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REFERENCES

  • Alder N.N., Pockman W.T., Sperry J.S. & Nuismer S. (1997) Use of centrifugal force in the study of xylem cavitation. Journal of Experimental Botany 48, 665674.
  • Anderegg W.R.L., Berry J.A., Smith D.D., Sperry J.S., Anderegg L.D.L. & Field C.B. (2012) The roles of hydraulic and carbon stress in a wide spread climate-induced forest die-off. Proceedings of the National Academy of Sciences of the United States of America 109, 233237.
  • Blackman C.J. & Brodribb T.J. (2011) Two measures of leaf capacitance: insights into the water transport pathway and hydraulic conductance in leaves. Functional Plant Biology 38, 118126.
  • Brodribb T.J. & Holbrook N.M. (2003) Stomatal closure during leaf dehydration, correlation with other leaf physiological traits. Plant Physiology 132, 21662173.
  • Christensen J.H., Hewitson B., Busuioc A., et al. (2007) Regional climate projections. In Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (eds S. Solomon, D. Qin, M. Manning, Z. Chen, M. Marquis, K.B. Averyt, M. Tignor & H.L. Miller), pp. 847940. Cambridge University Press, Cambridge, UK and New York, NY, USA.
  • Domec J-C., Palmroth S., Ward E., Maier C.A., Thereuzien M. & Oren R. (2009) Interactive effects of long term elevated CO2 and N-fertilization on the coordination between lead hydraulic conductance and stomatal conductance in Pinus taeda. Plant, Cell & Environment 32, 15001512.
  • Farquhar G.D. & Sharkey T.D. (1982) Stomatal conductance and photosynthesis. Annual Review of Plant Physiology 33, 317345.
  • Farquhar G.D., von Cammerrer S. & Berry J.A. (1980) A biochemical model of photosynthetic CO2 assimilation in leaves of C3 plants. Planta 149, 7890.
  • Givnish T.J. (ed.) (1986) On the Economy of Plant Form and Function. Cambridge University Press, Cambridge, UK.
  • Hacke U. & Sauter J.J. (1996) Drought-induced xylem dysfunction in petioles, branches, and roots of Populus balsamifera L. and Alnus glutinosa (L.) Gaertn. Plant Physiology 111, 413417.
  • Hacke U.G., Plavcová L., Almeida-Rodriguez A., King-Jones S., Zhou W. & Cooke J.E.K. (2011) Influence of nitrogen fertilization on xylem traits and aquaporin expression in stems of hybrid poplar. Tree Physiology 30, 10161025.
  • Hill T.C., Williams M. & Moncrieff J.B. (2008) Modeling feedbacks between a boreal forest and the planetary boundary layer. Journal of Geophysical Research 113, D15122. doi:10.1029/2007JD009412.
  • Hogg E.H., Black T.A., den Hartog G., et al. (1997) A comparison of sap flow and eddy fluxes of water vapor from a deciduous boreal forest. Journal of Geophysical Research 102, 2892928937.
  • Johnson D.M., McCulloh K.A., Meinzer F.C., Woodruff D.R. & Eissenstat D.M. (2011) Hydraulic patterns and safety margins, from stem to stomata, in three eastern US tree species. Tree Physiology 31, 659668.
  • Kumagai T., Katul G.G., Porporato A., Saitoh S., Ohashi M., Ichie T. & Suzuki M. (2004) Carbon and water cycling in a Bornean tropical rainforest under current and future climate scenarios. Advances in Water Resources 27, 135150.
  • Leffler A.J., England L.E. & Naito J. (2000) Vulnerability of Fremont cottonwood (Populus Fremontii Wats.) individuals to xylem cavitation. Western North American Naturalist 60, 204210.
  • Maherali H. & DeLucia E.H. (2000a) Xylem conductivity and vulnerability to cavitation of ponderosa pine growing in contrasting climates. Tree Physiology 20, 859867.
  • Maherali H. & DeLucia E.H. (2000b) Interactive effects of elevated CO2 and temperature on water transport in ponderosa pine. American Journal of Botany 87, 243249.
  • Maherali H., Pockman W.T. & Jackson R.B. (2004) Adaptive variation in the vulnerability of woody plants to xylem cavitation. Ecology 85, 21842199.
  • Meinzer F.C. (2002) Co-ordination of vapour and liquid phase water transport properties in plants. Plant, Cell & Environment 25, 265274.
  • Osborne H., Young K., Wittrock V. & Shewchuck S. (1998) BOREAS/SRC AMS Suite A Surface Meteorological and Radiation Data: 1996. Data set. Available online [http://www.daac.ornl.gov] from Oak Ridge National Laboratory Distributed Active Archive Center, Oak Ridge, TN, USA. doi:10.3334/ORNLDAAC/464.
  • Perala D.A. (1990) Populus tremuloides Michx. In Silvics of North America, Vol. 2 Hardwoods. Agriculture Handbook 654 (eds R.M. Burns & B.H. Honkala), pp. 559569. United States Department of Agriculture, Forest Service, Washington, DC, USA.
  • Phillips N.G., Attard R.D., Ghannoum O., Lewis J.D., Logan B.A. & Tissue D.T. (2011) Impact of variable [CO2] and temperature on water transport structure-function relationships in Eucalyptus. Tree Physiology 31, 945952.
  • Sack L., Melcher P.J., Zwieniecki M.A. & Holbrook N.M. (2002) The hydraulic conductance of the angiosperm leaf lamina: a comparison of three measurement methods. Journal of Experimental Botany 53, 21772184.
  • Sage R.F. & Kubien D.S. (2007) The temperature response of C3 and C4 photosynthesis. Plant, Cell & Environment 30, 10861106.
  • Schenk H.J. & Jackson R.B. (2002) Rooting depths, lateral spreads, and below-ground/aboveground allometries of plants in water-limited ecosystems. Journal of Ecology 90, 480494.
  • Secchi F. & Zwieniecki M.A. (2010) Patterns of PIP gene expression in Populus trichocarpa during recovery from xylem embolism suggest a major role for the PIP1 aquaporin subfamily as moderators of refilling process. Plant, Cell & Environment 33, 12851297.
  • Secchi F. & Zwieniecki M.A. (2011) Sensing embolism in xylem vessels: the role of sucrose as a trigger for refilling. Plant, Cell & Environment 34, 514524.
  • Sperry J.S., Nichols K.L., Sullivan J.E.M. & Eastlack S.E. (1994) Xylem embolism in ring-porous, diffuse-porous, and coniferous trees of northern Utah and interior Alaska. Ecology 75, 17361752.
  • Sperry J.S., Adler F.R., Campbell G.S. & Comstock J.P. (1998) Limitation of plant water use by rhizosphere and xylem conductance: results from a model. Plant, Cell & Environment 21, 347359.
  • Thomas D.S., Montagu K.D. & Conroy J.P. (2004) Changes in wood density of Eucalyptus camaldulensis due to temperature – the physiological link between water viscosity and wood anatomy. Forest Ecology and Management 193, 157165.
  • Tjoelker M.G., Oleksyn J. & Reich P.B. (1998) Seedlings of five boreal tree species differ in acclimation of net photosynthesis to elevated CO2 and temperature. Tree Physiology 18, 715726.
  • Trenberth K.E., Fasullo J. & Smith L. (2005) Trends and variability in column-integrated water vapor. Climate Dynamics 24, 741758.
  • Tyree M.T. & Hammel H.T. (1972) The measurement of the turgor pressure and the water relations of plants by the pressure-bomb technique. Journal of Experimental Botany 23, 267282.
  • Tyree M.T. & Sperry J.S. (1988) Do woody plants operate near the point of catastrophic xylem dysfunction caused by dynamic water stress? Answers from a model. Plant Physiology 88, 574580.
  • Tyree M.T., Sinclair B., Lu P. & Granier A. (1993) Whole shoot hydraulic resistance in Quercus species measured with a new high pressure flowmeter. Annals of Forest Science 50, 417423.
  • Tyree M.T., Nardini A., Salleo S., Sack L. & El Omari B. (2005) The dependence of leaf hydraulic conductance on irradiance during HPFM measurements: any role for stomatal response? Journal of Experimental Botany 56, 737744.
  • Voicu M.C. & Zwiazek J.J. (2010) Inhibitor studies of leaf lamina hydraulic conductance in trembling aspen (Populus tremuloides Michx.) leaves. Tree Physiology 30, 193204.
  • Way D.A. & Oren R. (2010) Differential responses to increased growth temperatures between trees from different functional groups and biomes: a review and synthesis of data. Tree Physiology 30, 669688.
  • Way D.A. & Sage R.F. (2008) Elevated growth temperatures reduce the carbon gain of black spruce (Picea mariana (Mill.) B.S.P.). Global Change Biology 14, 624636.
  • Williams M., Rastetter E.B., Fernandes D.N., Goulden M.L., Wofsy S.C., Shaver G.R., Melillo J.M., Munger J.W., Fan S.-M. & Nadelhoffer K.J. (1996) Modelling the soil-plant-atmosphere continuum in a Quercus-Acer stand at Harvard Forest: the regulation of stomatal conductance by light, nitrogen and soil/plant hydraulic properties. Plant, Cell & Environment 19, 911927.
  • Williams M., Law B.E., Anthoni P.M. & Unsworth M. (2001) Using a simulation model and ecosystem flux data to examine carbon-water interactions in ponderosa pine. Tree Physiology 21, 287298.
  • Zimmermann M.H. (1983) Xylem Structure and the Ascent of Sap. Springer-Verlag, Berlin, Germany.