[en] Plants of Lolium temulentum L. strain Ceres were grown in 8-h short day (SD) for 45 d before being exposed either to a single long day (LD) or to a single 8-h SD given during an extended dark period. For LD induction, the critical photoperiod was between 12 and 14 h, and more than 16 h were needed for a maximal flowering response. During exposure to a single 24-h LD, the translocation of the floral stimulus began between the fourteenth and the sixteenth hours after the start of the light period, and was completed by the twenty-fourth hour. Full flowering was also induced by one 8-h SD beginning 4 or 28 h after the start of a 40-h dark period, i.e. by shifting 12 h forward or beyond the usual SD. The effectiveness of a so-called 'displaced short day' (DSD) was not affected by light quality and light intensity. With a mixture of incandescent and fluorescent lights at a total photosynthetic photon flux density of 400 µmol m-2 s-1, a 4-h light exposure beginning 4 h after the start of a 40-h dark period was sufficient to induce 100 flowering. The flower-inducing effect of a single 8-h DSD was also assessed during a 64-h dark period. Results revealed two maxima at a 20-h interval. This fluctuation in light sensitivity suggests that a circadian rhythm is involved in the control of flowering of L. temulentum.
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Bibliography
Bemier G., Kinet J.‐M., Sachs R.M. The Physiology of Flowering , CRC Press, Boca Raton, FL; 1981, 1.
Blaney L.T., Hamner K.C. (1957) Interrelations among effects of temperature, photoperiod, and dark period on floral initiation of Biloxi soybean. Botanical Gazette 119:10-24.
Bünsow R.C. (1960) The circadian rhythm of photoperiodic responsiveness in Kalanchoe. Cold Spring Harbor Symposia on Quantitative Biology 25:257-260.
Carpenter B.H., Hamner K.C. (1963) Effect of light quality on rhythmic flowering response of Biloxi soybean. PLANT PHYSIOLOGY 38:698-703.
Carr D.J. (1952) The photoperiodic behaviour of short‐day plants. Physiologia Plantarum 5:70-84.
Claes H., Lang A. (1947) Die blütenbildung von Hyoscyamus niger in 48‐stündigen licht‐dunkel‐zyklen und in zyklen mit aufgeteilten lichtphasen. Zeitschrift für Naturforschung 2 b:56-63.
Coulter M.W., Hamner K.C. (1964) Photoperiodic flowering response of Biloxi soybean in 72‐h cycles. PLANT PHYSIOLOGY 39:848-856.
Cumming B.G., Hendricks S.B., Borthwick H.A. (1965) Rhythmic flowering responses and phytochrome changes in a selection of Chenopodium rubrum. Canadian Journal of Botany 43:825-853.
Deitzer G.F. (1984) Photoperiodic induction in long‐day plants. Light and the Flowering Process , D. Vince‐Prue, B. Thomas, K.E. Cockshull, Academic Press, London; 51-63.
Deitzer G.F., Hayes R., Jabben M. (1979) Kinetics and time dependence of the effect of far red light on the photoperiodic induction of flowering in Wintex barley. PLANT PHYSIOLOGY 64:1015-1021.
El Toukhi Fouda M., Greppin H. (1989) G‐6‐PDH et evocation florale. Saussurea 19:141-146.
Engelmann W. (1960) Endogene rhythmik und photoperiodische blühinduktion bei Kalanchoe. Planta 55:496-511.
Evans L.T. (1958) Lolium temulentum L., a long‐day plant requiring only one inductive photocycle. Nature 182:197-198.
Evans L.T. (1969) Lolium temulentum L. The Induction of Flowering , L.T. Evans, Macmillan, Melbourne; 328-349.
Evans L.T. (1976) Inflorescence initiation in Lolium temulentum L. XIV. The role of phytochrome in long day induction. Australian Journal of Plant Physiology 3:207-217.
Evans L.T., Borthwick H.A., Hendricks S.B. (1965) Inflorescence initiation in Lolium temulentum L. VII. Spectral dependence of induction. Australian Journal of Biological Sciences 18:745-762.
Evans L.T., King R.W. (1985) Lolium temulentum L. Handbook of Flowering , A.H. Halevy, C.R.C. Press, Boca Raton, FL; 3:306-323.
Heide O.M. (1977) Photoperiodism in higher plants: an interaction of phytochrome and circadian rhythms. Physiologia Plantarum 39:25-32.
Holland R.W.K., Vince D. (1971) Floral initiation in Lolium temulentum L.: the role of phytochrome in the responses to red and far‐red light. Planta 98:232-243.
Hsu J.C.S., Hamner K.C. (1967) Studies on the involvement of an endogenous rhythm in the photoperiodic response of Hyoscyamus niger. PLANT PHYSIOLOGY 42:725-730.
Kinet J.‐M. (1972) Sinapis alba, a plant requiring a single long day or a single short day for flowering. Nature 236:406-407.
Kinet J.‐M., Bernier G., Bodson M., Jacqmard A. (1973) Circadian rhythms and the induction of flowering in Sinapis alba. PLANT PHYSIOLOGY 51:598-600.
King R.W., Evans L.T. (1991) Shoot apex sugars in relation to long‐day induction of flowering in Lolium temulentum L. Australian Journal of Plant Physiology 18:121-135.
Lane H.C., Cathey H.M., Evans L.T. (1965) The dependence of flowering in several long‐day plants on the spectral composition of light extending the photoperiod. American Journal of Botany 52:1006-1014.
Lumsden P.J. (1991) Circadian rhythms and phytochrome. Annual Review of Plant Physiology and Plant Molecular Biology 42:351-371.
Melchers G. (1956) Die beteiligung der endonomen tagesrhythmik am zustandekommen der photoperiodischen reaktionen der kurztagpflanze Kalanchoe. Zeitschrift für Naturforschung 11 b:544-548.
Périlleux C., Bernier G., Kinet J.‐M. (1991) Reproductive development in Lolium temulentum L.‐ Spike morphogenesis and grain set limitations. Journal of Experimental Botany 42:501-507.
Shibata O., Takimoto A. (1975) Flowering response of Lemna perpusilla 6746 to a single dark period. Plant Cell Physiology 16:513-519.
Takimoto A., Hamner K.C. (1964) Effect of temperature and preconditioning on photoperiodic response of Pharbitis nil. PLANT PHYSIOLOGY 39:1024-1030.
Thomas B. (1991) Phytochrome and photoperiodic induction. Physiologia Plantarum 81:571-577.
Vince D. (1965) The promoting effect of far‐red light on flowering in the long‐day plant Lolium temulentum. Physiologia Plantarum 18:474-482.
Vince‐Prue D. Photoperiodism in Plants, McGraw‐Hill, London; 1975.
Wareing P.F. (1954) Experiments on the ‘light‐break’ effect in short‐day plants. Physiologia Plantarum 7:157-172.
Wellensiek S.J. (1984) The effects of periodic dark interruptions in long photoperiods on floral induction in the long‐day plants Silene armeria L., annual Lunaria annua L. and Samolus parviflorus Raf. Journal of Plant Physiology 117:257-265.
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