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Effect of root zone temperature on early growth, nodulation and nitrogen fixation in soya beans

Published online by Cambridge University Press:  27 March 2009

D. J. Matthews  and
P. Hayes
D. J. Matthews
Affiliation:
Department of Agricultural Botany, The Queen's University of Belfast
P. Hayes
Affiliation:
Department of Agricultural Botany, The Queen's University of Belfast
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Summary

Soya-bean plants were grown for 40 days in a range of root temperatures from 10 to 25°C either in a root medium containing N but uninoculated or in a N-free medium but inoculated with Rhizobium japonicum. Low root temperature restricted growth in both cases but the plants depending solely on symbiotic N-fixation were much more affected. At 10 CC root temperature plants failed to nodulate but both nodulation and nitrogen fixation increased greatly in the range 15–25°C. It is concluded that soya beans sown in cool soils would benefit from applied nitrogen at sowing time.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 98 , Issue 2 , April 1982 , pp. 371 - 376
Copyright
Copyright © Cambridge University Press 1982

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References

REFERENCES

Abdelhafeez, A. T., Harssema, H., Veri, G. & Verkeri, I. (1971). Effects of soil and air temperature on growth, development and water use of tomatoes. Netherlands Journal of Agricultural Science 19, 6775.CrossRefGoogle Scholar
Ashton, F. M. (1956). Effects of a series of cycles of alternating high and low soil water contents on the rate of apparent photosynthesis in sugar cane. Plant Physiology 31, 226234.CrossRefGoogle ScholarPubMed
Atkin, R. K., Barton, G. E. & Robinson, D. K. (1973). The effect of root growing temperature on growth substances in xylem exudate of Zea mays. Journal of Experimental Botany 24, 457487.CrossRefGoogle Scholar
Boyer, J. S. (1970). Leaf enlargement and metabolic rates in corn, soybean and sunflower at various leaf water potentials. Plant Physiology, Lancaster 46 (2), 233235.CrossRefGoogle ScholarPubMed
Clements, H. R. G. (1974). The nitrogen nutrition of the soyabean (Glycine max (L.) Merill). Ph.D. thesis, University of Reading, U.K.Google Scholar
Cooper, A. J. (1973). Root Temperature and Plant Growth, a Review. Commonwealth Agriculture Bureau.Google Scholar
Dart, P. J., Day, J. M., Islam, R. & Dobereiner, J. (1975). Symbiosis in tropical grain legumes – some effects of temperature and composition of the rooting medium. In Symbiotic Nitrogen Fixation in Plants. International Biological Programme, vol. 7 (ed. Nutman, P. S.), pp. 361384. Cambridge University Press.Google Scholar
Day, J. M. & Dart, P. J. (1969). Temperature, nodulation and nitrogen fixation. Rothamsted Report for 1969, Part 1, p. 104.Google Scholar
Duke, S. H., Schroder, L. E., Henson, C. A., Servaites, J. C, Vogelzang, R. D. & Pendleton, J. W. (1979). Low root temperature effects on soybean nitrogen metabolism and photosynthesis. Plant Physiology 63, 956962.Google Scholar
Earley, E. B. & Cartter, J. L. (1945). Effects of temperature of the root environment on growth of soybean plants. Agronomy Journal 37, 727735.CrossRefGoogle Scholar
Ehrler, L. E. (1963). Water absorption of alfalfa as affected by low root temperature and other factors of a controlled environment. Agronomy Journal 55, 363366.CrossRefGoogle Scholar
Flengmark, P. & Augustinussen, E. (1976). Dyrkning af sojabonner (Glycine max (L.) Merrill). Tidzkrift fur Planteavl 80 (3), 411423.Google Scholar
Gibson, A. H. (1971). Factors in the physical and biological environment affecting nodulation and nitrogen fixation by legumes. In Plant and Soil. Special volume (ed. Lie, T. A. and Mulder, E. G.), pp. 139152. The Hague: Martinus Nijhoff.Google Scholar
Grobelaar, W. P. (1963). Response of young maize plants to root temperature. Mededelinger Landbouwhogeschool Te Wageningen 63, 17.Google Scholar
Guinn, G. & Hunter, R. E. (1968). Root temperature and carbohydrate status of young cotton plants. Crop Science 8, 6770.CrossRefGoogle Scholar
Hardy, R. W. F., Burns, R. C. & Holsten, R. D. (1976). In World Soybean Research 1976 (ed. Hill, L. D.), p. 111. U.S.A.: Interstate Publishers & Printers.Google Scholar
Kuo, T. & Boersma, L. (1971). Soil water suction and root temperature effects on nitrogen fixation in soybeans. Agronomy Journal 63, 901904.CrossRefGoogle Scholar
Minchin, F. R. & Pate, J. S. (1973). The carbon balance of a legume and the functional economy of its root nodules. Journal of Experimental Botany 24, 259271.CrossRefGoogle Scholar
Nelson, L. E. (1967). Effects of root temperature on growth and transpiration of cotton (Gossypium hirsutum) seedlings. Agronomy Journal 59, 391395.Google Scholar
Nielson, K. F., Halstead, R. L., MaClean, A. J., Holmes, R. M. & Bourget, S. J. (1961). Effects of soil temperature on the growth and chemical composition of lucerne. Proceedings of 8th International Grassland Congress 1960. Physiology of herbage growth, pp. 287292.Google Scholar
Nielson, K. F. & Humphries, E. C. (1966). Effects of root temperature on plant growth. Soils and Fertilisers 29, 17.Google Scholar
Ryle, G. J. A., Powell, C. W. & Gordon, A. J. (1978). Effect of source of nitrogen on the growth of Fiskeby V soyabean; the carbon economy of whole plants. Annals of Botany 42, 637648.Google Scholar
Smith, M. M. & McCully, M. E. (1977). Mild temperature ‘;stress’ and callose synthesis. Planta 136, 6570.Google Scholar
Tanner, J. W. & Hume, D. J. (1978). In Soybean Physiology, Agronomy and Utilisation (ed. Norman, A. G.), pp. 158217. Academic Press.Google Scholar
Taylor, A. D. & Rowley, J. A. (1971). Plants under climatic stress. I. Low temperature, high light effects on photosynthesis. Plant Physiology 47, 713718.CrossRefGoogle ScholarPubMed
Trang, K. M. (1976). The effect of shading and root temperature on growth, nodulation and symbiotic nitrogen fixation by legumes. Dissertation Abstracts International B 37 (7), 3198.Google Scholar
Wallace, A. (1957). Influence of soil temperature on cation uptake in barley and soybeans. Soil Science 83, 407411.CrossRefGoogle Scholar
Wallace, A., Romney, E. M., Hale, V. Q. & Hoover, R. M. (1969). Effect of soil temperature and zinc application on yield and micronutrient content of four crop species grown together in a glasshouse. Agronomy Journal 61, 567568.CrossRefGoogle Scholar
Watts, W. R. (1972). Leaf extension in Zea mays. I. Leaf extension and water potential in relation to root zone and air temperature. II. Leaf extension in response to independent variation of the temperature of the apical meristem and of the air around the leaves and of the root zone. Journal of Experimental Botany 23, 704721.Google Scholar
Weber, D. F. & Miller, V. F. (1972). Effect of soil temperature on Rhizobium japonicum serogroup distribution in soybean cultivars. Agronomy Journal 64, 796798.Google Scholar