Hostname: page-component-77c89778f8-cnmwb Total loading time: 0 Render date: 2024-07-18T08:03:04.787Z Has data issue: false hasContentIssue false
  • English
  • Français

Factors causing small curds in cauliflower crops

Published online by Cambridge University Press:  27 March 2009

P. Crisp
P. Crisp
Affiliation:
National Vegetable Research Station, Wellesbourne, Warwick
Get access Rights & Permissions [Opens in a new window]

Summary

Vigorous cauliflower plants sometimes bear abnormally small curds, yet this common problem has received little recognition or attention from research workers. Curd size is often reduced towards the end of the harvesting period of a crop, and this is more marked if environmental conditions reduce mean curd size and lengthen the time to maturity. Small late curds may be a consequence of their slow growth rather than their late initiation. Cultivars differ in their tendency to produce plants with late maturity and small curds. This may not be due to genetic differences within cultivars. Moreover, breeding to eliminate or reduce this condition may not be possible without affecting overall maturity time and curd size.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 102 , Issue 2 , April 1984 , pp. 405 - 413
Copyright
Copyright © Cambridge University Press 1984

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Beckett, J. L. (1973). Development of the trial procedures and presentation of results for cauliflower varieties. Journal of the National Institute of Agricultural Botany 13, 9094.Google Scholar
Chowings, J. W. (1974). Vegetable variety performance trials techniques – brassica crops. Journal of the National Institute of Agricultural Botany 13, 168185.Google Scholar
Crisp, P. (1977 a). Breeding strategy for winter cauliflowers in South West Britain. Journal of Horticultural Science 52, 347356.CrossRefGoogle Scholar
Crisp, P. (1977 b). Genotype × environment interactions in early winter cauliflowers in South West Britain. Journal of Horticultural Science 52, 357366.CrossRefGoogle Scholar
Crisp, P. & Gray, A. R. (1974). Autumn cauliflowers. Report of the National Vegetable Research Station for 1973, pp. 3133.Google Scholar
Crisp, P. & Gray, A. R. (1978). Autumn cauliflowers. Report of the National Vegetable Research Station for 1977, p. 25.Google Scholar
Crisp, P. & Gray, A. R. (1979). Successful selection for curd quality in cauliflower, using tissue culture. Horticultural Research 19, 4953.Google Scholar
Crisp, P. & Kesavan, V. (1978). Genotypic and environmental effects on curd weight of autumn-maturing cauliflowers. Journal of Agricultural Science, Cambridge 90, 1117.Google Scholar
Crisp, P. & Walkey, D. G. A. (1974). The use of aseptic meristem culture in cauliflower breeding. Euphytica 23, 305313.CrossRefGoogle Scholar
Freeman, G. H. & Crisp, P. (1979). The use of related variables in explaining genotype-environment interactions. Heredity 42, 113.CrossRefGoogle Scholar
Houghton, B. H. (1978). Winter cauliflower – NIAB variety trial. Report of Rosewarne Experimental Horticultural Station for 1977, pp. 4546.Google Scholar
Houghton, B. H. (1979). Winter cauliflower – NIAB variety trial. Report of Rosewarne Experimental Station for 1978, p. 64.Google Scholar
Jensma, J. R. (1957). Teelt en veredeling van Bloemkool. Mededelingen van het Instituut voor de Veredeling van Tuinbouwgewassen 96, 61 pp.Google Scholar
Kesavan, V., Crisp, P., Gray, A. R. & Dowker, B. D. (1976). Genotypic and environmental effects on the maturity time of autumn cauliflowers. Theoretical and Applied Genetics 47, 133140.CrossRefGoogle ScholarPubMed
Khan, A. R. & Waheed, C. A. (1959). The effect of different pollination treatments on seed-formation and size of head in the next generation of cauliflower. Pakistan Journal of Scientific Research 9, 1220.Google Scholar
Kumaran, N. M. (1971). Studies on combining ability, gene effects and heterosis in cauliflower. Ph.D. thesis, Indian Agricultural Research Institute, New Delhi, India.Google Scholar
Lal, G., Swarup, V. & Chatterjee, S. S. (1977). Combining ability in early Indian cauliflower. Journal of Agricultural Science, Cambridge 89, 169175.CrossRefGoogle Scholar
Ministry of Agriculture, Fisheries and Food (1980). Bolting in brassica crops. Ministry of Agriculture, Fisheries and Food, Leaflet 756. London: H.M.S.O.Google Scholar
National Institute of Agricultural Botany (1980). Vegetable Growers' Leaflet No. 1, Cauliflowers. Obtainable for 15p from the Librarian, National Institute of Agricultural Botany, Huntingdon Road, Cambridge, U.K.Google Scholar
Ramsbottom, E. M. (1974). An examination of recording techniques in NIAB variety trials of cauliflowers. Journal of the National Institute of Agricultural Botany 13, 217224.Google Scholar
Rein, J. Y. (1967). Studies of inbreeding and uniformity of maturity in cauliflower Brassica oleracea var. botrytis. MS thesis, Cornell University, U.S.A.Google Scholar
Singh, D. F. (1971). Genetical studies in Indian cauliflowers. Ph.D. thesis, Indian Agricultural Research Institute, New Delhi, India.Google Scholar
Swarup, V. & Pal, A. B. (1966). Gene effects and heterosis in cauliflower. Indian Journal of Genetics 26, 269281.Google Scholar
Watts, L. E. (1965 a). Investigations into the breeding system of cauliflower. II. Adaptation of the system to inbreeding. Euphytica 14, 6777.Google Scholar
Watts, L. E. (1965 b). Breeding systems of cauliflower and their adaptation for use in a breeding programme. Horticultural Research 5, 4546.Google Scholar
Whitwell, J. D. (1969). Cauliflower production from March to September. London: Grower Publications.Google Scholar
Wurr, D. C. E., Fellows, J. R. & Crisp, P. (1982). Leaf and curd production in cauliflower varieties cold-treated before transplanting. Journal of Agricultural Science, Cambridge 99, 425432.CrossRefGoogle Scholar