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Germination ecology of the woody herb Uraria picta, from southern Nigeria

Published online by Cambridge University Press:  10 July 2009

O. T. Okusanya ,
O. O. Lakanmi  and
O. O. Oyesiku
O. T. Okusanya
Affiliation:
Ecology Laboratory, Department of Biological Science, University of Lago, Lagos, Nigeria
O. O. Lakanmi
Affiliation:
Ecology Laboratory, Department of Biological Science, University of Lago, Lagos, Nigeria
O. O. Oyesiku
Affiliation:
Ecology Laboratory, Department of Biological Science, University of Lago, Lagos, Nigeria
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Abstract

The germination response of Uraria picta to five environmental factors was investigated. It germinated both in light and dark but germination in the light was significantly better than in the dark; there was further germination when seeds first placed in the dark were later brought into the light. It germinated well in the three soil types used but germination in humus and sand was significantly better than in red earth. There was an increase in germination with an increase in burial up to 1.5 cm, thereafter germination levelled off. There was no germination in water-logged conditions and there was an increase in germination as soil moisture decreased. Alternating temperatures of 31/21°C and 31/15°C favoured germination while 21/15°C inhibited germination. The results are discussed in relation to the phenology and distribution of the species.

Keywords

ecologygerminationNigeriaUraria picla
Type
Research Article
Information
Journal of Tropical Ecology , Volume 7 , Issue 1 , February 1991 , pp. 139 - 146
Copyright
Copyright © Cambridge University Press 1991

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References

LITERATURE CITED

Clarke, G. C. 1980. Statistics and experimental design. Contemporary Biology. Edward Arnold Publishers Limited, London.Google Scholar
Dike, M. C. 1987. Seed stock in tropical moist forest soils of Nigeria. B.Sc. Project, University of Ibadan, Department of Forest Resource Management.Google Scholar
Fenner, M. 1985. Seed ecology. Chapman and Hall.CrossRefGoogle Scholar
Hutchinson, J. & Dalziel, J. N. 1958. Flora of West Tropical Africa. Crown Agents for Overseas Government and Administration, London.Google Scholar
Khan, A. A. 1971. Cytokinins: Permissive role in seed germination. Science. 171:853859.CrossRefGoogle ScholarPubMed
Kramer, P. J. 1949. Plant and soil relationship. McGraw Hill.Google Scholar
Lambo, J. O. 1979. Pp 2330. The healing powers of herbs with special reference to Obstetrics and Gynaecology. Sofowora, A. (ed.). University of Ife press, Ile-Ife.Google Scholar
Ola-Adams, B. A. 1977. Effects of prescribed burning on seeds in forest soil. Obeche. 13:4852.Google Scholar
Okusanya, O. T. 1983. Experimental studies on some observed variations in Luffa aegyptiaca. Canadian Journal of Botany. 61:202210.CrossRefGoogle Scholar
Okusanya, O. T. & Ungar, I. A. 1983. The effects of time of seed production on the germination response of Spergularia marina. Physiologia Plantarum. 59:335–342.CrossRefGoogle Scholar
Ross, M. A. & Harper, J. L. 1972. Occupation of biological space during seedling establishment. Journal of Ecology. 60:7778.CrossRefGoogle Scholar
Saunders, H. K. 1958. A handbook of West African flowers. Oxford University Press. London.Google Scholar
Wesson, G. & Wareing, P. F. 1969. The induction of light sensitivity in weed seeds by burial. Journal of Experimental Botany. 20(63):414425.CrossRefGoogle Scholar