
V. Rajaramamohan Rao
Affiliation:
Division Of Soil Science and Microbiology, Central Rice Research Institute, Cuttack 753 006, India

Summary

The effect of three herbicides and an insecticide combination on nitrogen fixation in three paddy soils was investigated in a laboratory incubation study. The influence of pesticide combination on N2 fixation was evaluated in the presence and absence of rice straw under flooded and non-flooded conditions. In a non-flooded alluvial soil single or combined application of butachlor and carbofuran significantly stimulated N2 fixation. There was no effect on N2 fixation when thiobencarb was applied alone; but with thiobencarb in combination with carbofuran higher N2 fixation occurred. Both oxadiazone and thiobencarb had no effect on N2 fixation under flooded conditions, but in combination with carbofuran the N2 fixation was high. In acid sulphate saline Pokkali soil, rice straw application stimulated N2 fixation; the stimulatory effect of carbofuran either alone or in combination became more pronounced under flooded conditions. N2 fixation was low in a laterite Sukinda soil and the effect of pesticides was not changed by rice straw amendment. A uniform stimulation of N2 fixation occurred in soils when carbofuran was applied either singly or in combination with other herbicides tested. Results indicate that the effect of pesticides on N2 fixation varied with the rice straw application and water regime.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1987

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References

App, A. A., Watanabe, I., Alexander, M., Ventura, W., Daez, C., Santiago, T. & De Datta, S. K. (1980). Nonsymbiotic nitrogen fixation associated with the rice plant in flooded soils. Soil Science 130, 283289.CrossRefGoogle Scholar
Charyulu, P. B. B. N. & Rao, V. R. (1978). Nitrogen fixation by Azospirillum sp. isolated from benomyl amended rice soil. Current Science 47, 822.Google Scholar
Charyulu, P. B. B. N. & Rao, V. R. (1979). Nitrogen fixation in some Indian rice soils. Soil Science 128, 8689.CrossRefGoogle Scholar
Charyulu, P. B. B. N. & Rao, V. R. (1981). nfluence of carbon substrates and moisture regime on nitrogen fixation in paddy soils. Soil Biology and Biochemistry 13, 3942.CrossRefGoogle Scholar
Ladha, J. K., Tirol, A. C., Daroy, M. L. G., Caldo, G., Ventura, W. & Watanabe, I. (1986). Plant associated nitrogen fixation (C2H2-reduction) by five rice varieties and relationship with plant growth characters as affected by straw incorporation. Soil Science and Plant Nutrition 32, 119134.CrossRefGoogle Scholar
Mackenzie, K. A. & MacRae, I. C. (1972). Tolerance of the nitrogen-fixing system of Azotobacter vinelandii for four commonly used pesticides. Antonie van Leeuvenhoek 38, 529539.CrossRefGoogle Scholar
MacRae, I. C. & Castro, T. F. (1967). Nitrogen fixation in some tropical rice soils. Soil Science 103, 277280.CrossRefGoogle Scholar
Nayak, D. N. & Rao, V. R. (1980). Pesticides and heterotrophic nitrogen fixation in paddy soils. Soil Biology and Biochemistry 12, 14.CrossRefGoogle Scholar
Nayak, D. N. & Rao, V. R. (1982). Pesticides and nitrogen fixation in a paddy soil. Soil Biology and Biochemistry 14, 207210.CrossRefGoogle Scholar
Rao, J. L. N., Pasalu, I. C. & Rao, V. R. (1983). Nitrogen fixation (acetylene reduction) in the rice rhizosphere soil as influenced by pesticides and methods of their application. Journal of Agricultural Science, Cambridge 100, 637642.CrossRefGoogle Scholar
Tu, C. M. (1978). Effect of pesticides on acetylene reduction and microorganisms in a sandy loam. Soil Biology and Biochemistry 10, 451456.CrossRefGoogle Scholar
Watanabe, I. & Roger, P. A. (1984). Nitrogen fixation in wetland rice field. In Current Developments in Biological Nitrogen Fixation (ed. Rao, N. S. Subba), pp. 237276. New Delhi: Oxford and IBH Publishing Co.Google Scholar
Yoshida, T. & Ancajas, R. R. (1973). Nitrogen fixing activity in upland and flooded rice fields. Soil Science Society of America Proceedings 37, 4246.CrossRefGoogle Scholar