biologia plantarum

International journal on Plant Life established by Bohumil Nìmec in 1959

Biologia plantarum 38:95, 1996 | DOI: 10.1007/BF02879642

Photophysiology of turion formation and germination inSpirodela polyrhiza

K. -J. Appenroth1, S. Teller1, M. Horn1,2
1 Institute of General Botany, University of Jena, Jena, Germany
2 Institute of Medical Statistics, University of Jena, Jena, Germany

Standardized laboratory techniques for the vegetative growth of the duckweedSpirodela polyrhiza (Lemnaceaé), and for formation as well as germination of their turions were described. Increasing photon fluence rates of blue or red light increased the yield of turions. A specific stimulating effect of blue light was demonstrated under autotrophic but not under mixotrophic conditions. Therefore the spectral composition of light is not important in mixotrophic formation of turions whereas in autotrophic formation light sources with a higher portion of blue light are recommended. Dark-grown (etiolated) turions showed accelerated germination and higher germination percentage in comparison with light-grown turions after induction by a single red light pulse. This difference was overcome in continuous red light by speeding up the germination response of light-grown turions. Use of Petri dishes (8 cm3 nutrient solution) instead of Erlenmeyer flasks (50 cm3 nutrient solution) retarded germination response. Especially for long term experiments the use of Erlenmeyer flasks is recommended. Storage of turions for 72 h at 25 ‡C following at 5 ‡C in darkness after-ripening resulted in a decreased lag phase of the light-induced germination both after induction by a single light pulse and in continuous light.

Keywords: blue light receptor; duckweed; Lemnaceae; phytochrome

Received: January 13, 1995; Accepted: June 8, 1995; Published: March 1, 1996  Show citation

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Appenroth, K.-J., Teller, S., & Horn, M. (1996). Photophysiology of turion formation and germination inSpirodela polyrhiza. Biologia plantarum38(1), 95. doi: 10.1007/BF02879642
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    References

    1. Appenroth, K.-J.: Influence of nitrate, ammonium, and light on germination and appearance of nitrate reductase in turions. - Nova Acta Leopoldina70: 49-58, 1994.
    2. Appenroth, K.-J., Augsten, H.: Photophysiology of turion germination inSpirodela polyrhiza (L.) Schleiden. V. Demonstration of a calcium-requiring phase duripng hytochrome-mediated germination. - Photochem. Photobiol.52: 61-66, 1990a. Go to original source...
    3. Appenroth, K.-J., Augsten, H.: Zur Bedeutung der Photosynthese für den Turionenaustrieb. - Colloq. Pflanzenphysiol. Humboldt-Univ. Berlin14: 93-96, 1990b.
    4. Appenroth, K.-J., Augsten, H., Mattner, A., Teller, S., Döhler, G.: Effect of UVB irradiation on enzymes of nitrogen metabolism in turionsof Spirodela polyrhiza (L.) Schleiden. - J. Photochem. Photobiol.18: 215-220, 1993. Go to original source...
    5. Appenroth, K.-J., Augsten, H., Mohr, H.: Photophysiology of turion germination inSpirodela polyrhiza (L.) Schleiden. X. Role of nitrate in the phytochrome-mediated response. - Plant Cell Environ.15: 743-748, 1992. Go to original source...
    6. Appenroth, K.-J., Bergfeld, R.: Photophysiology of turion germination inSpirodela polyrhiza (L.) Schleiden. XI. Structural changes during red light induced responses. - J. Plant Physiol.141: 583-588, 1993. Go to original source...
    7. Appenroth, K.-J., Dathe, W., Hertel, W., Augsten, H.: Photophysiology of turion germination inSpirodela polyrhiza (L.) Schleiden. VII. Action of jasmonic acid. - J. Plant Physiol.138: 345-349, 1991. Go to original source...
    8. Appenroth, K.-J., Dürr, S., Gabrys, H., Scheuerlein, R.: No regulation of45calcium-uptake or release by phytochrome as an essential step in the transduction chain. - Plant Physiol. Biochem.32: 429-435, 1994.
    9. Appenroth, K.-J., Hertel, W., Augsten, H.: Phytochrome control of turion formation inSpirodela polyrhiza.- Ann. Bot.66: 163-168, 1990a. Go to original source...
    10. Appenroth, K.-J., Hertel, W., Augsten, H.: Photophysiology of turion germination inSpirodela polyrhiza (L.) Schleiden. The cause of germination inhibition by overcrowding. - Biol. Plant.32: 420-428, 1990b. Go to original source...
    11. Appenroth, K.-J., Hertel, W., Jungnickel, F., Augsten, H.: Influence of nutrient deficiency and light on turion formation inSpirodela polyrhiza (L.) Schleiden. - Biochem. Physiol. Pflanz.184: 395-403, 1989a. Go to original source...
    12. Appenroth, K.-J., Opfermann, J., Hertel, W., Augsten, H.: Photophysiology of turion germination inSpirodela polyrhiza (L.) Schleiden. II. Influence of after-ripening on germination kinetics. - J. Plant Physiol.135: 274-279, 1989b. Go to original source...
    13. Armstrong, J.S., Hemmerich, P., Traber, R.: Flavin sensitized photooxidation of (poly)amino acids: Fate of the photosubstrate. - Photochem. Photobiol.35: 747-751, 1982. Go to original source...
    14. Augsten, H., Kunz, E., Appenroth, K.-J.: Photophysiology of turion germination inSpirodela polyrrhiza (L.) Schleiden. I. Phytochrome-mediated responses of light- and dark-grown turions. - J. Plant Physiol.132: 90-93, 1988. Go to original source...
    15. Bornkamm, R.: Die Rolle des Oxalats im Stoffwechsel höherer grüner Pflanzen. - Flora156: 139-172, 1965. Go to original source...
    16. Das, R.R., Gopal. B.: Vegetative propagation inSpirodela polyrhiza. - Trop. Ecol.10: 270-277, 1969.
    17. Guppy, H.-B.: On the habits ofLemna minor, Lemna gibba andLemna polyrrhiza. - J. Linn. Soc. Bot.30: 323-330, 1895. Go to original source...
    18. Horn, M., Hothorn, L.: Grundlagen der Statistik für Toxikologen. Vol. 5. - Verlag Gesundheit, Berlin 1990.
    19. Jacobs, D.L.: An ecological life-history ofSpirodela polyrrhiza (greater duckweed) with emphasis on the turion phase. - Ecol. Monogr.17: 437-469, 1947. Go to original source...
    20. Jungnickel, F.: Phosphatbedarf und Mangelsymptome bei einigen axenisch kultivierten Lemnaceen. - Limnologica11: 469-478, 1978. Go to original source...
    21. Jungnickel, F., Augsten, H.:Spirodela polyrhiza - ein Biotest-System zur Erfassung phytoaktiver Substanzen. -Wiss. Z. Friedrich-Schiller-Univ. Jena, naturwiss. R.35: 613-629, 1986.
    22. Lacor, M.A.M.: On the influence of gibberellic acid and kinetin on the germination of turions ofSpirodela polyrhiza (L.) Schieiden. - Acta bot. neerl.18: 550-557, 1969. Go to original source...
    23. Landolt, E.: The Family ofLemnaceae - A Monographic Study. Vol.1. Biosystematic Investigations in the Family of Duckweeds (Lemnaceae). - Veröff. Geobot. Inst. ETH, Stiftung Rubel, Zürich 1986.
    24. Landolt, E., Kandeler, R.: The Family ofLemnaceae - A Monographic Study. Vol.2. Biosystematic Investigations in the Family of Duckweeds (Lemnaceae). - Veröff. Geobot. Inst. ETH, Stiftung Rübel, Zürich 1987.
    25. Linné, C., von: Mantissa Plantarum (Stockholm)2: 294, 1771.
    26. Malek, L., Cossins, E.: The effect of red and blue light on turion production. - Plant Physiol.63: 156, 1979.
    27. Malek, L., Cossins, E.: Senescence, turion development, and turion germination in nitrate- and sulfate-deficientSpirodela polyrhiza. Relationship between nutrient availability and exogenous cytokinins. - Can. J. Bot.61: 1887-1897, 1983. Go to original source...
    28. Mohr, H., Drumm-Herrel, H.: Interaction between blue/UV light and light operating through phytochrome in higher plants. -In: Smith, H. (ed.): Plants and the Daylight Spectrum. Pp. 423-441. Academic Press, London 1981.
    29. Newton, R.J., Shelton, D.R., Disharoon, S., Duffey, J.E.: Turion formation and germination inSpirodela polyrhiza. - Amer. J. Bot.65: 421-428, 1978. Go to original source...
    30. Perry, T.O.: Dormancy, turion formation, and germination by different clones ofSpirodela polyrrhiza. - Plant Physiol.43: 1866-1869, 1968. Go to original source...
    31. Sibasaki, T, Oda, Y.: Heterogeneity of dormancy in the turions ofSpirodela polyrrhiza. - Plant Cell Physiol.20: 563-571, 1979.
    32. Smart, C.C., Longland, J., Trewavas, A.J.: The turion: a biological probe for the molecular action of abscisic acid. - In: Fox, J.E., Jacobs, M. (ed.): Molecular Biology of Plant Growth Control. Pp. 345-359. Alan Liss, New York 1987.
    33. Smart, C.C., Trewavas, A.J.: Abscisic acid-induced turion formation inSpirodela polyrrhiza L. I. Production and development of the turion. - Plant Cell Environ.6: 507-514, 1983. Go to original source...
    34. Teller, S., Appenroth, K.-J.: The appearance of glutamine synthctase in turions ofSpirodela polyrhiza (L.) Schleiden as regulated by blue and red light, nitrate and ammonium. - J. exp. Bot.45: 1219-1226, 1994. Go to original source...
    35. Xyländer, M., Augsten, H., Appenroth, K.-J.: Influence of nickel on the life cycle of the duckweedSpirodela polyrhiza (L.) Schleiden. - J. Plant Physiol.142: 208-213, 1993. Go to original source...

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