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References

  • 1
    Andrade J.L., Meinzer F.C., Goldstein G., Holbrook N.M., Cavelier J., Jackson P., Silvera K. (1998) Regulation of water flux through trunks, branches, and leaves in trees of a lowland tropical forest. Oecologia, in press.
  • 2
    Brokaw N.V.L. (1982) Treefalls: frequency, timing and consequences. In The Ecology of a Tropical Forest: Seasonal Rhythms and Long-term Changes (eds E.G. Leigh, S. Rand & DM Windsor), pp. 101–108. Smithsonian Institution Press, Washington, DC.
  • 3
    Dixon M.A., Grace J., Tyree M.T. (1984) Concurrent measurements of stem density, leaf and stem water potential, stomatal conductance and cavitation on a sapling of Thuja occidentalis L. Plant, Cell & Environment 7, 615618.
  • 4
    Dye P.J., Soko S., Poulter A.G. (1996) Evaluation of the heat pulse velocity method for measuring sap flow in Pinus patula. Journal of Experimental Botany 47, 975981.
  • 5
    Franco-Vizcaino E., Goldstein G., Ting I.P. (1990) Comparative gas exchange of leaves and bark in three stem succulents of Baja California. American Journal of Botany 77, 12721278.
  • 6
    Goldstein G., Meinzer F., Monasterio M. (1984) The role of capacitance in the water balance of Andean giant rosette species. Plant Cell and Environment 7, 179186.
  • 7
    Granier A. (1987) Evaluation of transpiration in a Douglas-fir stand by means of sap flow measurements. Tree Physiology 3, 309320.
  • 8
    Holbrook N.M. (1995) Stem water Storage. In Plant Stems: Physiology and Functional Morphology (ed. B.L. Gartner), pp. 151–174. Academic Press, San Diego.
  • 9
    Holbrook N.M. & Sinclair T.R. (1992a) Water balance in the arborescent palm, Sabal palmetto. I. Stem structure, tissue water release properties and leaf epidermal conductance. Plant Cell and Environment 15, 393399.
  • 10
    Holbrook N.M. & Sinclair T.R. (1992b) Water balance in the arborescent palm, Sabal palmetto. II. Transpiration and stem water storage. Plant Cell and Environment 15, 401409.
  • 11
    Jarvis P.G. (1975) Water transfer in plants. In Heat and Mass transfer in the Environment of Vegetation (eds D.A. deVries & N.K. van Alfen), pp. 369–394. Scripta Books, Washington D.C.
  • 12
    Loustau D., Berbigier P., Roumagnac P., Arruda-Pacheco C., David J.S., Ferreira M.I., Pereira J.S., Tavares R. (1996) Transpiration of a 64-year-old maritime pine stand in Portugal. 1. Seasonal course of water flux through maritime pine. Oecologia 107, 3342.
  • 13
    Meinzer F. & Goldstein G. (1986) Adaptations for water and thermal balance in Andean giant rosette plants. In On the Economy of Plant Form and Function (ed. T.M. Givnish), pp. 381–411.Cambridge University Press, Cambridge.
  • 14
    Meinzer F.C., Goldstein G., Holbrook N.M., Jackson P., Cavelier J. (1993) Stomatal and environmental control of transpiration in a lowland tropical forest tree. Plant, Cell & Environment 16, 429436.
  • 15
    Mencuccini M. & Grace J. (1996) Developmental patterns of above-ground hydraulic conductance in a Scots pine (Pinus sylvestris L.) age sequence. Plant, Cell & Environment 19, 939948.
  • 16
    Nilsen E.T., Sharifi M.R., Rundel P.W., Forseth I.N., Ehleringer J.R. (1990) Water relations of stem succulent trees in north-central Baja California. Oecologia 82, 299303.
  • 17
    Nobel P.S. & Jordan P.W. (1983) Transpiration stream of desert species: resistances and capacitances for a C3, a C4, and a CAM plant. Journal of Experimental Botany 34, 13791391.
  • 18
    Putz F.E. & Milton K. (1982) Tree mortality rates on Barro Colorado Island. In The Ecology of a Tropical Forest: Seasonal Rhythms and Long-term Changes (eds E.G. Leigh, S. Rand & D.M. Windsor), pp. 95–100. Smithsonian Institution Press, Washington D.C.
  • 19
    Ryan M.G. & Yoder B.J. (1997) Hydraulic limits to tree height and tree growth. Bioscience 47, 235242.
  • 20
    Schulze E.-D., Cermak J., Matyssek R., Penka M., Zimmermann R., Vasicek F., Gries W., Kucera J. (1985) Canopy transpiration and water fluxes in the xylem of the trunk of Larix and Picea trees – a comparison of xylem flow, porometer and cuvette measurements. Oecologia 66, 475483.
  • 21
    Tyree M.T. & Jarvis P.G. (1982) Water in tissues and cells. In Encyclopedia of Plant Physiology, 12B (eds O.Lange, P.S. Nobel, C.B. Osmond and H. Ziegler), pp. 35–77. Springer–Verlag, Berlin.
  • 22
    Tyree M.T. & Yang S. (1990) Water storage capacity of Thuja, Tsuga and Acer stems measured by dehydration isotherms: The contribution of capillary water and cavitation. Planta 182, 420426.
  • 23
    Waring R.H. & Running S.W. (1978) Sapwood water storage: its contribution to transpiration and effect upon water conductance through the stems of old-growth Douglas-fir. Plant, Cell & Environment 1, 131140.
  • 24
    Waring R.H. & Sylvester W.B. (1994) Variation in foliar 13C values within the crowns of Pinus radiata trees. Tree Physiology 14, 12031213.
  • 25
    Waring R.H., Whitehead D., Jarvis P.G. (1979) The contribution of stored water to transpiration in Scots pine. Plant, Cell & Environment 2, 309317.
  • 26
    Zang D., Beadle C.L., White D.A. (1996) Variation of sapflow velocity in Eucalyptus globulus with position in sapwood and use of a correction coefficient. Tree Physiology 16, 697703.
  • 27
    Zimmermann M.H. (1983) Xylem Structure and the Ascent of Sap. Springer-Verlag, Berlin.