Hostname: page-component-8448b6f56d-dnltx Total loading time: 0 Render date: 2024-04-24T18:36:35.426Z Has data issue: false hasContentIssue false
  • English
  • Français

Stimulation of root growth and soil nitrogen uptake by foliar application of urea to wheat and sunflower

Published online by Cambridge University Press:  27 March 2009

S. Sen  and
P. M. Chalk
S. Sen
Affiliation:
Department of Agriculture, University of Melbourne, Parkville 3052, Victoria, Australia
P. M. Chalk
Affiliation:
Department of Agriculture, University of Melbourne, Parkville 3052, Victoria, Australia
Get access Rights & Permissions [Opens in a new window]

Summary

Wheat and sunflower plants were grown in a temperature-controlled glasshouse in Melbourne, Australia (37° 50′ S, 145° 00′ E), from 9 August to 2 October 1991, in cylinders containing two soils (Walpeup loamy sand (LS) and Gombalin clay loam (CL)) of low and moderate N status, respectively. Nitrogen fertilizer was applied by immersion of leaves in 0·18 M urea solution (10·5 atom% 15N).

Plants were N-deficient in the Walpeup LS but not in the Gombalin CL soils. Both species had higher root: shoot ratios, and higher proportions of foliar-absorbed N were transferred to the roots, in the Walpeup LS plants. Plant N derived from the fertilizer and root or shoot dry matter were significantly correlated only when plants were N-deficient.

In the Walpeup LS soil, N-fertilized wheat harvested 33 days after sowing (DAS) took up significantly less soil N compared with unfertilized plants, whereas significantly more soil N was taken up by N-fertilized sunflower compared with unfertilized plants harvested at 54 DAS. The fertilizerinduced response in uptake of soil N was directly related to the observed response in production of root biomass for both species. The different responses were related to the severity of the N deficiency and the limited effectiveness of foliar applications of urea in ameliorating the deficiency.

Type
Crops and Soils
Information
The Journal of Agricultural Science , Volume 126 , Issue 2 , March 1996 , pp. 127 - 135
Copyright
Copyright © Cambridge University Press 1996

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Azam, F., Lodhi, A. & Ashraf, M. (1991). Interaction of 15N-labelled ammonium nitrogen with native soil nitrogen during incubation and growth of maize (Zea mays L.). Soil Biology & Biochemistry 23, 473477.CrossRefGoogle Scholar
Bosemark, N. O. (1954). The influence of nitrogen on root development. Physiologia Plantarum 7, 497502CrossRefGoogle Scholar
Bremner, J. M. & Mulvaney, C. S. (1982). Nitrogen – Total. In Methods of Soil Analysis, Part 2, Chemical and Microbiological Properties(Eds Page, A. L., Miller, R. H. & Keeney, D. R.), pp. 595624. Madison, Wisconsin: American Society of Agronomy.Google Scholar
Broadbent, F. E. (1965). Effect of fertilizer nitrogen on the release of soil nitrogen. Soil Science Society of America Proceedings 29, 692696.CrossRefGoogle Scholar
Campbell, C. A. & Paul, E. A. (1978). Effects of fertilizer N and soil moisture on mineralization, N recovery and A-values, under spring wheat grown in small lysimeters. Canadian Journal of Soil Science 58, 3951.CrossRefGoogle Scholar
Campbell, C. A., Cameron, D. R., Nicholaichuk, W. & Davidson, H. R. (1977). Effects of fertilizer N and soil moisture on growth, N content, and moisture use by spring wheat. Canadian Journal of Soil Science 57, 289310.CrossRefGoogle Scholar
Chen, D., Chalk, P. M., & Freney, J. R. (1990). Release of dinitrogen from nitrite and sulphamic acid for isotope ratio analysis of soil extracts containing nitrogen-15 labelled nitrite and nitrate. Analyst 115, 365370.CrossRefGoogle Scholar
Clarke, A. L. & Barley, K. P. (1968). The uptake of nitrogen from soils in relation to solute diffusion. Australian Journal of Soil Research 6, 7592.CrossRefGoogle Scholar
Craswell, E. T. & Godwin, D. C. (1984). The efficiency of nitrogen fertilizers applied to cereals in different climates. In Advances in Plant Nutrition, Volume I (Eds Tinker, P. B. & Läuchli, A.), pp. 155. New York: Praeger Scientific.Google Scholar
Drew, M. C., Saker, L. R. & Ashley, T. W. (1973). Nutrient supply and the growth of the seminal root system in barley. Journal of Experimental Botany 24, 11891202.CrossRefGoogle Scholar
Gass, W. B., Peterson, G. A., Hauck, R. D. & Olson, R. A. (1971). Recovery of residual nitrogen by corn (Zea maysL.) from various soil depths as measured by 15N tracer techniques. So/7 Science Society of America Proceedings 35, 290294.CrossRefGoogle Scholar
Gregory, P. J., Crawford, D. V. & McGowan, M. (1979). Nutrient relations of winter wheat. 2. Movement of nutrients to the root and their uptake. Journal of Agricultural Science, Cambridge 93, 495504.CrossRefGoogle Scholar
Janzen, H. H. & Bruinsma, Y. (1989). Methodology for the quantification of root and rhizosphere nitrogen dynamics by exposure of shoots to 15N-labelled ammonia. Soil Biology & Biochemistry 21, 189196.CrossRefGoogle Scholar
Jenkinson, D. S., Fox, R. H. & Rayner, J. H. (1985). Interactions between fertilizer nitrogen and soil nitrogen – the so-called ‘priming’ effect. Journal of Soil Science 36, 425444CrossRefGoogle Scholar
Jensen, E. S. & Sorensen, L. H. (1988). Uptake of soil nitrogen by soybean as influenced by symbiotic N2-fixation or fertilizer nitrogen supply. Soil Biology & Biochemistry 20, 921925.CrossRefGoogle Scholar
Keith, A. H., Roth, J., Gagnon, J., William, F. F. & Soper, C. (1992). StatView. Berkeley: Abacus Concepts.Google Scholar
Kmoch, H. G., Ramig, R. E., Fox, R. L. & Koehler, F. E. (1957). Root development of winter wheat as influenced by soil moisture and nitrogen fertilization. Agronomy Journal 49, 2025.CrossRefGoogle Scholar
Legg, J. O. & Stanford, G. (1967). Utilization of soil and fertilizer N by oats in relation to the available N status of soils. Soil Science Society of America Proceedings 31, 215219.CrossRefGoogle Scholar
Martin, R. C., Voldeng, H. D. & Smith, D. L. (1991). Nitrogen transfer from nodulating soybean [Glycine max (L.) Merr.], to corn (Zea maysL.) and non-nodulating soybean in intercrops: direct 15N labelling methods. New Phytologist 117, 233241.CrossRefGoogle Scholar
Payne, R. W. (1987). Genstat 5 Reference Manual. Oxford: Clarendon Press.Google Scholar
Rao, A. C. S., Smith, J. L., Papendick, R. I. & Parr, J. F. (1991). Influence of added nitrogen interactions in estimating recovery efficiency of labeled nitrogen. Soil Science Society of America Journal 55, 16161621.CrossRefGoogle Scholar
Robinson, D., Griffiths, B., Ritz, K. & Wheatley, R. (1989). Root-induced nitrogen mineralisation: A theoretical analysis. Plant and Soil 117, 185193.CrossRefGoogle Scholar
Rüegg, J. J. & Alston, A. M. (1978). Seasonal and diurnal variation of nitrogenase activity (acetylene reduction) in barrel medic (Medicago truncatulaGaertn.) grown in pots. Australian Journal of Agricultural Research 29, 951962.CrossRefGoogle Scholar
Sapozhnikov, N. A., Nesterova, E. I., Rusinova, l. P., Sirota, L. B. & Livanova, T. K. (1968). The effect of fertilizer nitrogen on plant uptake of nitrogen from different podzolic soils. In Transactions of the 9th International Congress of Soil Science, Volume II, pp. 467474. Sydney: The International Society of Soil Science and Angus & Robertson Ltd.Google Scholar
Schimel, J. P., Jackson, L. E. & Firestone, M. K. (1989). Spatial and temporal effects on plant-microbial competition for inorganic nitrogen in a California annual grassland. Soil Biology & Biochemistry 21, 10591066.CrossRefGoogle Scholar
Stace, H. C. T., Hubble, G. D., Brewer, R., Northcote, K. H., Sleeman, J. R., Mulcahy, M. J. & Hallsworth, E. G. (1968). A Handbook of Australian Soils. Glenside, S. Australia: Rellim Technical Publications.Google Scholar
Thorne, G. N. (1957). The effect of applying a nutrient in leaf sprays on the absorption of the same nutrient by the roots. Journal of Experimental Botany 8, 401412.CrossRefGoogle Scholar
van Lierop, W. & Tran, T. S. (1980). The comparative use of nitrate, ammonium and urea fertilizers by oats and wheat as determined by 15N-techniques. Communications in Soil Science and Plant Analysis 11, 231250.CrossRefGoogle Scholar
Westerman, R. L. & Kurtz, L. T. (1973). Priming effect of 15N-labeled fertilizers on soil nitrogen in field experiments. Soil Science Society of America Proceedings 37, 725—727.CrossRefGoogle Scholar