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Response of snake cucumber (Cucumis melo var. pubescens) to some plant regulators

Published online by Cambridge University Press:  27 March 2009

E. El-Kholy
Affiliation:
Faculty of Agriculture, Elminia University, A.R.E.
H. Hafez
Affiliation:
Vegetable Research Department, Agricultural Research Center, Cairo, A.R.E.

Summary

Trials were conducted during the summer seasons (1978 and 1979) at the Faculty of Agriculture, Elminia University, to evaluate the effect of some growth regulators on sex expression, sex ratio and yield production of snake cucumber. The results obtained showed that both sex expression and ratio could be modified with plant regulator sprays even under the long and high temperature conditions of Elminia governorate. All plant regulators induced the formation of the first female flower at lower nodes compared with the control. There was significant suppression of male flowers in plants sprayed with plant regulators. All the treatments gave an increase in total yield and improved fruit characters.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1982

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References

Baker, E. & Bradley, G. A. (1976). Effects of ethephon on yield and quality in winter squash (Cucurbita maxima Duch.). Hort. Science 11, 140142.Google Scholar
Borkowski, J. (1972). Comparison of the effect of NAA and ethrel sprays on growth and flowering in cucumber cv. Monastyrski. Acta Agrobotanica Vol. xxv, 8188.Google Scholar
El-Zawily, A. I. & Arafa, A. E. (1981). Effect of ethephon on growth, flowering and fruiting of summer squash (Cucurbita. pepo L.). Zagazig University, Research BulletinHQ, 240 112.Google Scholar
George, W. L. (1971). Influence of genetic background on sex conversion by 2-chloroethyl phosphonic acid in monoecious cucumbers. Journal of American Society for Horticulture Science 96, 151153.Google Scholar
Halevy, A. H. & Kader, N. (1972). Interaction of gibberellin and SADH on growth and sex expression of muskmelon. Journal of American Society for Horticulture Science 97, 369373.Google Scholar
Halevy, A. H. & Rudish, Y. (1967). Modification of sex expression in muskmelon by treatment with growth retardant (B–995). Physiologia Plantarum 20, 10521058.CrossRefGoogle Scholar
Kurata, H. (1973). Studies on pistillate flower formation induced by ethrel in cucumber. Kagawa Daigaku Gakuzyuta Hokoka 24, 143 (Horticulture Abstracts 44, 2415).Google Scholar
Lee, W. S., Park, S. J. & Lee, J. D. (1973). The effect of ethrel on growth and the initiation of female flowers in cucumber. Journal of Korean Society for Horticulture Science 14, 41 (Horticulture Abstracts 44, 5669).Google Scholar
Loy, J. B. (1971). Effect of 2, chloroethyl phosphonic acid and succinic acid 2,2-dimethyl hydrazide on sex expression in muskmelon. Journal of American Society for Horticulture Science 96, 691693.Google Scholar
Robinson, R. W., Whitaker, T. W. & Bohn, G. W. (1970). Promoting of pistillate flowering in cucurbita by 2-chloroethyl phosphonic acid. Euphytica 19, 108111.CrossRefGoogle Scholar
Saimbhi, M. S. (1974). A note on the effect of 2-chloroethyl phosphonic acid on the sex expression in vegetable marrow (Cucurbita pepo L.). Haryana Journal for Horticulture Science 3, 1214 (Horticulture Abstracts 46, 2171).Google Scholar
Sams, C. E. & Krueger, W. A. (1977). Ethephon alternation of flowering and fruit set pattern of summer squash. Hort. Science 12, 162164.Google Scholar
Singh, B. B., Seth, J. N. & Tiwari, S. N. (1975). Effect of plant regulator sprays on sex modification and fruit yield in summer squash (Cucurbita pepo L.). Progressive Horticulture 6, 2936 (Horticulture Abstracts 46, 9324).Google Scholar