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Efficiency of fallow as a store for fertilizer nitrogen in a semi-arid region

Published online by Cambridge University Press:  27 March 2009

N. G. Seligman ,
Sala Feigenbaum ,
R. W. Benjamin  and
Dvora Feinerman
N. G. Seligman
Affiliation:
The Volcani Center, Agricultural Research Organization, Bet Dagan, 50250, Israel
Sala Feigenbaum
Affiliation:
The Volcani Center, Agricultural Research Organization, Bet Dagan, 50250, Israel
R. W. Benjamin
Affiliation:
The Volcani Center, Agricultural Research Organization, Bet Dagan, 50250, Israel
Dvora Feinerman
Affiliation:
The Volcani Center, Agricultural Research Organization, Bet Dagan, 50250, Israel
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Summary

Fertilizer nitrogen recovery under fallow and under a wheat crop (Triticum aestivum L., cv. Miriam) grown on a deep loessial silty loam (Calcixerollic Xerochrept), was studied with 15N labelled KNO3. The labelled nitrogen was applied (at a rate of 180kg/ha) to 30 cm diameter microplots enclosed in hard plastic tubes that protruded 5 cm above the soil surface. In the 1st year of the experiment there was a long dry spell during the main part of the growing season and plant dry-matter yields were low. The 2nd year was wet, with heavy rain early in the season. About one-third of the fertilizer N applied to the fallow was lost from the top 60 cm layer in the 1st year. Most of the fertilizer N remaining in the soil as mineral N at the end of the first season was lost in the 2nd year. The possible reasons for such low N-conservation efficiency are discussed.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 105 , Issue 2 , October 1985 , pp. 245 - 249
Copyright
Copyright © Cambridge University Press 1985

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References

REFERENCES

Amir, Y., Vanunu, E., Krikun, H., Orion, D., Penuel, V., Satki, Y. & Lerner, A. (1982). Longterm experiments on dry farming in the Negev Desert, 1974–1980. C. Cereal nitrogen economy in a semi-arid region. Hassadeh 62, 570692 (Hebrew, with English summary).Google Scholar
Bartholomew, W. V. (1965). Mineralization and immobilization of nitrogen in the decomposition of plant and animal residues. In Soil Nitrogen (ed. Bartholomew, W. V. and Clark, F. E.). Agronomy 10, 285306. Madison, Wisconsin: American Society for Agronomy.CrossRefGoogle Scholar
Broadbent, F. E. & Clark, F. E. (1965). Denitrification. In Soil Nitrogen (ed. Bartholomew, W. V. and Clark, F. E.), Agronomy 10, 344359. Madison, Wisconsin: American Society for Agronomy.Google Scholar
Feigenbaum, A., Seligman, N. G. & Benjamin, R. W. (1984). Fate of 15N applied to spring wheat grown for three consecutive years in a semi-arid region. Journal of the Soil Science Society of America 48, 838843.CrossRefGoogle Scholar
Hauck, R. D. & Bremner, J. M. (1976). Use of tracers for soil and fertilizer nitrogen research. Advances in Agronomy 28, 219266.CrossRefGoogle Scholar
Long, F. L. & Huck, M. G. (1980). Nitrate movement under corn and fallow conditions. Journal of the Soil Science Society of America 44, 787792.CrossRefGoogle Scholar
Noy-Meir, I. & Harpaz, Y. (1977). Nitrogen cycling in semi-arid ecosystems in Israel. Agro-ecosystems 4, 143167.Google Scholar
Olson, R. V. & Swallow, C. W. (1984). Fate of labelled nitrogen fertilizer applied to winter wheat for five years. Journal of the Soil Science Society of America 48, 583686.CrossRefGoogle Scholar
Russell, E. W, (1950). Soil Conditions and Plant Growth, 635 pp. London: Longman, Green and Co.Google Scholar
Westerman, R. L. & Tucker, T. C. (1978). Denitrifi-cation in desert soils. In Nitrogen Processes of Desert Ecosystems (ed.West, N. and Skujins, J.), pp. 76106. Stroudsburg: FA: Dowden, Hutchinson and Ross Inc.Google Scholar