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Dormancy of Paddy Seeds in Relation to Different Seed Treatments

Published online by Cambridge University Press:  03 October 2008

H. P. Sikder
H. P. Sikder
Affiliation:
Rice Research Station, Chinsurah, West Bengal, India
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Summary

Dormancy of six varieties of paddy, of three maturity groups, was studied under six seed-treatments. One type showed no dormancy but others showed dormancy in varying degrees 15 days after harvest. Dormancy was completely broken either by removing the kernels from the glumes, or by puncturing the glumes, or by putting acid-treated seeds in an atmosphere saturated with oxygen. The germination percentages were also significantly increased when seeds were treated with N/10 sulphuric acid solution for four hours, or when seeds were put in atmospheres saturated with oxygen. Speed of germination did not improve, as in the case of seeds germinated after four months of harvest, except in cases where the kernels were removed from the glumes or the glumes were punctured. The causes of dormancy of rice seeds were assumed to reside in the flowing glumes (lemma and palea), and different seed-treatments improved the germination of rice seeds by increasing the permeability of the glumes to oxygen and/or reducing the resistance of the tough glume covers over the germinating embryos. The magnitude of the treatment effects differed with variety. These studies suggest methods of improving germination.

Type
Research Article
Information
Experimental Agriculture , Volume 3 , Issue 3 , July 1967 , pp. 249 - 255
Copyright
Copyright © Cambridge University Press 1967

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References

REFERENCES

Akamine, E. K. (1944). Hawaii Agric exp. St. techn. Bull. 2, 60.Google Scholar
Crocker, W. & Barton, L. V. (1953). Physiology of Seeds. Waltham, Mass.: Chronica Botanica.CrossRefGoogle Scholar
Ghosh, B. N. (1962). Indian J. agric. Sci. 30, 129.Google Scholar
Johnson, L. P. V. (1935). Canad. J. Res. Sec. C. 13, 283.CrossRefGoogle Scholar
Mikkelsen, D. S. & Sinah, M. N. (1961). Crop Sci. 1, 332.CrossRefGoogle Scholar
Nair, N. R. & Sahadevan, P. C. (1962). Curr. Sci. 31, 72.Google Scholar
Parija, P. (1960). J. Indian. bot. Soc. 39, 335.Google Scholar
Parija, P., Dixit, P. D. & Challam, G. V. (1940). Proc. 27th Indian Sci. Congr., III, 228.Google Scholar
Richharia, R. H. (1964). Techn. Report C.R.R.I. 1963. Cuttack, India.Google Scholar
Roberts, E. H. (1961). J. exp. Bot. 12 430.CrossRefGoogle Scholar
Roberts, E. H. (1964 a). Physiol. Plant. 17, 14.CrossRefGoogle Scholar
Roberts, E. H. (1964 b). Physiol. Plant. 17, 30.CrossRefGoogle Scholar
Shull, C. A. (1911). Bot. Gaz. 52, 453.CrossRefGoogle Scholar
Sircar, S. M. & Bharati, Dey (1963). International Symposium on the Physiology, Ecology and Biochemistry of Germination, Greifswald.Google Scholar
Toole, E. H., Hendricks, S. B., Borthwick, H. A. & Toole, V. K. (1956). Ann. Rev. Plant Physiol., 7, 299.CrossRefGoogle Scholar