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References (33)
-
N. Rao, S. Rao, M. Mengesha, R. Ellis (1991)
Longevity of pearl millet (Pennisetum glaucum) seeds harvested at different stages of maturityAnnals of Applied Biology, 119
-
F. Hay, R. Probert, S. Coomber (1997)
Development of Desiccation Tolerance and Longevity in Seeds from Detached Capsules of Foxglove (Digitalis purpurea L)Annals of Botany, 79
-
G. Zanakis, R. Ellis, R. Summerfield (1994)
Seed Quality in Relation to Seed Development and Maturation in Three Genotypes of Soyabean (Glycine max)Experimental Agriculture, 30
-
V. Raghavan (1986)
Embryogenesis in angiosperms. A developmental and experimental study. -
T. Hong, R. Ellis (1992)
Development of desiccation tolerance in Norway maple (Acer platanoides L.) seeds during maturation dryingSeed Science Research, 2
-
I. Demir, R. Ellis (1993)
Changes in potential seed longevity and seedling growth during seed development and maturation in marrowSeed Science Research, 3
-
J. Harrington (1972)
3 – SEED STORAGE AND LONGEVITY -
A. Sanhewe, R. Ellis (1996)
Seed development and maturation in Phaseolus vulgaris I. Ability to germinate and to tolerate desiccationJournal of Experimental Botany, 47
-
M. Fenner (1991)
The effects of the parent environment on seed germinabilitySeed Science Research, 1
-
G. Galau, K. Jakobsen, D. Hughes (1991)
The controls of late dicot embryogenesis and early germinationPhysiologia Plantarum, 81
-
K. Thompson, J. Bewley, M. Black (1986)
Seeds: Physiology of Development and Germination -
R. Ellis (1981)
The quantification of ageing and survival in orthodox seedsSeed Science and Technology, 9
-
A. Kermode, J. Bewley (1989)
Developing Seeds of Ricinus communis L., When Detached and Maintained in an Atmosphere of High Relative Humidity, Switch to a Germinative Mode without the Requirement for Complete Desiccation.Plant physiology, 90 2
-
J. Eastin, J. Hultquist, C. Sullivan (1973)
Physiologic Maturity in Grain Sorghum 1Crop Science, 13
-
E. Roberts (1973)
Predicting the storage life of seedsSeed Science and Technology, 1
-
I. Demir, R. Ellis (1992)
Changes in seed quality during seed development and maturation in tomatoSeed Science Research, 2
-
M. West, J. Harada (1993)
Embryogenesis in Higher Plants: An Overview.The Plant cell, 5
-
S. Tomkins, Paul Williams (1990)
Fast plants for finer science—an introduction to the biology of rapid-cycling Brassica campestris (rapa) L.Journal of Biological Education, 24
-
R. Shaw, W. Loomis (1950)
BASES FOR THE PREDICTION OF CORN YIELDS.Plant physiology, 25 2
-
C. Benedict, R. Kohel, A. Schubert (1976)
Transport of 14C-Assimilates to Cottonseed: Integrity of Funiculus During Seed Filling Stage 1Crop Science, 16
-
S. Blackman, R. Obendorf, A. Leopold (1992)
Maturation proteins and sugars in desiccation tolerance of developing soybean seeds.Plant physiology, 100 1
-
R. Ellis (1997)
Basic and applied aspects of seed biology : proceedings of the Fifth International Workshop on Seeds, Reading, 1995 -
D. Tekrony, D. Egli (1997)
Accumulation of Seed Vigour During Development and Maturation -
T. Hong, R. Ellis (1997)
The effect of the initial rate of drying on the subsequent ability of immature seeds of Norway maple (Acer platanoides L.) to survive rapid desiccationSeed Science Research, 7
-
R. Ellis, C. Filho (1992)
The development of seed quality in spring and winter cultivars of barley and wheatSeed Science Research, 2
-
R. Arnold, M. Fenner, P. Edwards (1991)
Changes in germinability, ABA content and ABA embryonic sensitivity in developing seeds of Sorghum bicolor (L.) Moench. induced by water stress during grain filling.The New phytologist, 118 2
-
C. Adams, M. Fjerstad, R. Rinne (1983)
Characteristics of Soybean Seed Maturation: Necessity for Slow Dehydration1Crop Science, 23
-
I. Demir, R. Ellis (1992)
Development of pepper (Capsicum annuum) seed qualityAnnals of Applied Biology, 121
-
R. Ellis, E. Roberts (1980)
Improved Equations for the Prediction of Seed LongevityAnnals of Botany, 45
-
A. Sanhewe, R. Ellis (1996)
Seed development and maturation in Phaseolus vulgaris II. Post-harvest longevity in air-dry storageJournal of Experimental Botany, 47
-
F. Hay, R. Probert (1995)
Seed maturity and the effects of different drying conditions on desiccation tolerance and seed longevity in foxglove (Digitalis purpurea L.)Annals of Botany, 76
-
A. Kermode (1990)
Regulatory mechanisms involved in the transition from seed development to germination.Critical Reviews in Plant Sciences, 9
-
C. Filho, R. Ellis (1991)
The development of seed quality in spring barley in four environments. I. Germination and longevitySeed Science Research, 1
- Publisher
- Oxford University Press
- Copyright
- © Published by Oxford University Press.
- ISSN
- 0305-7364
- eISSN
- 1095-8290
- DOI
- 10.1006/anbo.1998.0748
- Publisher site
- See Article on Publisher Site
Abstract
Irrigation of rapid-cycling brassica (Brassica campestris [rapa]L.) plants either ended 16 or 24 days after pollination (DAP) or continued throughout the experiment (control). Seeds were harvested serially from these plants during their development and maturation. The earlier irrigation to the mother plant ended, the earlier mass maturity (end of seed-filling phase) occurred, the lower the final seed dry weight, and the more rapid the decline in seed moisture content. The onset of ability to germinate normally occurred as early as 12 DAP, when seeds were less than half-filled. The onset of ability to tolerate rapid enforced desiccation (to 10% moisture content) occurred at 16 DAP. Desiccation tolerance developed within most seeds in both populations about 5 d sooner in seeds harvested from plants in which irrigation was stopped at 16 DAP than in control plants, but maximum desiccation tolerance occurred at about 28 DAP in all treatments. Survival curves (percentage normal germinationvs.period of storage) of seeds hermetically stored at 40 °C with 15% moisture content conformed to negative cumulative normal distributions, and provided a common estimate of the standard deviation of the frequency distribution of seed deaths in time for seed lots harvested at different times from the three environments (σ=4.7 d). Potential seed longevity (i.e. the constantKiof the seed viability equation) varied greatly with plant irrigation treatment and with duration from pollination. MaximumKivalues were attained 44, 36 and 32 DAP (10, 6 and 7 d after mass maturity) for seeds from control plants, or plants irrigated until 24 or 16 DAP, respectively, and declined thereafter. Maximum potential longevity was greatest (Ki=4.61) for seeds from plants where irrigation stopped 16 DAP and least (Ki=3.88) for those from plants irrigated throughout the experiment. Thus the water status of the mother plant affected seed quality development substantially: terminal drought resulted in more rapid seed quality development and also greater maximum seed quality.Copyright 1998 Annals of Botany Company
Journal
Annals of Botany – Oxford University Press
Published: Sep 1, 1998