Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-30T15:58:14.477Z Has data issue: false hasContentIssue false

A search for pattern and from

Published online by Cambridge University Press:  22 February 2007

Eric H. Roberts*
Affiliation:
Department of Agriculture, University of Reading, Earley Gate, P.O. Box 236, Reading RG6 6AT, UK
*
*Correspondence Fax: (0118) 935–2421 Email: [email protected]

Abstract

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Personal View
Copyright
Copyright © Cambridge University Press 1999

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

Abdalla, F.H. and Roberts, E.H. (1968) The effects of temperature, moisture and oxygen on the induction of chromosome damage in seeds of barley, broad beans, and peas during storage. Annals of Botany 32, 119136.Google Scholar
Abdalla, F.H. and Roberts, E.H (1969) The effects of temperature and moisture on the induction of genetic changes in seeds of barley, broad beans and peas during storage Annals of Botany 33, 153167.Google Scholar
Barlow, H.B. (1983) Intelligence, guesswork, language. Nature 304, 207209.Google Scholar
Black, M. and Richardson, M. (1965) Promotion of germination in light requiring seed by chloramphenicol. Nature 208, 11141115.Google Scholar
Black, M. and Richardson, M. (1967) Germination of lettuce seed induced by inhibitors of protein synthesis. planta 73, 344356.Google Scholar
Carmona, R. and Murdoch, A.H. (1995) Interactions of temperature and dormancy-relieving compounds on the germination of weed seeds. Seed Science Research 5, 227236.Google Scholar
Carpenter, A.J. and Roberts, E.H. (1962) Some useful techniques in speeding up rice-breeding programmes. Empire Journal of Experimental Agriculture 30, 127131.Google Scholar
Collinson, S.T., Ellis, R.H., Summerfield, R.J. and Roberts, E.H. (1992) Durations of the photoperiod-sensitive and photoperiod-insensitive phases of development to flowering in four cultivars of rice (Oryza sativa L.). Annals of Botany 70, 339346.Google Scholar
Cromarty, A.S., Ellis, R.H. and Roberts, E.H. (1982) The design of seed storage facilities for genetic conservation. Rome, Italy, International Board for Plant Genetic Resouces.Google Scholar
Dickie, J.B., Ellis, R.H., Kraak, H.L., Ryder, K. and Tompsett, P.B. (1990) Temperature and seed storage longevity. Annals of Botany 65, 197204.Google Scholar
Edwards, A. (1989) Venn diagrams for many sets. New Scientist 121, 5156.Google Scholar
Ellis, R.H. (1998) Longevity of seeds stored hermetically at low moisture contents. Seed Science Research 8(Supplement 1), 910.Google Scholar
Ellis, R.H. and Hong, T.D. (1995) Seed quality: seed development and storage, pp 8092in Yappa, A.C. (Ed) Proceedings of the international symposium on recent advances tropical seed technology and planting stock production. Thailand, Haad Yai, ASEAN Forest Tree Seed Centre.Google Scholar
Ellis, R.H. and Roberts, E.H. (1980a) Improved equations for the prediction of seed longevity. Annals of Botany 45, 1330.Google Scholar
Ellis, R.H. and Roberts, E.H. (1980b) The influence of temperature and moisture content on seed viability period in barley (Hordeum distichum L.). Annals of Botany 45, 3137.Google Scholar
Ellis, R.H. and Roberts, E.H. (1980c) Towards a rational basis for testing seed quality. pp 605635in Hebblethwaite, P.D. (Ed) Seed production. London, Butterworth.Google Scholar
Ellis, R.H., Hong, T.D. and Roberts, E.H. (1985) Handbook of seed technology for genebanks. Rome, Italy, International Board for Plant Genetic Resources.Google Scholar
Ellis, R.H. and Roberts, E.H. (1981) The quantification of ageing and survival in orthodox seeds. Seed Science and Technology 9, 373409.Google Scholar
Ellis, R.H., Hong, T.D. and Roberts, E.H. (1983) Procedures for the safe removal of dormancy from rice seed. Seed Science and Technology 11, 77112.Google Scholar
Ellis, R.H., Hong, T.D. and Roberts, E.H. (1990a) An intermediate category of seed storage behaviour? I.Coffee. Journal of Experimental Botany 41, 11671174.Google Scholar
Ellis, R.H., Hong, T.D., Roberts, E.H. and Soetisna, U. (1990b) Seed storage behaviour in Elaeis guineensis. Seed Science Research 1, 99104.Google Scholar
Ellis, R.H., Hong, T.D. and Roberts, E.H. (1991a) An intermediate category of seed storage behaviour. II.Effects of provenance, immaturity, and imbibition on desiccation-tolerance in coffee. Journal of Experimental Botany 42, 653657.Google Scholar
Ellis, R.H., Hong, T.D. and Roberts, E.H. (1991b) Effects of storage temperature and moisture on the germination of papaya seeds. Seed Science Research 1, 6972.Google Scholar
Fry, R. (1920) Vision and design. London, Chatto & Windus.Google Scholar
Hay, F.R., Probert, R.J. and Smith, R.D. (1997) The effect of maturity on the moisture relations of seed longevity in foxglove (Digitalis purpurea L.). Seed Science and Technology 7, 341349.Google Scholar
Heath, O.V.S. (1970) Investigation by experiment. London, Edward Arnold.Google Scholar
Hong, T.D. and Ellis, R.H. (1990) A comparison of maturation drying, germination, and desiccation tolerance between developing seeds of Acer pseudoplatanus L. and Acer platanoides L. New Phytologist 116, 589596.Google Scholar
Hong, T.D. and Ellis, R.H. (1996a) A protocol to determine seed storage behaviour. Rome, International Plant Genetic Resources Institute.Google Scholar
Hong, T.D. and Ellis, R.H. (1996b) Ex situ biodiversity conservation by seed storage: multiple-criteria keysto estimate seed storage behaviour. Seed Science and Technology 25, 157161.Google Scholar
Khah, E.M., Ellis, R.H. and Roberts, E.H. (1986) Effects of laboratory germination, soil temperature and moisture content on the emergence of spring wheat. Journal of Agricultural Science,Cambridge 107, 431438.Google Scholar
Khah, E.M., Roberts, E.H. and Ellis, R.H. (1989) Effects of seed ageing on the growth and yield of spring wheat at different plant-population densities. Field Crops Research 20, 175190.Google Scholar
Larsen, A.L. and Skaags, D.P. (1969). Crambe seed germination response on a thermogradient plate. Proceedings of the Association of Official Seed Analysts 59, 4450.Google Scholar
Major, W and Roberts, E.H. (1968a) Dormancy in cereal seeds. I. The effects of oxygen and respiratory inhibitors. Journal of Experimental Botany 19, 7789.Google Scholar
Major, W. and Roberts, E.H. (1968b) Dormancy in cereal seeds. II. Thenature of the gaseous exchange in imbibed barley and rice seeds. Journal of Experimental Botany 19, 90101.Google Scholar
Murata, M., Roos, E.E. and Tsuchiya, T. (1979) Relationship between loss of germinability and the occurrence of chromosomal aberrations in artificially aged seeds of barley. Barley Genetics Newsletter 9, 6567.Google Scholar
Murata, M., Roos, E.E. and Tsuchiya, T. (1981) Chromosome damage induced by artificial aging in barley. I. Germinability and frequency of aberrant anaphases at first mitoses. Canadian Journal of Genetics and Cytology 23, 267280.Google Scholar
Murdoch, A.J. (1998) Dormancy cycles of weed seeds in soil. Aspects of Applied Biology 51, 119126.Google Scholar
Murdoch, A.J., Roberts, E.H. and Goedert, C.O. (1989) A model for germination responses to alternating temperatures. Annals of Botany 63, 97111.Google Scholar
Rao, N.K. and Roberts, E.H. (1989) Seed ageing and meiotic chromosomal abnormalities in lettuce. Cytologia 54, 373379.Google Scholar
Rao, N.K., Roberts, E.H. and Ellis, R.H. (1987) Loss of viability in lettuce seeds and the accumulation of chromosome damage under different storage conditions. Annals of Botany 60, 8596.Google Scholar
Rao, N.K., Roberts, E.H. and Ellis, R.H. (1988) A comparison of the quantitative effects of seed moisture content and temperature on the accumulation of chromosome damage and loss of seed viability in lettuce. Annals of Botany 62, 245248.Google Scholar
Richards, F.J. (1941) The diagrammatic representation of the results of the physiological and other experimentsdesigned factorially. Annals of Botany 5, 249261.Google Scholar
Roberts, E.H. (1960) The viability of cereal seed in relation to temperature and moisture. Annals of Botany 24, 1231.Google Scholar
Roberts, E.H. (1961a) Dormancy in rice seed. I. Distribution of dormancy periods. Journal of Experimental Botany 12, 319329.Google Scholar
Roberts, E.H. (1961b) Viability of cereal seed for brief and extendedperiods. Annals of Botany 25, 373380.Google Scholar
Roberts, E.H. (1961c).The viability of rice seedin relation to temperature, moisture content, and gaseous environment. Annals of Botany 25, 381390.Google Scholar
Roberts, E.H. (1961d) Dormancy in rice seed. II.Influence of covering structures. Journal of Experimental Botany 12, 430445.Google Scholar
Roberts, E.H. (1962a) Design of some inexpensivegrowth chambers for growing rice plants to maturity under controlled light and temperature in the tropics. Journal of AgriculturalEngineering Research 7, 316319.Google Scholar
Roberts, E.H. (1962b) Dormancy in rice seed. III. The influence of temperature, moisture, and gaseous environment. Journal of Experimental Botany 13, 7594.Google Scholar
Roberts, E.H. (1963a).The effects of inorganicions on dormancy in rice seed. Physiologia Plantarum 16, 732744.Google Scholar
Roberts, E.H. (1963b) The effects of some organic growth substances and organic nutrients in dormancy of rice seed. Physiologia Plantarum 16, 745755.Google Scholar
Roberts, E.H. (1964a) The distribution of oxidationreduction enzymes and the effects of respiratory inhibitors and oxidising agents on dormancy in rice seed. Physiologia Plantarum 17, 1429.Google Scholar
Roberts, E.H. (1964b) A survey of the effects of chemical treatments on dormancy in rice seed. Physiologia Plantarum 17, 3043.Google Scholar
Roberts, E.H. (1965) Dormancy in rice seed. IV. Varietal responses to storage and germination temperatures. Journal of Experimental Botany 16, 341349.Google Scholar
Roberts, E.H. (1969) Seed dormancy and oxidation processes. Symposium of the Society of Experimental Biology 23, 161192.Google Scholar
Roberts, E.H. (1973a) Predicting the storage life of seeds. Seed Science and Technology 1, 499514.Google Scholar
Roberts, E.H. (1973b) Oxidative processes and the control of seed germination. pp 189218 in Heydecker, W. (Ed) Seed ecology. London, Butterworths.Google Scholar
Roberts, E.H. (1981) The interaction of environmental factors controlling loss of dormancy in seeds. Annals of Applied Biology, 98, 552555.Google Scholar
Roberts, E.H. (1986) Quantifying seed deterioration. pp 101123, McDonald, M.B. Jr; Nelson, C.J. (Eds) Physiology of seed deterioration. Madison, USA, Crop Science Societyof America..Google Scholar
Roberts, E.H. (1988). Seed aging: The genome and its expression. pp 465498 in Noodén, L.D., Leopold, A.C. (Eds) Senescence and aging in plants. New York, Academic Press.Google Scholar
Roberts, E.H. (1991) How do crops know when to flower? The importance of daylength and temperature. BiologicalSciences Review 3 (4), 27.Google Scholar
Roberts, E.H. and Carpenter, A.J. (1962) Flowering response of rice to different photoperiods of uniform daily amounts of light radiation. Nature 196, 10771078.Google Scholar
Roberts, E.H. and Carpenter, A.J. (1965) The interaction of photoperiod and temperature on the flowering response of rice. Annals of Botany 29, 359364.Google Scholar
Roberts, E.H. and Ellis, R.H. (1977) Prediction of seed longevity at sub-zero temperatures and genetic resources conservation. Nature 268, 431433.Google Scholar
Roberts, E.H. and Ellis, R.H. (1982) Physiological, ultrastructural and metabolic aspects of seed viability.pp 465485 in Khan, A.A. (Ed) The physiology and biochemistry of seed development, dormancy and germination. Amsterdam, Elsevier Biomedical Press.Google Scholar
Roberts, E.H. and Ellis, R.H. (1989) Water and seed survival. Annals of Botany 63, 3952.Google Scholar
Roberts, E.H. and Smith, R.D. (1977) Dormancy and the pentose phosphate pathway. pp 385411 in Khan, A.A. (Ed) The physiology and biochemistry of seed dormancy and germination. Amsterdam, Netherlands, North Holland Publishing Co.Google Scholar
Roberts, E.H., Craufurd, R.Q. and Le Cochec, F. (1961) Estimation of percentage natural cross-pollination:experiments on rice. Nature 190, 10841085.Google Scholar
Roberts, E.H., Abdalla, F.H. and Owen, R.J. (1967) Nucleardamage and the ageing of seeds. Symposium of the Society of Experimental Biology 21, 65100.Google Scholar
Roberts, E.H. and Totterdell, S. (1981) Seed dormancy in Rumex species in response to environmental factors.Plant, Cell and Environment 4, 97106.Google Scholar
Roberts, E.H., Murdoch, A.J. and Ellis, R.H. (1987) The interaction of environmental factors on seed dormancy. pp 687694 in Proceedings of the British crop protection conference, weeds. Thornton Heath, Surrey, British Crop Protection Council Publications.Google Scholar
Roberts, E., Summerfield, R., Ellis, R. and Qi, A. (1993) Adaptation of flowering in crops to climate. Outlook on Agriculture 22, 105110.Google Scholar
Roberts, E.H., Qi, A., Ellis, R.H., Summerfield, R.J., Lawn, R.J. and Shanmugasundaram, S. (1996) Use of field observations to characterizegenotypic flowering responses to photoperiod and temperature: a soya-bean exemplar. Theoretical and Applied Genetics 93, 519533.Google Scholar
Roberts, E.H., Summerfield, R.J. and Ellis, R.H. (1997a) Reproductive development and crop adaptation. Journal of Biological Education 31(2), 97105.Google Scholar
Roberts, E.H., Summerfield, R.J., Ellis, R.H., Craufurd, P.Q. and Wheeler, T.R. (1997b) The induction of flowering.pp 6999 in Wien, H.C. (Ed) The physiology of vegetable crops. Wallingford, UK, CAB International.Google Scholar
Summerfield, R.J., Collinson, S.T., Ellis, R.H., Roberts, E.H. and Penning de Vries, F.W.T. (1992) Photothermal responses of flowering in rice (Oryza sativa ). Annals of Botany 69, 101112.Google Scholar
Summerfield, R.J., Lawn, R.J., Qi, A., Ellis, R.H., Roberts, E.H., Chay, P.M., Brouwer, J.B., Rose, J.L., Shanmugasundaram, S., Yeates, S.J. and Sandover, S. (1993) Towards the reliable prediction of time to flowering in six annual crops. II. Soyabean (Glycine max). Experimental Agriculture 29, 253289.Google Scholar
Summerfield, R.J., Ellis, R.H., Craufurd, P.Q., Aiming, Q., Roberts, E.H. and Wheeler, T.R. (1997) Environmental and genetic regulation of flowering of tropical annual crops. Euphytica 96, 8391.Google Scholar
Tompsett, P.B. (1984a) Desiccation studies in relation to storage of Araucaria seed. Annals of Applied Biology 105, 581586.Google Scholar
Tompsett, P.B. (1984b) The effect of moisture content and temperatureon the seed storage life of Araucaria columnaris. Seed Science and Technology 12, 801816.Google Scholar
Upadhyay, A.P., Ellis, R.H., Summerfield, R.J., Roberts, E.H. and Qi, A. (1994) Characterization of photothermal flowering responses in maturity isolines of soyabean [Glycine max (L.) Merrill] cv Clark. Annals of Botany 74, 8796.Google Scholar
Vincent, E.M. and Roberts, E.H. (1977) The interaction of light, nitrate and alternating temperature in promoting the germination of dormant seeds of common weed species. Seed Science and Technology 5, 659670.Google Scholar
Walters, C. (1998) Ultra-dry technology: perspective from the National Seed Storage Laboratory, USA. Seed Science Research 8 (Supplement 1), 1114.Google Scholar
Wesson, G. and Wareing, P.F. (1969) The induction of light sensitivity in weed seeds by burial. Journal of Experimental Botany 20, 414425.Google Scholar