Free Access
Issue
Ann. For. Sci.
Volume 62, Number 5, July-August 2005
Page(s) 377 - 384
DOI https://doi.org/10.1051/forest:2005033
References of Ann. For. Sci. 62 377-384
  1. Abrams M.D., Physiological plasticity in water relations and leaf structure of understory versus open-grown Cercis canadiensis L. in northeast Kansas, Can. J. For. Res. 16 (1986) 1170-1174.
  2. Abrams M.D., Comparative water relations of three successional hardwood species in central Wisconsin, Tree Physiol. 4 (1988) 263-273 [PubMed].
  3. Abrams M.D., Adaptations and responses to drought in Quercus species of North America, Tree Physiol. 7 (1990) 227-238 [PubMed].
  4. Abrams M.D., Kloeppel B.D., Kubiske M.E., Ecophysiological and morphological responses to shade and drought in two contrasting ecotypes of Prunus serotina, Tree Physiol. 10 (1992) 343-355 [PubMed].
  5. Aranda I., Gil L., Pardos J.A., Effects of thinning in a Pinus sylvestris L. stand on foliar water relations of Fagus sylvatica L. seedlings planted within the pinewood, Trees 15 (2001) 358-364 [CrossRef].
  6. Aranda I., Gil L., Pardos J.A., Osmotic adjustment in two temperate oak species [Quercus pyrenaica Willd and Quercus petraea (Matt.) Liebl] of the Iberian Peninsula in response to drought, Investigación Agraria: Sistemas y Recursos Forestales 13 (2004) 339-345.
  7. Aranda I., Castro L., Pardos M., Gil L., Pardos J.A., Effects of the interaction between drought and shading on water relations, gas exchange and morphological traits in cork oak (Quercus suber L.) seedlings, For. Ecol. Manage. 210 (2005) 117-129.
  8. Augé R.M., Stodola A.J.W., Pennell B.D., Osmotic and turgor adjustment in Rosa foliage drought-stressed under varying irradiance, J. Amer. Soc. Hort. Sci. 115 (1990) 661-667.
  9. Blake T.J., Bevilacqua E., Zwiazek J.J., Effects of repeated stress on turgor pressure and cell elasticity changes in black spruce seedlings, Can. J. For. Res. 21 (1991) 1329-1333.
  10. Castell C., Terradas J., Tenhunen J.D., Water relations, gas exchange, and growth of resprouts and mature plant shoots of Arbutus unedo L. and Quercus ilex L, Oecologia 98 (1994) 201-211 [CrossRef].
  11. Cavender-Bares J., Bazzaz F.A., Changes in drought response strategies with ontogeny in Quercus rubra: implications for scaling from seedling to mature trees, Oecologia 124 (2000) 8-18.
  12. Cerasoli S., Scartazza A., Brugnoli E., Chaves M.M., Pereira J.S., Effects of partial defoliation on carbon and nitrogen partitioning and photosynthetic carbon uptake by two-year-old cork oak (Quercus suber) saplings, Tree Physiol. 24 (2004) 83-90 [PubMed].
  13. Collet C., Guehl J.M., Osmotic adjustment in sessile oak seedlings in response to drought, Ann. Sci. For. 54 (1997) 389-394.
  14. Corcuera L., Camarero J.J., Gil-Pelegrín E., Functional groups in Quercus species derived from the analysis of pressure-volume curves, Trees 16 (2002) 465-472 [CrossRef].
  15. Delpérée C., Kinet J.M., Lutts S., Low irradiance modifies the effect of water stress on survival and growth-related parameters during the early developmental stages of buckwheat (Fagopyrum esculetum), Physiol. Plant. 119 (2003) 211-220 [CrossRef].
  16. Dreyer E., Bousquet F., Ducrey M., Use of pressure volume curves in water relation analysis on woody shoots: influence of rehydration and comparison of four European oak species, Ann. Sci. For. 47 (1990) 285-297.
  17. Ellsworth D.S., Reich P.B., Water relations and gas exchange of Acer saccharum seedlings in contrasting natural light and water regimes, Tree Physiol. 10 (1992) 1-20 [PubMed].
  18. Fan S., Blake T.J., Blumwald E., The relative contribution of elastic and osmotic adjustments to turgor maintenance of woody species, Physiol. Plant. 90 (1994) 408-413 [CrossRef].
  19. Gebre G.M., Tschaplinski T.J., Shirshac T.L., Water relations of several hardwood species in response to throughfall manipulation in an upland oak forest during a wet year, Tree Physiol. 18 (1998) 299-305 [PubMed].
  20. Groom P.K., Lamont B.B., Xerophytic implications of increased sclerophylly: interactions with water and light in Hakea psilorrhyncha seedlings, New Phytol. 136 (1997) 231-237 [CrossRef].
  21. Van Hees A.F.M., Growth and morphology of pedunculate oak (Quercus robur L.) and beech (Fagus sylvatica L.) seedlings in relation to shading and drought, Ann. Sci. For. 54 (1997) 9-18.
  22. Hinckley T.M., Duhme F., Hinckley A.R., Richter H., Water relations of drought hardy shrubs: osmotic potential and stomatal reactivity, Plant Cell Environ. 3 (1980) 131-140.
  23. Holmgren M., Combined effects of shade and drought on tulip poplar seedlings: trade-off in tolerance or facilitation? Oikos 90 (2000) 67-78 [CrossRef].
  24. Johnson J.D., Tognetti R., Michelozzi M., Pinzauto S., Minota G., Borghetti M., Ecophysiological responses of Fagus sylvatica seedlings to changing light conditions. II. The interaction of light environment and soil fertility on seedling physiology, Physiol. Plant. 101 (1997) 124-134 [CrossRef].
  25. Kloeppel B.D., Kubiske M.E., Abrams M.D., Seasonal tissue water relations of four successional pennsylvania barrens species in open and understory environments, Int. J. Plant Sci. 155 (1994) 73-79 [CrossRef].
  26. Kolb T.E., Steiner K.C., McCormick L.H., Bowersox T.W., Growth responses of northern red-oak and yellow-poplar seedlings to light, soil moisture and nutrients in relation to ecological strategy, For. Ecol. Manage. 38 (1990) 65-78.
  27. Kubiske M.E., Abrams M.D., Pressure-volume relationships in non-rehydrated tissue at various water deficits, Plant, Cell Environ. 13 (1990) 995-1000.
  28. Kwon K.W., Pallardy S.G., Temporal changes in tissue water relations of seedlings of Quercus acutissima, Q. alba, and Q. stellata subjected to chronic water stress, Can. J. For. Res. 19 (1989) 622-626.
  29. Larsen D.R., Johnson P.S., Linking the ecology of natural oak regeneration to silviculture, For. Ecol. Manage. 106 (1998) 1-7.
  30. Meletiou-Christou M.S., Rhizopoulou S., Diamantoglou S., Seasonal changes of carbohydrates, lipids and nitrogen in sun and shade leaves from four Mediterranean evergreen sclerophylls, Environ. Exp. Bot. 34 (1994) 129-140 [CrossRef].
  31. Mendes M.M., Gazarini L.C., Rodrigues M.L., Acclimation of Myrtus communis to contrasting Mediterranean light environments- effects on structure and chemical composition of foliage and plant water relations, Environ. Exp. Bot. 45 (2001) 165-178 [CrossRef] [PubMed].
  32. Méthy M., Damesin C., Rambal S., Drought and photosystem II activity in two Mediterranean oaks, Ann. Sci. For. 53 (1996) 255-262.
  33. Montero G., Cañellas I., Selvicultura de los alcornocales en España, Silva Lusitana 11 (2003) 1-19.
  34. Nardini A., Lo Gullo M.A., Salleo S., Competitive strategies for water availability in two Mediterranean Quercus species, Plant, Cell Environ. 22 (1999) 109-116.
  35. Nguyen-Queyrens A., Costa P., Loustau D., Plomion C., Osmotic adjustment in Pinus pinaster cuttings in response to a soil drying cycle, Ann. For. Sci. 59 (2002) 795-799 [EDP Sciences] [CrossRef].
  36. Niinemets Ü., Role of foliar nitrogen in light harvesting and shade-tolerance of four temperate deciduous woody species, Funct. Ecol. 11 (1997) 518-531 [CrossRef].
  37. Niinemets Ü., Components of leaf dry mass per area- thickness and density- alter leaf photosynthetic capacity in reverse directions in woody plants, New Phytol. 144 (1999) 35-47 [CrossRef].
  38. Osonubi O., Davis W.J., Root growth and water relations of oak and birch seedlings. Oecologia 51 (1981) 343-350.
  39. Perks M.P., Irvine J., Grace J., Xylem acoustic signals from mature Pinus sylvestris during an extended drought, Ann. For. Sci. 61 (2004) 1-8 [EDP Sciences].
  40. Pothier D., Margolis H.A., Changes in the water relations of balsam fir and white birch saplings after thinning, Tree Physiol. 6 (1990) 371-380 [PubMed].
  41. Reich P.B., Hinckley T.M., Water relations, soil fertility, and plant nutrient content of a pygmy oak ecosystem, Ecology 61 (1980) 400-416.
  42. Rhizopoulou S., Meletiou-Christou M.S., Diamantoglou S., Water relations for sun and shade leaves of four Mediterranean evergreen sclerophylls, J. Exp. Bot. 42 (1991) 627-635.
  43. Robichaux R.H., Variation in the tissue water relations of two sympatric Hawaiian Dubautia species and their natural hybrid, Oecologia 65 (1984) 75-81 [CrossRef].
  44. Sack L., Grubb P.J., The combined impacts of deep shape and drought on the growth and biomass allocation of shade-tolerant woody seedlings, Oecologia 131 (2002) 175-185 [CrossRef].
  45. Salleo S., LoGullo M.A., Sclerophylly and plant water relations in three mediterranean Quercus species, Ann. Bot. 65 (1990) 259-270.
  46. Spiro R.G., Analysis of sugars found in glycoproteins, in: Neufeld E.F., Ginsburg V. (Eds.), Methods in Enzymology VIII, Complex Carbohydrates, Academic Press, New York, 1966, pp. 3-26.
  47. Tissier J., Lambs L., Peltier J.P., Marigo G., Relationships between hydraulic traits and habitat preference for six Acer species occurring in the French Alps, Ann. For. Sci. 61 (2004) 81-86 [EDP Sciences] [CrossRef].
  48. Tognetti R., Michelozzi M., Borghetti M., Response to light of shade-grown beech seedlings subjected to different watering regimes, Tree Physiol. 14 (1994) 751-758 [PubMed].
  49. Tschaplinski T.J., Gebre G.M., Shirshac T.L., Osmotic potential of several hardwood species as affected by manipulation of throughfall precipitation in an upland oak forest during a dry year, Tree Physiol. 18 (1998) 291-298 [PubMed].
  50. Thomas F.M., Gausling T., Morphological and physiological responses of oak seedlings (Quercus petraea and Q. robur) to moderate drought, Ann. Sci. For. 57 (2000) 325-333.
  51. Tyree M.T., Ritchter H. Alternative methods of analysing water potential isotherms: some cautions and clarifications. I. The impact of non-ideality and some experimental errors, J. Exp. Bot. 32 (1981) 643-653.
  52. Valladares F., Pearcy R.W., Interactions between water stress, sun-shade acclimation, heat tolerance and photoinhibition in the sclerophyll Heteromeles arbutifolia, Plant, Cell Environ. 20 (1997) 25-36.
  53. Valladares F., Pearcy R., Drought can be more critical in the shade than in the sun: a field study of carbon gain and photo-inhibition in a Californian shrub during a dry El Niño year, Plant Cell Environ. 25 (2002) 749-759 [CrossRef]
  54. Vieira Natividade J., Subericultura., Direcςao Geral dos Seviςos Florestais e Aquicolas, Portugal, 1951.
  55. Welander N.T., Ottosson B., The influence of low light, drought and fertilization on transpiration and growth in young seedlings of Quercus robur L., For. Ecol. Manage. 127 (2000) 139-151.