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All issues Volume 63 / No 4 (May-June 2006) Ann. For. Sci., 63 4 (2006) 425-430 References
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Issue
Ann. For. Sci.
Volume 63, Number 4, May-June 2006
Page(s) 425 - 430
DOI https://doi.org/10.1051/forest:2006022
Published online 17 May 2006
References of  Ann. For. Sci. 63 (2006) 425-430
  1. Bocio I., Navarro F.B., Ripoll M.A., Jiménez M.N., De Simón E., Holm oak (Quercus rotundifolia Lam.) and Aleppo pine (Pinus halepensis Mill.) response to different soil preparation techniques applied to forestation in abandoned farmland, Ann. For. Sci. 61 (2004) 171-178 [EDP Sciences] [CrossRef].
  2. Callaway R.M., Effects of soil water distribution on the lateral root development of tree species of California oaks, Amer. J. Bot. 77 (1990) 1469-1475.
  3. Canadell J., Djema A., López B., Lloret F., Sabaté S., Siscart D., Gracia C., Structure and dynamics of the root systems, in: Rodá F., Retana J., Gracia C., Bellot J. (Eds.), Ecology of Mediterranean evergreen oak forests, Springer, Berlin, 1999, pp. 47-59.
  4. Carreras C., Sánchez J., Reche P., Herrero D., Navarro A., Navío J., Siembras profundas con ayuda de tubos protectores, Resultados de ensayos comparativos de siembras y plantaciones bajo condiciones de aridez en Vélez-Rubio, in: Sociedad Española de Ciencias Forestales (Ed.), II Congreso Forestal Español, Pamplona, Tomo III, 1997, pp. 123-128.
  5. Fiscus E.L., The interaction between osmotic- and pressure-induced water flow in plant roots, Plant Physiol. 55 (1975) 917-922 [PubMed].
  6. Fitter A., Functional significance of root morphology and root system architecture, in: Fitter A., Atkinson D., Read D.J., Usher M.B. (Eds.), Ecological interactions in soil, Blackwell, Oxford, 1985, pp. 87-106.
  7. Fitter A., Stickland T.R., Harvey M.L., Architectural analysis of plant root systems. 1. Architectural correlates of exploitation efficiency, New Phytol. 118 (1991) 375-382.
  8. Fitter A., Stickland T.R., Architectural analysis of plant root systems. 2. Influence of nutrient supply on architecture in contrasting plant species, New Phytol. 118 (1991) 383-389.
  9. Iglesias A., Repoblaciones con Quercus ilex L. en zonas degradadas de la provincia de Ávila. Técnicas para mejorar su supervivencia, Tesis Doctoral, Universidad Politécnica de Madrid, 2004.
  10. Joffre R., Rambal S., Damesin C., Functional atributes in Mediterranean-type Ecosystems, in: Puignaire F.I., Valladares F. (Eds.), Handbook of functional plant ecology, Marcel Dekker, New York, 1999, pp. 347-380.
  11. Johnson P.S., Shifley S.R., Rogers R., The ecology and silviculture of oaks, CABI Publishing, New York, 2002.
  12. Kozlowski T., Kramer P.J., Pallardy S.G., The physiological ecology of woody plants, Academic Press, San Diego, 1991.
  13. Levitt J., Responses of plants to environmental stresses, Vol. II, Academic Press, New York, 1980.
  14. McCulloh K.A., Sperry J.S., Patterns in hydraulic architecture and their implications for transport efficiency, Tree Physiol. 25 (2005) 257-267 [PubMed].
  15. Montoya J.M., Técnicas de reforestación con encinas, alcornoques y otras especies de Quercus mediterráneos, Ministerio de Agricultura Pesca y Alimentación, Madrid, 1995.
  16. Nardini A., Ghirardelli L., Salleo S., Vulnerability to freeze stress of seedling of Quercus ilex L.: an ecological interpretation, Ann. Sci. For. 55 (1998) 553-565.
  17. Nardini A., Lo Gullo M.A., Salleo S., Seasonal changes of root hydraulic conductance (KRL) in four forest trees: an ecological interpretation, Plant Ecol. 139 (1998) 81-90 [CrossRef].
  18. Nardini A., Tyree M., Root and shoot hydraulic conductance of seven Quercus species, Ann. For. Sci. 56 (1999) 371-377.
  19. Nardini A., Salleo S., Tyree M., Vertovec M., Influence of the ectomycorrhizas formed by Tuber melanosporum Vitt. on hydraulic conductance and water relations of Quercus ilex L. seedlings, Ann. For. Sci. 57 (2000) 305-312 [EDP Sciences] [CrossRef].
  20. North G.B., Nobel P.S., Changes in hydraulic conductivity and anatomy caused by drying and rewetting of roots of Agave deserti (Agavaceae), Am. J. Bot. 78 (1992) 906-915.
  21. Paterson J., Growing environment and container type influence field performance of black spruce container stock, New For. 13 (1997) 329-339.
  22. Picard O. (Coord.), Evaluation of the Community aid scheme for forestry measures in agriculture of Regulation No. 2080/92, Institute for Forestry Development, Auzeville, 2001.
  23. Rambal S., Water balance and pattern of root water uptake by a Quercus coccifera L. evergreen scrub, Oecologia 62 (1984) 18-25 [CrossRef].
  24. Riedacker A., Deixheimer J., Tavakol R., Alaoui H., Modifications expérimentales de la morphogenèse et des géotropismes dans le système racinaire de jeunes chênes, Can. J. Bot. 60 (1982) 765-778.
  25. Riedacker A., Belgrand M., Morphogenèse des systèmes racinaires des semis et boutures de chêne pédonculé, Plant soil 71 (1983) 131-146 [CrossRef].
  26. Rieger M., Litvin P., Root system hydraulic conductivity in species with contrasting root anatomy, J. Exp. Bot. 50 (1999) 201-209 [CrossRef].
  27. Rivas Martínez S., Memoria del Mapa de Series de Vegetación de España, Ministerio de Agricultura Pesca y Alimentación, Madrid, 1987.
  28. Romero A., Ryder J., Fisher J., Mexal J.G., Root system modification of container stock for arid land plantings, For. Ecol. Manage. 16 (1986) 281-290 [CrossRef].
  29. SAS Institute, SAS/STAT User's Guide, Version 8, SAS Institute, Inc., Cary, N.C., 1999.
  30. South D., Zwolinski J.B., Transplant stress index: A proposed method of quantifying planting check, New For. 13 (1997) 315-328.
  31. Steudle E., Meshcheryakov A.B., Hydraulic and osmotic properties of oak roots, J. Exp. Bot. 47 296 (1996) 387-401.
  32. Steudle E., Water uptake by plant roots: an integration of views, Plant soil 226 (2000) 45-56 [CrossRef].
  33. Steudle E., Water uptake by roots: effects of water deficit, J. Exp. Bot. 51 350 (2000) 1531-1542.
  34. Vilagrosa A., Estrategias de Resistencia al déficit hídrico en Pistacia lentiscus L. y Quercus coccifera L. Implicaciones en la repoblación forestal, Tesis Doctoral, Universidad de Alicante, 2002.
  35. West G.B., Brown J.H., Enquist B.J., The origin of universal scaling laws in biology, in: Brown J.H., West G.B. (Eds.), Scaling in biology, Oxford University Press, Oxford, 2000, pp. 87-112.