Abstract
Cotton (Gossypium hirsutum L. cv. Deltapine 50) seedlings grown under light-dark cycles of 12:12h at 35°C showed rhythmic daily changes in chilling resistance. Chilling treatment (5°C, 48h) started at the beginning or middle of the daily light period resulted in a substantial growth inhibition of the seedlings upon return to 35°C whereas when chilling was started at the beginning or middle of the dark period the subsequent growth of the seedlings was much less inhibited. This rhythm in chilling resistance persisted under continuous light for three 24-h periods, indicating that it is of an endogenous nature. Seedlings grown under continuous light from germination showed no daily changes in resistance, but a rhythm was initiated by introduction of a dark period of 6h or longer. In 24-h cycles with different light and dark periods, maximal resistance was reached just before the start of dark period. Seedlings grown at 35°C could be acclimated to chilling by exposure to low, non-damaging temperatures (25–15°C). A short-term (6h) exposure to 25°C started at the resistant phase resulted in a large increase in resistance during the following otherwise sensitive phase. The resistance induced by the low temperature matched or slightly exceeded the maximal resistance reached during the resistant phase of the daily rhythm of chilling. The low-temperature-induced resistance and the daily rhythmic increase in resistance were not additive, indicating a common mechanism for the two kinds of resistances. An adaptive advantage of a combination of a rapid temperature-induced acclimation and the daily rhythmic increase in resistance is suggested.
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Abbreviations
- D:
-
dark
- L:
-
light
- LDC:
-
light-dark cycle of 24 h
References
Gilmour, S.J., Hajela, R.K., Thomashow, M.F. (1988) Cold acclimation inArabidopsis thaliana. Plant Physiol.87, 740–750
Graham, D., Patterson, B.D. (1982) Responses of plants to low, nonfreezing temperatures: proteins, metabolism and acclimation. Annu. Rev. Plant Physiol.33, 347–372
Guinn, G. (1971) Chilling injury in cotton seedlings: changes in permeability in cotyledons. Crop Sci.11, 101–102
King, A.I., Reid, M.S. (1987) Diurnal chilling sensitivity and desication in seedlings of tomato. J. Am. Soc. Hortic. Sci.112, 821–824
King, A.I., Reid, M.S., Patterson, B.D. (1982) Diurnal changes in the chilling sensitivity of seedlings. Plant Physiol.70, 211–214
King, A.I., Joyce, D.C., Reid, M.S. (1988) Role of carbohydrates in diurnal chilling sensitivity of tomato seedlings. Plant Physiol.86, 764–768
Kurkela, S., Frank, M., Heino, P., Lang, V., Palva, E.T. (1988) Cold induced gene expression inArabidopsis thaliana L. Plant Cell Rep.7, 415–498
Lang, V., Heino, P., Palva, E.T. (1989) Low temperature acclimation and treatment with abscisic acid induce common polypeptides inArabidopsis thaliana (L.) Heynh. Theor. Appl. Genet.77, 729–734
Levitt, J. (1980) Responses of plants to environmental stresses. I. chilling, freezing and high temperature stresses. Academic Press, New York
Rikin, A., Anderson, J.D. (1990) Rhythmic responses to hormones and herbicides in plants. In: Chronobiology: its role in clinical medicine, general biology, and agriculture, pt. B, pp. 895–903, Hayes, D.K., Pauly, J.E., Reiter, R.J., eds. Wiley-Liss, New York
Rikin, A., Gitler, C., Atsmon, D. (1981) Chilling injury in cotton (Gossyplum hirsutum L.): light requirement for reduction of injury and for the protective effect of abscisic acid. Plant Cell Physiol.22, 453–460
Rikin, A., Chalutz, E., Anderson, J.D. (1984a) Rhythmicity in ethylene production in cotton seedlings. Plant Physiol.75, 493–495
Rikin, A., St. John, J.B., Wergin, W.P., Anderson, J.D. (1984b) Rhythmical changes in the sensitivity of cotton seedlings to herbicides. Plant Physiol.76, 297–300
Rikin, A., Chalutz, E., Anderson, J.D. (1985) Rhythmicity in cotton seedlings. Rhythmic ethylene production as affected by silver ions and as related to other rhythmic processes Planta163, 227–231
Siminovitch, D. (1982) Major acclimation in living bark of 16 September black locust tree trunk sections after five weeks at 10°C in the dark—evidence for endogenous rhythm in winter hardening. In: Plant cold hardiness and freezing stress mechanisms and crop implications, vol. 2, pp. 117–128, Li, P.H., Sakai, A. eds. Academic Press, London
Wheaton, T.A., Morris, L.L. (1967) Modification of chilling sensitivity by temperature conditioning. Proc. Am. Soc. Hortic. Sci.41, 529–533
Wilson, J.M., Crawford, R.M.M. (1974a) The acclimatization of plants to chilling temperatures in relation to fatty-acid composition of leaf polar lipids. New Phytol.73, 805–820
Wilson, J.M., Crawford, R.M.M. (1974b) Leaf fatty-acid content in relation to hardening and chilling injury. J. Exp. Bot.25, 121–131
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McMillan, K.D., Rikin, A. Relationships between circadian rhythm of chilling resistance and acclimation to chilling in cotton seedlings. Planta 182, 455–460 (1990). https://doi.org/10.1007/BF02411399
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DOI: https://doi.org/10.1007/BF02411399