Hostname: page-component-78c5997874-8bhkd Total loading time: 0 Render date: 2024-11-15T01:25:59.982Z Has data issue: false hasContentIssue false

Seed vigour in cultivars of dwarf French bean (Phaseolus vulgaris) in relation to the colour of the testa

Published online by Cambridge University Press:  27 March 2009

Alison A. Powell
Affiliation:
Department of Agriculture, University of Aberdeen, Aberdeen AB9 1UD, Scotland
M. De A. Oliveira
Affiliation:
Department of Agriculture, University of Aberdeen, Aberdeen AB9 1UD, Scotland
S. Matthews
Affiliation:
Department of Agriculture, University of Aberdeen, Aberdeen AB9 1UD, Scotland

Summary

Differences in the field emergence of 30 commercial seed lots of dwarf French beans were associated with the colour of the testa, the 11 lots with a white testa having a lower mean field emergence of 67% compared with 91% for lots with black (11 lots) or brown (8 lots) testae. The white-seeded lots also had higher leachate conductivities (mean 42 μ S/cm/g) and imbibed more rapidly (an average 43% weight increase after 6 h imbibition) than black- or brown-seeded lots (average 25 μS/cm/g; 30% weight increase). The extent of damage to the testa which was slight in all lots was not related to differences in either the field emergence or rate of imbibition of the lots. In two successive imbibition cycles seeds of Provider (brown testae) took up water far more rapidly in the second imbibition (78% weight increase after 3 h) than the first (25% weight increase). The coloured testae normally adhere very tightly to the cotyledons but were loosened following the first imbibition leading to a more rapid uptake of water. The rapid imbibition of Tenderette (white testae) which has a loose fitting testa even in the dry seed was increased only slightly by a second imbibition. When seeds were imbibed from one end only from which the testa was removed Tenderette imbibed rapidly (90% weight increase after 12 h) whereas in Provider the tightly adhering testa limited the rate of water uptake (42% weight increase after 12 h) despite the ready access of water to the seed. It is suggested that the degree of adherence of the testa to the cotyledons is the major factor influencing the rate of imbibition of cultivars of dwarf French beans differing in testa colour and its role in determining seed vigour is discussed.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1986

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

REFERENCES

Anon. (1976). International rules for seed testing. Seed Science and Technology 4, 4177.Google Scholar
Deakin, J. R. (1974). Association of seed colour with emergence and seed yield of snap beans. Journal of the American Society of Horticultural Science 99, 110114.CrossRefGoogle Scholar
Dickson, M. H. (1971). Breeding beans, Phaaeolus vulgaria L., for improved germination under unfavourable low temperature conditions. Crop Science 11, 848850.CrossRefGoogle Scholar
Hegarty, T. W. (1977). Seed vigour in field beans (Vicia faba L.) and its influence on plant stand. Journal of Agricultural Science, Cambridge 88, 169173.Google Scholar
McCollum, J. P. (1953). Factors affecting cotyledonal cracking during the germination of Phaaeolua vulgaris. Plant Physiology 28, 267274.CrossRefGoogle ScholarPubMed
Matthews, S. & Bradnock, W. T. (1968). Relationship between seed exudation and field emergence in peas and French beans. Horticultural Research 8, 8993.Google Scholar
Matthews, S. & Powell, A. A. (1981). Electrical conductivity test. In Vigour Test Handbook (ed. Perry, D. A.), pp. 4956. Zurich: International Seed Testing Association.Google Scholar
Meidner, H. (1970). A critical study of sensor element diffusion porometers. Journal of Experimental Botany 21, 10601066.CrossRefGoogle Scholar
Morris, J. L., Campbell, W. F. & Pollard, L. H. (1970). Relation of imbibition and drying on cotyledon cracking in snap beans, Phaseolus vulgaris L. Journal of the American Society for Horticultural Science 95, 541543.CrossRefGoogle Scholar
Oliveira, M. de A., Matthews, S. & Powell, A. A. (1984). The role of split seed coats in determining seed vigour in commercial seed lots of soyabean, as measured by the electrical conductivity test. Seed Science and Technology 12, 659668.Google Scholar
Powell, A. A. & Matthews, S. (1979). The influence of testa condition on the imbibition and vigour of pea seeds. Journal of Experimental Botany 30, 193197.CrossRefGoogle Scholar
Powell, A. A. & Matthews, S. (1980). The significance of damage during imbibition to the field emergence of pea (Piaum sativum L.) seeds. Journal of Agricultural Science, Cambridge 95, 3538.CrossRefGoogle Scholar
Powell, A. A., Matthews, S. & Oliveira, M. de A. (1984). Seed quality in grain legumes. Advances in Applied Biology 10, 217285.Google Scholar
Schroth, M. N. & Cook, R. J. (1964). Seed exudation and its influence on pre-emergence damping off of bean. Phytopathology 54, 670673.Google Scholar
Spurny, M. (1973). The imbibition process. In Seed Ecology (ed. Heydecker, W.), pp. 367390. London: Butterworths.Google Scholar