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Seedling vigour and grain yield of cereals grown from seeds of varying protein contents

Published online by Cambridge University Press:  27 March 2009

R. W. Welch
R. W. Welch
Affiliation:
Welsh Plant Breeding Station, Aberystwyth
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Summary

The effect of seed protein content on grain yield has been studied in varieties of spring barley, oats and wheat grown under differing cultural conditions. Grain yield was affected by seed protein content in one experiment where very low yields were attained, but the effects were inconsistent. No effect was observed in two other experiments made in a glasshouse and the field. In a growth-room experiment, seed with high protein content produced more vigorous seedlings than low-protein seed; these differences were accentuated by increasing seedling age at very low nutrient levels, but decreased with seedling age at normal nutrient levels. It is concluded from the results that variations in seed protein content are unlikely to have a significant effect on yield under practical conditions.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 88 , Issue 1 , February 1977 , pp. 119 - 125
Copyright
Copyright © Cambridge University Press 1977

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References

Austin, R. B. (1972). Effect of environment before harvesting on viability. In Viability of Seeds (ed. Roberts, E. H.), pp. 114–49. London: Chapman and Hall.CrossRefGoogle Scholar
Bingham, J. (1972). Physiological objectives in breeding for grain yield in wheat. In The Way Ahead in Plant Breeding: Proceedings of the 6th Eucarpia Congress (ed. Lupton, F. G. H., Jenkins, G. and Johnson, R.), pp. 1529.Google Scholar
Christian, C. S. & Gray, S. G. (1935). Interplant competition in mixed wheat populations and its relation to single plant selection. Journal of the Council for Scientific and Industrial Research, Australia 8, 17.Google Scholar
Dale, J. E. (1972). Growth and photosynthesis in the first leaf of barley. The effect of time of application of nitrogen. Annals of Botany 36, 967–79.CrossRefGoogle Scholar
Hoagland, D. R. & Arnon, D. I. (1938). The waterculture method for growing plants without soil. University of California, College of Agriculture, Agricultural Experimental Station, Berkeley, Circular 347.Google Scholar
Holzman, M. (1974a). Der Einfluss der Stickstoffdüngung auf den Saatgutwert von Winterweizen, geprüft an der Wachstumsintensität und der Nährstoffaufnahme von Keimpflanzen. I. Prüning des Herkunftseffektes an der Wuchslänge und Trockenmasse der Keimpflanzen und am Ertag. Zeitschrift für Acker – und Pflanzenbau 139, 186213.Google Scholar
Holzman, M. (1974b). Der Einfluss der Stickstoffdüngung auf den Saatgutwert von Winterweizen, geprüft an der Wachstumsintensität und der Nährstoffaufnahme von Keimpflanzen. II. Die Nährstoffaufnahme. Zeitschrift für Acker – und Pflanzenbau 140, 1135.Google Scholar
Hughes, H. D. (1913). The germination test of seed corn. Iowa Agricultural Experimental Station Bulletin, 135, 303–79.Google Scholar
Jahn-Deesbach, W., Marquard, R. & Schipper, A. (1971). Genetisch und umweltbedingte Unterschiede der Fettsäureanteile im Haferfett. Zeitschrift für Acker – und Pflanzenbau 133, 34–6.Google Scholar
Jones, H. G. & Tincker, M. A. H. (1926). Yield studies in oats. The effect of the pre-treatment of the parent crop upon the seed produced, its germination and subsequent growth. The Annals of Applied Biology 13, 535–59.CrossRefGoogle Scholar
Kaufmann, M. L. & McFadden, A. D. (1960). The competitive interaction between barley plants grown from large and small seeds. Canadian Journal of Plant Science 40, 623–9.CrossRefGoogle Scholar
Kiesselbach, T. A. (1924). Relation of seed size to the yield of small grain crops. Journal of the American Society of Agronomy 16, 670–82.CrossRefGoogle Scholar
Lowe, L. B., Ayers, G. S. & Ries, S. K. (1972). Relationship of seed protein and amino acid composition to seedling vigour and yield in wheat. Agronomy Journal 64, 608–11.CrossRefGoogle Scholar
Lowe, L. B. & Ries, S. K. (1972). Effects of environment on the relation between seed protein and seedling vigour in wheat. Canadian Journal of Plant Science 52, 157–64.CrossRefGoogle Scholar
Lowe, L. B. & Ries, S. K. (1973). Endosperm protein of wheat seed as a determinant of seedling growth. Plant Physiology 51, 5760.CrossRefGoogle ScholarPubMed
McFadden, A. D. (1963). Effect of seed source on comparative test results in barley. Canadian Journal of Plant Science 43, 295300.CrossRefGoogle Scholar
Pinthus, M. J. & Osher, R. (1966). The effect of seed size on plant growth and grain yield components in various wheat and barley varieties. Israel Journal of Agricultural Research 16, 53–8.Google Scholar
Ries, S. K. & Everson, E. H. (1973). Protein content and seed size relationships with seedling vigour of wheat cultivars. Agronomy Journal 65, 884–6.CrossRefGoogle Scholar
Ries, S. K., Moreno, O., Meggitt, W. F., Schweizer, C. J. & Ashkar, S.A. (1970). Wheat seed protein: Chemical influence on and relationship to subsequent growth and yield in Michigan and Mexico. Agronomy Journal 62, 746–8.CrossRefGoogle Scholar
Schweizer, C. J. & Ries, S. K. (1969). Protein content of seed: Increase improves growth and yield. Science 165, 73–5.CrossRefGoogle ScholarPubMed