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Reaction of barley varieties to nitrogen fertilizer

Published online by Cambridge University Press:  27 March 2009

S. Dubetz  and
S. A. Wells
S. Dubetz
Affiliation:
Research Station, Canada Department of Agriculture, Lethbridge, Alberta
S. A. Wells
Affiliation:
Research Station, Canada Department of Agriculture, Lethbridge, Alberta
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Summary

Four barley varieties were grown in a greenhouse with varying levels of nitrogen fertilizer in two experiments. One experiment was sown in late September and received supplementary light, the other in March without supplementary light.

Varietal responses to nitrogen were essentially the same in both experiments. At low levels, differences in yield and protein content between varieties were small and inconsistent; at high levels, differences were pronounced and consistent. Betzes and Hannchen were highest in yield and lowest in protein, Palliser was intermediate in both, and Compana was lowest in yield and highest in protein. The results correspond with the known behaviourof these varieties under field conditions in Canada, except that Betzes yields more than Hannchen.

We suggest that relative potential yields of genotypes can be estimated under similarly controlled conditions.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 70 , Issue 3 , June 1968 , pp. 253 - 256
Copyright
Copyright © Cambridge University Press 1968

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References

REFERENCES

Association of Official Agricultural Chemists. (1955). Official methods of analysis, 8th edn, Washington, D.C.Google Scholar
Bell, G. D. H. & Kirby, E. J. M. (1966). Utilization of growth responses in breeding new varieties of cereals. The Growth of Cereals and Grasses, 308–19. London: Butterworths.Google Scholar
Bowser, W. E., Peters, T. W. & Kjearsoaard, A. A. (1963). Soil survey of St Mary and Milk Rivers Development irrigation project. Alberta Soil Surv. Rep. No. 22.Google Scholar
Dormling, I., Gustafsson, A., Jung, H. R. & Von Wettstein, D. (1967). Phytotron cultivation of Svalöf's Bonus barley and its mutant Svalöf's Mari. Hereditas 56, 221–37.Google Scholar
Dubetz, S. & Wells, S. A. (1965). Yield and quality of greenhouse-grown Betzes barley as affected by water and fertilizers. Can. J. PI. Sci. 45, 437–42.CrossRefGoogle Scholar
Thorne, Gillian N. (1966). Physiological aspects of grain yield in cereals. The Growth of Cereals and Grasses, 88105. London: Butterworths.Google Scholar
Voldeng, H. D. & Simpson, G. M. (1967). The relationship between photosynthetic area and grain yield per plant in wheat. Can. J. PI. Sci. 47, 359–65.CrossRefGoogle Scholar