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Nitrogen fixation in field beans (Vicia faba) as affected by population density, shading and its relationship with soil moisture

Published online by Cambridge University Press:  27 March 2009

Janet I. Sprent  and
Alison M. Bradford
Janet I. Sprent
Affiliation:
Department of Biological Sciences, University of Dundee
Alison M. Bradford
Affiliation:
Department of Biological Sciences, University of Dundee
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Summary

N fixation data, estimated by the acetylene reduction technique and by total N content are given for the field experiments reported by Sprent, Bradford & Norton (1977).

Maximum potential acetylene reducing activity per plant varied little from year to year. At low population densities a maximum rate of activity was observed shortly after flowering. As density increased this maximum became less pronounced and environmental factors (such as water supply) exerted increasing effects on activity. Shading prolonged activity and delayed nodule senescence.

Total plant N continued to increase almost to seed maturation. As plants aged, the acetylene reduction technique progressively underestimated N accumulation. Maximum Nfixed/ha/year was over 600 kg. Itis concluded that the potential for N fixation in this crop is sufficient to sustain high yields.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 88 , Issue 2 , April 1977 , pp. 303 - 310
Copyright
Copyright © Cambridge University Press 1977

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References

Bergersen, F. J. (1970). The quantitative relationship between N fixation and the acetylene reduction assay. Australian Journal of Biological Science 23, 1015–25.CrossRefGoogle Scholar
Candlish, E. & Claek, K. W. (1975). Preliminary assessment of small faba beans grown in Manitoba. Canadian Journal of Plant Science 55, 8993.Google Scholar
Engin, M. & Sprent, J. I. (1973). Effects of water stress on growth and nitrogen-fixing activity of Trifolium repens. New Phytologist 72, 117–26.CrossRefGoogle Scholar
Flinn, A. M. (1974). Regulation of leaflet photosynthesis by developing fruit in the pea. Physiologia Plantarum 31, 275–8.CrossRefGoogle Scholar
Hardy, R. W. F., Burns, R. C., Herbert, R. R., Holsten, R. D. & Jackson, E. K. (1971). Biological nitrogen fixation: a key to world protein. Plant and Soil, Special volume, 561–90.CrossRefGoogle Scholar
Hardy, R. W. F., Holsten, R. D., Jackson, E. K. & Burns, R. C. (1968). The acetylene—ethylene assay for N2 fixation: laboratory and field evaluation. Plant Physiology 43, 1185–207.Google Scholar
Hodgson, G. L. & Blackman, G. E. (1957). An analysis of the influence of plant density on the growth of Vicia faba. II. The significance of competition for light in relation to plant development at different densities. Journal of Experimental Botany 8, 195219.Google Scholar
Huang, C.-Y., Boyer, J. S. & Vanderhoef, L. N. (1975 a). Acetylene reduction (nitrogen fixation) and metabolic activities of soybean having various leaf and nodule water potentials. Plant Physiology 56, 222–7.Google Scholar
Huang, C.-Y., Boyer, J. S. & Vanderhoef, L. N. (1975 b). Limitation of acetylene reduction (nitrogen fixation) by photosynthesis in soybean having low water potentials. Plant Physiology 56, 228–32.CrossRefGoogle ScholarPubMed
Johnson, J. W., Welch, L. F. & Kurtz, L. T. (1975). Environmental implications of N fixation by soybeans. Journal of Environmental Quality 4, 303–6.Google Scholar
Lawrie, A. C. & Wheeler, C. T. (1975). Nitrogen fixation in the root nodules of Vicia faba L. in relation to the assimilation of carbon. New Phytologist 74, 429–36.Google Scholar
McEwen, J. (1970). Fertilizer nitrogen and growth regulators for field beans (Vicia faba L.). II. The effects of large dressings of fertilizer nitrogen, single and split applications, and growth regulators. Journal of Agricultural Science, Cambridge 74, 6772.CrossRefGoogle Scholar
Mague, T. H. & Burris, R. H. (1972). Reduction of acetylene and nitrogen by field grown soybeans. New Phytologist 71, 275–86.CrossRefGoogle Scholar
National Institute of Agricultural Botany (1971). Recommended Varieties of field beans. Farmers' leaflet No. 15.Google Scholar
Pankhurst, C. E. & Sprent, J. I. (1975). Effects of water stress on the respiratory and nitrogen-fixing activity of soybean root nodules. Journal of Experimental Botany 26, 287304.CrossRefGoogle Scholar
Pate, J. S. (1958 a). Nodulation studies in legumes. I. The synchronization of host and symbiotic development in the field pea Pisum arvense L. Australian Journal of Biological Science 11, 366–81.Google Scholar
Pate, J. S. (1958 b). Nodulation studies in legumes. II. The influence of various environmental factors on symbiotic expression in the vetch (Vicia sativa L.) and other legumes. Australian Journal of Biological Science 11, 496515.Google Scholar
Pate, J. S. & Flinn, A. M. (1973). Carbon and nitrogen transfer from vegetative organs to ripening seeds of field pea (Pisum arvense L.). Journal of Experimental Botany 24, 1090–9.CrossRefGoogle Scholar
Pate, J. S., Sharkey, P. J. & Lewis, O. A. M. (1975). Xylem to phloem transfer of solutes in fruiting shoots of legumes, studied by a phloem bleeding technique. Planta 122, 1126.Google Scholar
Sinclair, T. R. & de Wit, C. T. (1975). Photosynthate and nitrogen requirements for seed production by various crops. Science 189, 565–7.Google Scholar
Sprent, J. I. (1971). The effect of water stress on nitrogen-fixing root nodules. I. Effects on the physiology of detached nodules. New Phytologist 70, 917.Google Scholar
Sprent, J. I. (1972). The effects of water stress on nitrogen-fixing root nodules. IV. Effects on whole plants of Vicia faba and Glycine max. New Phytologist 71, 603–11.Google Scholar
Sprent, J. I. (1973). Growth and nitrogen fixation in Lupinus arboreus as affected by shading and water supply. New Phytologist 72, 1005–22.Google Scholar
Sprent, J. I. (1975). Nitrogen fixation by legumes subjected to water and light stresses. In Symbiotic Nitrogen Fixation (ed. Nutman, P. S.), pp. 405–20. Cambridge.Google Scholar
Sprent, J. I., Bradford, A. M. & Norton, C. (1977). Seasonal growth patterns in field beans (Vicia faba) as affected by population density, shading and its relationship with soil moisture. Journal of Agricultural Science, Cambridge. 88, 293301.Google Scholar
Tamaki, K. & Naka, J. (1972). Physiological studies on the growing process of broad bean plants. V. Effect of shading on the growth and the chemical components in the various organs. Technical Bulletin of the Faculty of Agriculture of Kagawa University 23, 157–65.Google Scholar
Virtanen, A. I. (1961). Some aspects of amino acid synthesis in plants and related subjects. Annual Review of Plant Physiology 12, 112.Google Scholar