Hydraulic properties of Pinus halepensis, Pinus pinea and Tetraclinis articulata in a dune ecosystem of Eastern Spain

[1]  I. Oliveras,et al.  Xylem hydraulic properties of roots and stems of nine Mediterranean woody species , 2002, Oecologia.

[2]  J. Piñol,et al.  Drought-induced mortality and hydraulic architecture in pine populations of the NE Iberian Peninsula , 2002 .

[3]  I. Oliveras,et al.  CHAPTER 3 Hydraulic properties of roots and stems of nine woody species from a Holm oak forest in NE Spain , 2002 .

[4]  Jon E. Keeley,et al.  Ecology, Biogeography and Management of Pinus halepensis and P. brutia Forest Ecosystems in the Mediterranean Basin , 2001 .

[5]  J. Piñol,et al.  Ecological implications of xylem cavitation for several Pinaceae in the Pacific Northern USA , 2000 .

[6]  D. Richardson Ecology and Biogeography of Pinus , 2000 .

[7]  J. Sperry Hydraulic constraints on plant gas exchange , 2000 .

[8]  S. Patiño,et al.  Branch sacrifice: cavitation-associated drought adaptation of riparian cottonwoods , 2000, Trees.

[9]  J. Sperry,et al.  Vulnerability to xylem cavitation and the distribution of Sonoran Desert vegetation. , 1996, American journal of botany.

[10]  J. Sperry,et al.  Drought experience and cavitation resistance in six shrubs from the Great Basin, Utah , 2000 .

[11]  D. Ellsworth,et al.  Influence of soil porosity on water use in Pinus taeda , 2000, Oecologia.

[12]  J. Sperry,et al.  Limits to water transport in Juniperus osteosperma and Pinus edulis: implications for drought tolerance and regulation of transpiration , 1998 .

[13]  C. V. Willigen,et al.  A mathematical and statistical analysis of the curves illustrating vulnerability of xylem to cavitation. , 1998, Tree physiology.

[14]  Frederick R. Adler,et al.  Limitation of plant water use by rhizosphere and xylem conductance: results from a model , 1998 .

[15]  M. Borghetti,et al.  Impact of long-term drought on xylem embolism and growth in Pinus halepensis Mill. , 1998, Trees.

[16]  S. Davis,et al.  Ecophysiological Processes and Demographic Patterns in the Structuring of California Chaparral , 1998 .

[17]  J. Sperry,et al.  Xylem cavitation in roots and stems of Douglas-fir and white fir. , 1997, Tree physiology.

[18]  J. Fisher,et al.  Vessel Diameters in Roots Versus Stems of Tropical Lianas and Other Growth Forms , 1997 .

[19]  W. C. Parker,et al.  Water Transport Dynamics in Trees and Stands , 1995 .

[20]  N. Holbrook Stem Water Storage , 1995 .

[21]  John S. Sperry,et al.  Intra‐ and inter‐plant variation in xylem cavitation in Betula occidentalis , 1994 .

[22]  C. Goodess,et al.  Climate change, potential evapotranspiration and moisture availability in the mediterranean basin , 1994 .

[23]  J. Marshall,et al.  Carbon Isotope Discrimination and Water-Use Efficiency in Native Plants of the North-Central Rockies , 1994 .

[24]  R. Borchert,et al.  Soil and Stem Water Storage Determine Phenology and Distribution of Tropical Dry Forest Trees , 1994 .

[25]  S. Davis,et al.  Biophysical Perspectives of Xylem Evolution: is there a Tradeoff of Hydraulic Efficiency for Vulnerability to Dysfunction? , 1994 .

[26]  H. Griffiths Carbon isotope discrimination , 1993 .

[27]  S. Rambal The differential role of mechanisms for drought resistance in a Mediterranean evergreen shrub: a simulation approach , 1993 .

[28]  H. Griffiths,et al.  Water deficits: plant responses from cell to community. , 1993 .

[29]  M. Tyree,et al.  Use of positive pressures to establish vulnerability curves : further support for the air-seeding hypothesis and implications for pressure-volume analysis. , 1992, Plant physiology.

[30]  H. Cochard,et al.  Vulnerability of several conifers to air embolism. , 1992, Tree physiology.

[31]  James R. Ehleringer,et al.  13 Stable isotopes , 1989 .

[32]  J. Ehleringer,et al.  Carbon Isotope Discrimination and Photosynthesis , 1989 .

[33]  J. Sperry,et al.  Do woody plants operate near the point of catastrophic xylem dysfunction caused by dynamic water stress? : answers from a model. , 1988, Plant physiology.

[34]  Melvin T. Tyree,et al.  A method for measuring hydraulic conductivity and embolism in xylem , 1988 .

[35]  M. Barbour,et al.  Marine beach and dune plant communities , 1985 .

[36]  G. Farquhar,et al.  Isotopic Composition of Plant Carbon Correlates With Water-Use Efficiency of Wheat Genotypes , 1984 .

[37]  G. Campbell,et al.  The Effects of Texture on the Resistance to Water Movement within the Rhizosphere , 1984 .

[38]  M. Zimmermann Xylem Structure and the Ascent of Sap , 1983, Springer Series in Wood Science.

[39]  E. Youngs,et al.  Fundamentals of Soil Physics. , 1982 .

[40]  T. M. D. Jong WATER AND SALINITY RELATIONS OF CALIFORNIAN BEACH SPECIES , 1979 .

[41]  R. Lascano,et al.  Water Relations of Fritted Clay , 1978 .

[42]  G. Campbell,et al.  An Introduction to Environmental Biophysics , 1977 .

[43]  D. Ranwell,et al.  Ecology of Salt Marshes and Sand Dunes , 1972 .

[44]  P. F. Scholander,et al.  Sap Pressure in Vascular Plants , 1965, Science.