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Physiological adaptation to subantarctic climate by the Kerguelen cabbage, Pringlea antiscorbutica R. Br.

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Summary

The Kerguelen cabbage, Pringlea antiscorbutica, is an endemic species restricted to some Subantarctic Islands, Up to now, all long term acclimatation assays of Kerguelen cabbage in the temperate zones remained unsuccessful. In the field, the Pringlea leaf relative water content (RWC) never decreased below 83%. At the same time the leaf diffusion resistance (LDR) remained low since the water flux was not limited in the plant as in these islands the soil water content is permanently high. Severe water deprivation was necessary to induce stomatal closure with excised leaves. In parallel in vitro experiments, irreversible damage to photosynthesis and respiration were observed in leaf slices under osmotic stress. These results sustain the hypothesis that Kerguelen cabbage can not support water deprivation and is probably specifically adapted to the subantarctic climate.

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Abbreviations

DMF :

N, N-Dimethylformamide

LDR :

leaf diffusion resistance

PPFD :

photosynthetic photon flux density

RWC :

relative water content

References

  • Aubert de la Rüe E (1964) Observations sur les caractéres et la répartition de la végétation des îles Kerguelen. Comité National Français des Recherches Antarctiques 1:1–60

    Google Scholar 

  • Ben GY, Osmond CB, Sharkey TD (1987) Comparisons of photosynthetic responses of Xanthium strumarium and Helianthus annuus to chronic and acute water stress in sun and shade. Plant Physiol 84:476–482

    Google Scholar 

  • Boyer JS, Bowen BL (1970) Inhibition of oxygen evolution in chloroplasts isolated from leaves with low water potential. Plant Physiol 45:612–615

    Google Scholar 

  • Chastain A (1958) La flore et la végétation des Iles de Kerguelen. Mémoire du Muséum National d'Histoire Naturelle, Paris, Série B, vol XI, pp 136

  • Conroy JP, Virgona JM, Smillie RM, Barlow EW (1988) Influence of drought acclimatation and CO2 enrichment on osmotic adjustment and chlorophyll a fluorescence of sunflower during drought. Plant Physiol 86:1108–1115

    Google Scholar 

  • Dorne AJ (1981) Etude du cycle végétatif et des premiers stades de croissance du Chou de Kerguelen. Comité National Français des Recherches Antarctiques 48:9–22

    Google Scholar 

  • Gremmen NJM (1982) The vegetation of the subantarctic islands Marion and Prince Edward, Dr. W. Junk, Publishers, The Hague, pp149

    Google Scholar 

  • Hanson AD, Hitz WD (1982) Metabolic responses of mesophytes to plant water deficits. Ann Rev PI Physiol 33:163–203

    Google Scholar 

  • Inskeep WP, Bloom PR (1985) Extinction coefficients of chlorophyll a and b in N, N-Dimethylformamide and 80% acetone. Plant Physiol 77:483–485

    Google Scholar 

  • Kaiser WM (1982) Correlation between changes in photosynthetic activity and changes in total protoplast volume in leaf tissue from hygro-, meso- and xerophytes under osmotic stress. Planta 154:538–545

    Google Scholar 

  • Kaiser WM, Schwitulla M, Wirth E (1983) Reactions in chloroplasts, cytoplasm and mitochondria of leaf slices under osmotic stress. Planta 158:302–308

    Google Scholar 

  • Kaiser WM (1984) Response of photosynthesis and dark-CO2 fixation to light, CO2 and temperature in leaf slices under osmotic stress. J Exp Bot 157:1145–1155

    Google Scholar 

  • Kaiser WM, Kaiser G, Prachuab PK, Wildman SG, Heber U (1981a) Photosynthesis under osmotic stress. Planta 153:416–422

    Google Scholar 

  • Kaiser WM, Kaiser G, Schöner S, Neimanis S (1981b) Photosynthesis under osmotic stress. Planta 153:430–435

    Google Scholar 

  • Lourteig A, Cour P (1963) Essai sur la distribution géographique des plantes vasculaires de l'archipel de Kerguelen. Comité National Français des Recherches Antarctiques 3:64–71

    Google Scholar 

  • Plaut Z (1971) Inhibition of photosynthetic carbon dioxide fixation in isolated chloroplasts exposed to reduced osmotic potential. Plant Physiol 48:591–595

    Google Scholar 

  • Schulze ED (1986) Carbon dioxide and water vapor exchange in response to drought in the atmosphere and in the soil. Ann Rev PI Physiol 37:247–274

    Google Scholar 

  • Ting IP (1982) Plant Physiology, Addison-Wesley Publishing Co., USA, pp 101–129

    Google Scholar 

  • Turner NC (1981) Techniques and experimental approaches for the measurement of plant water status. Plant and Soil 58:339–366

    Google Scholar 

  • Umbreit WW, Burris RH, Stauffer JF (1964) Manometric Techniques, 4th edn., Burgess Publishing Co., USA, pp 18–27

    Google Scholar 

  • Young SB, Schofield EK (1973) Palynological evidence for the late glacial occurrence of Pringlea and Lyallia on Kerguelen Islands. Rhodora 75, 239–2471

    Google Scholar 

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Authors and Affiliations

  1. Unité Associée au Centre National de la Recherche Scientifique N∘ 576, Laboral oire de Physiologie Cellulaire Végétale, France

    A. J. Dorne & R. Bligny

  2. Départment de Biologie Moléculaire et Structurale, Centre d'Etudes Nucléaires et Université Joseph Fourier, Grenoble, France

    A. J. Dorne & R. Bligny

Authors
  1. A. J. Dorne
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  2. R. Bligny
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Dorne, A.J., Bligny, R. Physiological adaptation to subantarctic climate by the Kerguelen cabbage, Pringlea antiscorbutica R. Br.. Polar Biol 13, 55–60 (1993). https://doi.org/10.1007/BF00236583

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  • DOI: https://doi.org/10.1007/BF00236583

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