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  • Arora R., Pitchay D.S., Bearce B.C. (1998) Water-stress-induced heat tolerance in Geranium leaf tissues: a possible linkage through stress proteins? Physiologia Plantarum 103, 24 34.
  • Ball M.C., Hodges V.S., Laughlin G.P. (1991) Cold-induced photoinhibition limits regeneration of snow gum at tree-line. Functional Ecology 5, 663 668.
  • Barcikowski W. & Nobel P.S. (1984) Water relations of cacti during desiccation: distribution of water in tissues. Botanical Gazette 145 (1), 110 115.
  • Beck E., Senser W., Scheibe R., Steiger H.M., Pongratz P. (1982) Frost avoidance and freezing tolerance in Afroalpine ‘giant rosette’ plants. Plant, Cell and Environment 5, 215 222.
  • Biebl R. & Mair R. (1969) Tageslänge und Temperaturresistenz. Österreichische Botanische Zeitschrift 117, 176 194.
  • Björkman O. & Powles S.B. (1984) Inhibition of photosynthetic reactions under water stress: interaction with light level. Planta 161, 490 504.
  • Boyer J.S., Armond P.A., Sharp R.E. (1987) Light stress and leaf water relations. In Photoinhibition (eds D.J. Kyle, C.B. Osmond & C.J. Arntzen), pp. 25 37. Elsevier Science Publishers, Amsterdam.
  • Cornic G., LeGouallec J.L., Briantais J.-M., Hodges M. (1989) Effect of dehydration and high light on photosynthesis of two C3 plants (Phaseolus vulgaris L. and Elatostema repens (Lour.) Hall F.). Planta 177, 84 90.
  • Epron D. (1997) Effects of drought on photosynthesis and on the thermotolerance of photosystem II in seedlings of cedar (Cedrus atlantica and C. libani). Journal of Experimental Botany 48, 1835 1841.
  • Epron D., Dreyer E., Bréda N. (1992) Photosynthesis of oak trees [Quercus petraea (Matt.) Liebl.] during drought under field conditions: diurnal course of net CO2 assimilation and photochemical efficiency of photosystem II. Plant, Cell and Environment 15, 809 820.
  • Forseth I. & Ehleringer J.R. (1980) Solar tracking response to drought in a desert annual. Oecologia 44, 159 163.
  • Gamon J.A. & Pearcy R.W. (1990) Photoinhibition in Vitis californica: interactive effects of sunlight, temperature and water status. Plant, Cell and Environment 13, 267 275.
  • Gauslaa Y. (1984) Heat resistance and energy budget in different Scandinavian plants. Holarctic Ecology 7, 1 78.
  • Havaux M. (1992) Stress tolerance of photosystem II in vivo. Antagonistic effects of water, heat and photoinhibition stresses. Plant Physiology 100, 424 432.
  • Hedberg O. (1964) Features of Afroalpine plant ecology. In Acta Phytogeogr. Suec. 49. Almquist and Wiksells, Uppsala.
  • Hedberg I. & Hedberg O. (1979) Tropical-alpine life-forms of vascular plants. Oikos 33, 297 307.
  • Hirata M., Ishii R., Kumura A., Murata Y. (1983) Photoinhibition of photosynthesis in soybean leaves. II. Leaf orientation-adjusting movement as a possible avoiding mechanism of photoinhibition. Japanese Journal of Crop Science 52, 314 318.
  • Jones M.M., Turner N.C., Osmond C.B. (1981) Mechanisms of drought resistance. In The Physiology and Biochemistry in Drought Resistance in Plants (eds L.G. Paleg & D. Aspinall), pp. 14 37. Academic Press Australia, Sydney.
  • Kjelvik S. (1976) Varmeresistens og Varmeveksling for noen planter, vesentlig fa Hardangervidda. Blyttia 34, 211 226.
  • Körner C. (1994) Impact of atmospheric changes on high mountain vegetation. In Mountain Environments in Changing Climates (ed. M. Beniston), pp. 155 166. Routledge, London, New York.
  • Körner C. & Cochrane P. (1983) Influence of plant physiognomy on leaf temperature on clear midsummer days in the Snowy Mountains, south-eastern Australia. Oecologia Plantarum 4 (18), 117 124.
  • Körner C. & Larcher W. (1988) Plant life in cold climates. In Plants and Temperature (eds S. Long & F.I. Woodward), pp. 25 57. Comp. Biol. Ltd., Cambridge.
  • Larcher W. (1975) Pflanzenökologische Beobachtungen in der Paramostufe der venezolanischen Anden. Österreichische Akademie der Wissenschaften Mathematisch-Naturwissenschaftliche Klasse 11, 1 20.
  • Larcher W. (1995) Physiological Plant Ecology, 3rd edn. Springer, Berlin.
  • Larcher W. & Wagner J. (1976) Temperaturgrenzen der CO2-Aufnahme und Temperaturresistenz der Blätter von Gebirgspflanzen im vegetativen Zustand. Oecologia Plantarum 11, 361 374.
  • Larcher W. & Wagner J. (1983) Ökologischer Zeigerwert und physiologische Konstitution von Sempervivum montanum. Verhandlungen der Gesellschaft für Ökologie 1, 253 264.
  • Lebkuecher J.G. & Eickmeier G. (1993) Physiological benefits of stem curling for resurrection plants in the field. Ecology 74 (4), 1073 1080.
  • Long S.P., Humphries S., Falkowski P.G. (1994) Photoinhibition of photosynthesis in nature. Annual Review of Plant Physiology and Plant Molecular Biology 45, 633 662.
  • Ludlow M.M. & Björkman O. (1984) Paraheliotropic leaf movement in Siatra as a protective mechanism against drought-induced damage to primary photosynthetic reactions: damage by excessive light and heat. Planta 161, 505 518.
  • Meinzer F.C., Goldstein G.H., Rundel P.W. (1985) Morphological changes along an altitude gradient and their consequences for an Andean giant rosette plant. Oecologia 65, 278 283.
  • Melcher P.J., Goldstein G., Meinzer F.C., Minyard B., Giambelluca T.W., Loope L.L. (1994) Determinants of thermal balance in the Hawaiian giant rosette plant, Argyroxiphium sandwicense. Oecologia 98, 412 418.
  • Neuner G., Ambach D., Aichner K. (1999) Impact of snow cover on photoinhibition and winter desiccation in evergreen Rhododendron ferrugineum L. leaves during subalpine winter. Tree Physiology 19, 725 732.
  • Powles S.B. (1984) Photoinhibition of photosynthesis induced by visible light. Annual Review of Plant Physiology 35, 15 44.
  • Reisigl H. & Pitschmann H. (1958) Obere Grenzen von Flora und Vegetation in der Nivalstufe der Zentralen Ötztaler Alpen (Tirol). Vegetatio 8, 94 129.
  • Ryel R.J. & Beyschlag W. (1995) Benefits associated with steep foliage orientation in two tussock grasses of the American intermountain west. A look at water-use-efficiency and photoinhibition. Flora 190 (3), 251 260.
  • Sapper I. (1935) Versuche zur Hitzeresistenz der Pflanzen. Planta 23, 518 556.
  • Schäfer C. & Lüttge U. (1987) Water translocation in Kalanchoe daigremontiana during periods of drought. Plant, Cell and Environment 10, 761 766.
  • Schmidt J.E. & Kaiser W.M. (1987) Response of the succulent leaves of Peperomia magnoliaefolia to dehydration. Plant Physiology 83, 190 194.
  • Schröter C. (1926) Das Pflanzenleben der Alpen. Raustein, Zürich.
  • Schulte P.S. & Nobel P.S. (1989) Responses of a CAM plant to drought and rainfall: capacitance and osmotic pressure influences on water movement. Journal of Experimental Botany 40, 61 70.
  • Smith A.P. (1974) Bud temperature in relation to nyctinastic leaf movement in an Andean giant rosette plant. Biotropica 6, 263 266.
  • Tüffers A.V., Martin C.E., von Willert D.J. (1995) Possible water movement from older to younger leaves and photosynthesis during drought stress in two succulent species from South Africa, Delosperma tradescantioides Bgr. & Prenia sladeniana L. Bol. (Mesembryanthemaceae). Journal of Plant Physiology 146, 177 182.
  • Valentini R., Epron D., De Angelis P., Matteuci G., Dreyer E. (1995) In situ estimation of net CO2 assimilation, photosynthetic electron flow and photorespiration in Turkey oak (Quercus cerris L.) leaves: diurnal cycles under different levels of water supply. Plant, Cell and Environment 18, 631 640.
  • Valladares F. & Pearcy R.W. (1997) Interactions between water stress, sun-shade acclimation, heat tolerance and photoinhibition in the sclerophyll Heteromeles arbutifolia. Plant, Cell and Environment 20, 25 36.
  • Weis E. & Berry J.A. (1988) Plants and high temperature stress. In Plants and Temperature (eds S.P. Long & F.I. Woodward), pp. 329 346. Comp. Biol. Ltd., Cambridge.
  • Wetter E., Schade A., Firbas F. (1917) Ökologie der Felsflora. Jahrbuch der St. Gallischen Naturwissenschaftlichen Gesellschaft 55, 1 176.