Summary
Freezing tolerance as a cold resistance mechanism is described for the first time in a plant growing in the tropical range of the Andean high mountains. Draba chionophila, the plant in which freezing tolerance was found, is the vascular plant which reaches the highest altitudes in the Venezuelan Andes (approximately 4700m). Night cycles of air and leaf temperature were studied in the field to determine the temperature at which leaf freezing began. In the laboratory, thermal analysis and freezing injury determinations were also carried out. From both field and laboratory experiments, it was determined that freezing of the leaf tissue, as well as root and pith tissue, initiated at a temperature of approximately-5.0°C, while freezing injury occurred at approximately-12.0°C for the pith, and below-14.0°C for roots and leaves. This difference in temperature suggests that the plant still survives freezing in the-5.0 to-14.0°C range. Daily cycles of leaf osmotic potential and soluble carbohydrate concentration were also determined in an attempt to explain some of the changes occurring in this species during the nighttime temperature period. A comparison between Andean and African high mountain plants from the point of view of cold resistance mechanisms is made.
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References
Allen S (1974) Chemical analysis of ecological materials. Blackwell Scientific Publications. Oxford, UK
Azocar A, Monasterio M (1980) Estudio de la variabilidad meso y microclimatica en el Paramo de Mucubaji. In: Monasterio M (ed) Estudios ecologicos en los Paramos Andinos. Ediciones de la Universidad de Los Andes. Merida, Venezuela pp 255–262
Beck E, Senser M, Scheibe R, Steiger H, Pongratz P (1982) Frost avoidance and freezing tolerance in Afroalpine ‘giant rosette’ plants. Plant, Cell, Environm 5:215–222
Beck E, Schulze E, Senser M, Scheibe R (1984) Equilibrium freezing of leaf water and extracellular ice formation in Afroalpine ‘giant rosette’ plants. Planta 162:276–282
Coe JM (1967) The ecology of the alpine zone of Mount Kenya. Dr. W. Junk, The Hague
Goldstein G, Rada F, Azocar A (1985) Cold hardiness and supercooling along an altitudinal gradient in Andean giant rosette species. Oecologia (Berlin) 68:147–152
Hedberg O (1964) Features of Afroalpine plant ecology. Acta Phytogeographica Suecica 49:1–44
Krog J, Zachariassen K, Larsen B, Smidrod O (1979) Thermal buffering in Afroalpine plants due to nucleating agent-induced freezing Nature 282:300
Larcher W (1981) Physiological basis of evolutionary trends in low temperature resistance of vascular plants. Plant, Syst, Evol 137:145–180
Larcher W (1982) Typology of freezing phenomena among vascular plants and evolutionary trends in frost acclimation. In: Sakai A, Li PH (eds) plant cold hardiness and frezing stress. Academic Press, New York, pp 417–426
Levitt J (1980) Responses of plants to environmental stresses. Vol. 1. Chilling, freezing and high temperature stresses. Second Edition. Academic Press, New York
Monasterio M (1980) Las formaciones vegetales de los Paramos de Venezuela. In: Monasterio M (ed) Estudios ecologicos en los Paramos Andinos. Ediciones de la Universidadd de los Andes. Merida Venezuela, pp 93–158
Perez F (1984) Striated soil in an Andean Paramo of Venezuela: its origin and orientation. Arct Alp Res 16:277–289
Pfitsch W (1986) Draba in the Venezuelan Paramos: Microenvironment, growth and water relations. Unpublished Dr. Phil. thesis. University of Washington, USA
Rada F (1983) Mecanismos de resistencia a temperaturas congelantes en Espeletia spicata y Polylepis sericea. Unpublished M. Sc. thesis, Universidad de los Andes. Merida, Venezuela
Rada F, Goldstein G, Azocar A, Meinzer F (1985a) Daily and seasonal osmotic changes in a tropical treeline species. J Exp Bot 36:989–1000
Rada F, Goldstein G, Azocar A, Meinzer F (1985b) Freezing avoidance in Andean giant rosette plants. Plant, Cell Environm 8:501–507
Sakai A, Larcher W (1987) Frost survival of plants. Responses and adaptations to freezing stress. Springer, Berlin Heidelberg New York
Schulze E, Beck E, Scheibe R, Ziegler P (1985) Carbon dioxide assimilation and stomatal response of Afroalpine giant rosette plants. Oecologia (Berlin) 65:207–213
Smith AP (1974) Bud temperature in relation to nyctinastic leaf movement in an Andean giant rosette plant. Biotropica 6:263–266
Smith AP (1979) The function of dead leaves in an Andean giant rosette plant. Biotropica 11:43–47
Steponkus PL, Lanphear F (1967) Refinement of the triphenyl tetrazolium chloride method of determining cold injury. Plant Physiol 42:1423–1426
Steponkus PL, Garber MP, Myers SP, Lineberger RD (1977) Effects of cold acclimation and freezing on structure and function of chloroplast thylakoids. Cryobiology 14:303–321
Troll C (1966) The cordilleras of the tropical Americas. Aspects of climatic, phytogeographical and agrarian ecology. In: Troll C (ed) Geo-ecology of the mountainous regions of the tropical Americas. Proceedings of the UNESCO Mexico Symposium, pp 15–56
Vareschi V (1970) Flora de los Paramos de Venezuela. Ediciones del Rectorado, Universidad de los Andes. Merida, Venezuela
Zachariassen KE, Husby JA (1982) Antifreeze effect of thermal hysteresis agents protects highly supercooled insects. Nature 298:865–867
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Azocar, A., Rada, F. & Goldstein, G. Freezing tolerance in Draba chionophila, a ‘miniature’ caulescent rosette species. Oecologia 75, 156–160 (1988). https://doi.org/10.1007/BF00378830
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DOI: https://doi.org/10.1007/BF00378830