Drought resistance of Quercus pubescens as a function of root hydraulic conductance, xylem embolism and hydraulic architecture

ANDREA NARDINI; FRANCO PITT

doi:10.1046/j.1469-8137.1999.00476.x

Abstract

Water relations, xylem embolism, root and shoot hydraulic conductance of both young plants in the field and potted seedlings of Quercus pubescens have been studied with the aim of investigating whether these variables may account for the well known adaptation of this oak species to arid habitats. Our data revealed that Q. pubescens is able to maintain high leaf relative water contents under water stress conditions. In fact, relative water contents measured in summer (July) did not differ from those recorded in April. This was apparently achieved by compensating water loss by an equal amount of water uptake. Such a drought avoidance strategy was made possible by the recorded high hydraulic efficiency of stems and roots under water stress. In fact, root hydraulic conductance of field-grown plants was maintained high in summer when the percentage loss of hydraulic conductance of stems was lowest. The hydraulic architecture of young plants of Q. pubescens measured in terms of partitioning of hydraulic resistances along the water pathway revealed that the highest hydraulic resistance was located in stems of the current year's growth. This hydraulic architecture is interpreted as consistent with the adaptation of Q. pubescens to arid habitats as a consequence of the recorded seasonal changes in water relation parameters as well as in root and stem hydraulics.

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Salleo, Sebastiano and Nardini, Andrea 2000. Sclerophylly: Evolutionary advantage or mere epiphenomenon?. Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology, Vol. 134, Issue. 3, p. 247.

Nardini, A. 2001. Are Sclerophylls and Malacophylls Hydraulically Different?. Biologia plantarum, Vol. 44, Issue. 2, p. 239.

Meinzer, Frederick C. Clearwater, Michael J. and Goldstein, Guillermo 2001. Water transport in trees: current perspectives, new insights and some controversies. Environmental and Experimental Botany, Vol. 45, Issue. 3, p. 239.

Meinzer, F. C. 2002. Co‐ordination of vapour and liquid phase water transport properties in plants. Plant, Cell & Environment, Vol. 25, Issue. 2, p. 265.

Salleo, Sebastiano Pitt, Franco Nardini, Andrea Hamzé, Mouin and Jomaa, Ihab 2002. Differential drought resistance of two Mediterranean oaks growing in the Bekaa Valley (Lebanon). Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology, Vol. 136, Issue. 1, p. 91.

Sperry, John S. Stiller, Volker and Hacke, Uwe G. 2003. Xylem Hydraulics and the Soil–Plant–Atmosphere Continuum: Opportunities and Unresolved Issues. Agronomy Journal, Vol. 95, Issue. 6, p. 1362.

Sakcali, M.S. and Ozturk, M. 2004. Eco-physiological behaviour of some mediterranean plants as suitable candidates for reclamation of degraded areas. Journal of Arid Environments, Vol. 57, Issue. 2, p. 141.

Siemens, J. Aurea and Zwiazek, Janusz J. 2004. Changes in root water flow properties of solution culture‐grown trembling aspen (Populus tremuloides) seedlings under different intensities of water‐deficit stress. Physiologia Plantarum, Vol. 121, Issue. 1, p. 44.

Aasamaa, Krõõt and Sõber, Anu 2005. Seasonal courses of maximum hydraulic conductance in shoots of six temperate deciduous tree species. Functional Plant Biology, Vol. 32, Issue. 12, p. 1077.

NARDINI, ANDREA SALLEO, SEBASTIANO and ANDRI, SERGIO 2005. Circadian regulation of leaf hydraulic conductance in sunflower (Helianthus annuus L. cv Margot). Plant, Cell & Environment, Vol. 28, Issue. 6, p. 750.

Raftoyannis, Y. Radoglou, K. and Halivopoulos, G. 2006. Ecophysiology and Survival of Acer pseudoplatanus L., Castanea sativa Miller. and Quercus frainetto Ten. Seedlings on a Reforestation Site in Northern Greece. New Forests, Vol. 31, Issue. 2, p. 151.

EDWARDS, ERIKA J. and DIAZ, MIRIAM 2006. Ecological physiology of Pereskia guamacho, a cactus with leaves. Plant, Cell & Environment, Vol. 29, Issue. 2, p. 247.

Eilmann, Britta Weber, Pascale Rigling, Andreas and Eckstein, Dieter 2006. Growth reactions of Pinus sylvestris L. and Quercus pubescens Willd. to drought years at a xeric site in Valais, Switzerland. Dendrochronologia, Vol. 23, Issue. 3, p. 121.

Weber, Pascale Bugmann, Harald and Rigling, Andreas 2007. Radial growth responses to drought of Pinus sylvestris and Quercus pubescens in an inner‐Alpine dry valley. Journal of Vegetation Science, Vol. 18, Issue. 6, p. 777.

KNIPFER, THORSTEN DAS, DEBASISH and STEUDLE, ERNST 2007. During measurements of root hydraulics with pressure probes, the contribution of unstirred layers is minimized in the pressure relaxation mode: comparison with pressure clamp and high‐pressure flowmeter. Plant, Cell & Environment, Vol. 30, Issue. 7, p. 845.

BAUERLE, T. L. RICHARDS, J. H. SMART, D. R. and EISSENSTAT, D. M. 2008. Importance of internal hydraulic redistribution for prolonging the lifespan of roots in dry soil. Plant, Cell & Environment, Vol. 31, Issue. 2, p. 177.

Sellin, Arne Õunapuu, Eele and Kupper, Priit 2008. Effects of light intensity and duration on leaf hydraulic conductance and distribution of resistance in shoots of silver birch (Betula pendula). Physiologia Plantarum, Vol. 134, Issue. 3, p. 412.

Poyatos, Rafael Llorens, Pilar Piñol, Josep and Rubio, Carles 2008. Response of Scots pine (Pinus sylvestris L.) and pubescent oak (Quercus pubescens Willd.) to soil and atmospheric water deficits under Mediterranean mountain climate. Annals of Forest Science, Vol. 65, Issue. 3, p. 306.

Salvini, D. Bruschi, P. Fineschi, S. Grossoni, P. Kjaer, E. D. and Vendramin, G. G. 2009. Natural hybridisation betweenQuercus petraea(Matt.) Liebl. andQuercus pubescensWilld. within an Italian stand as revealed by microsatellite fingerprinting. Plant Biology, Vol. 11, Issue. 5, p. 758.

ATWELL, BRIAN J. HENERY, MARTIN L. and BALL, MARILYN C. 2009. Does soil nitrogen influence growth, water transport and survival of snow gum (Eucalyptus pauciflora Sieber ex Sprengel.) under CO2 enrichment?. Plant, Cell & Environment, Vol. 32, Issue. 5, p. 553.

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Drought resistance of Quercus pubescens as a function of root hydraulic conductance, xylem embolism and hydraulic architecture

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Drought resistance of Quercus pubescens as a function of root hydraulic conductance, xylem embolism and hydraulic architecture

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