Free Access
Issue
Ann. For. Sci.
Volume 66, Number 1, January-February 2009
Article Number 101
Number of page(s) 11
DOI https://doi.org/10.1051/forest/2008076
Published online 31 January 2009
References of  Ann. For. Sci. 66 (2009) 101
  1. Aasamaa K., Sober A., Hartung W., and Niinemets U., 2004. Drought acclimation of two deciduous tree species of different layers in a temperate forest canopy. Trees 18: 93–101.
  2. Aranda I., Gil L., and Pardos J.A., 2000. Water relations and gas exchange in Fagus sylvatica L. and Quercus petraea (Mattuschka) Liebl. in a mixed stand at their southern limit of distribution in Europe. Trees 14: 344–352 [CrossRef].
  3. Backes K., 1996. Der Wasserhaushalt vier verschiedener Baumarten der Heide-Wald-Sukzession. Ph.D. thesis, Univ. Göttingen.
  4. Backes K. and Leuschner C., 2000. Leaf water relations of competitive Fagus sylvatica and Quercus petraea trees during 4 years differing in soil drought. Can. J. For. Res. 30: 335–346 [CrossRef].
  5. Bolte A., Czajkowski T., and Kompa T., 2007. The north-eastern distribution range of European beech – a review. Forestry 80: 413–429 [CrossRef].
  6. Bovard B.D., Curtis P.S., Vogel C.S., Su H.B., and Schmid H.P., 2005. Environmental controls on sap flow in a northern hardwood forest. Tree Physiol. 25: 31–38 [PubMed].
  7. Bréda N., Huc R., Granier A., and Dreyer E., 2006. Temperate forest trees and stands under severe drought: a review of ecophysiological responses, adaptation processes and long-term consequences. Ann. For. Sci. 63: 625–644 [EDP Sciences] [CrossRef].
  8. Carlier G., Peltier J.P., and Gielly L., 1992. Water relations of ash (Fraxinus excelsior L.) in a mesoxerophilic mountain stand. Ann. Sci. For. 49: 207–223 [CrossRef].
  9. Clearwater M.J., Meinzer F.C., Andrade J.L., Goldstein G., and Holbrook N.M., 1999. Potential errors in measurements of nonuniform sap flow using heat dissipation probes. Tree Physiol. 19: 681–687 [PubMed].
  10. Cochard H., Bréda N., and Granier A., 1996. Whole tree hydraulic conductance and water loss regulation in Quercus during drought: evidence for stomatal control of embolism? Ann. Sci. For. 53: 197–206.
  11. Cochard H., Peiffer M., LeGall K., and Granier A., 1997. Developmental control of xylem hydraulic resistances and vulnerability to embolism in Fraxinus excelsior L: Impacts on water relations. J. Exp. Bot 48: 655–663 [CrossRef].
  12. Crombie D.S., Milburn J.A., and Hipkins M.F., 1985. Maximum sustainable xylem sap tensions in Rhododendron and other species. Planta 163: 27–33 [CrossRef].
  13. Ellenberg H. and Leuschner C., 2009. Vegetation Mitteleuropas mit den Alpen in ökologischer, dynamischer und historischer Sicht. 6th Ed., Ulmer, Stuttgart, in press.
  14. Frech A., 2006. Walddynamik in Mischwäldern des Nationalparks Hainich: Untersuchung der Mechanismen und Prognose der Waldentwicklung. Ph.D. thesis, Univ. of Göttingen.
  15. Gebauer T., Horna V., and Leuschner C., 2008. Variability in radial sap flux density patterns and sapwood area among seven co-occurring temperate broad-leaved tree species. Tree Physiol. 28: 1821–1830 [PubMed].
  16. Granier A., 1987. Evaluation of transpiration in a Douglas-fir stand by means of sap flow measurements. Tree Physiol. 3: 309–319 [PubMed].
  17. Granier A., Huc R., and Barigah S.T., 1996. Transpiration of natural rain forest and its dependence on climatic factors. Agric. For. Meteorol. 78: 19–29 [CrossRef].
  18. Guicherd P., Peltier J.P., Gout E., Bligny R., and Marigo G., 1997. Osmotic adjustment in Fraxinus excelsior L.: malate and mannitol accumulation in leaves under drought conditions. Trees 11: 155–161.
  19. Guckland A., Brauns M., Flessa H., Thomas F.M., and Leuschner C., 2008. Acidity, nutrient stocks and organic matter content in soils of a temperate deciduous forest with different abundance of European beech (Fagus sylvatica L.). J. Plant Nutr. Soil Sci. (in press).
  20. Hacke U. and Sauter J.J., 1995. Vulnerability of xylem to embolism in relation to leaf water potential and stomatal conductance in Fagus sylvatica f. purpurea and Populus balsamifera. J. Exp. Bot. 46: 1177–1183 [CrossRef].
  21. Hiekel W., Fritzlar F., Nöllert A., and Westhus W., 2004. Die Naturräume Thüringens. Naturschutzreport 21: 1–383.
  22. Hölscher D., Koch O., Korn S., and Leuschner C., 2005. Sap flux of five co-occurring tree species in a temperate broad-leaved forest during seasonal soil drought. Trees 19: 628–637 [CrossRef].
  23. Keel S.G., Pepin S., Leuzinger S., and Körner C., 2007. Stomatal conductance in mature deciduous forest trees exposed to elevated CO2. Trees 21: 151–159 [CrossRef].
  24. Korn S., 2004. Experimentelle Untersuchungen der Wasseraufnahme und der hydraulischen Eigenschaften des Wurzelsystems von sechs heimischen Laubbaumarten. Ph.D. thesis, Univ. of Göttingen.
  25. Körner C., 1994. Leaf diffusive conductances in the major vegetation types of the globe. In: Schulze E.D. and Caldwell M.M. (Eds.), Ecophysiology of photosynthesis. Springer, Berlin, Ecological Studies, Vol. 100, pp. 463–490.
  26. Lemoine D., Peltier J.P., and Marigo G., 2001. Comparative studies of the water relations and the hydraulic characteristics in Fraxinus excelsior, Acer pseudoplatanus and A. opalus trees under soil water contrasted conditions. Ann. For. Sci. 58: 723–731 [EDP Sciences] [CrossRef].
  27. Lemoine D., Cochard H., and Granier A., 2002. Within crown variation in hydraulic architecture in beech (Fagus sylvatica L.): evidence for a stomatal control of xylem embolism. Ann. For. Sci. 59: 19–27 [EDP Sciences] [CrossRef].
  28. Leuzinger S., Zotz G., Asshoff R., and Körner C., 2005. Responses of deciduous forest trees to severe drought in Central Europe. Tree Physiol. 25: 641–650 [PubMed].
  29. Loustau D. and Granier A., 1993. Environmental control of water flux through Maritime pine (Pinus pinaster Ait.). In: Borghetti J., Grace J., and Raschi A. (Eds), Water transport in plants under climatic stress. Cambridge University Press, Cambridge, pp. 205–218.
  30. Magnani, F. and Borghetti M., 1995. Interpretation of seasonal changes of xylem embolism and plant hydraulic resistance in Fagus sylvatica. Plant Cell Environ. 18: 689–696 [CrossRef].
  31. Marek M., Masarovièová E., Kratochvílová I., Eliáš P., and Janouš P., 1989. Stand microclimate and physiological activity of tree leaves in an oak-hornbeam forest. II. Leaf photosynthetic activity. Trees 4: 234–240.
  32. Marigo G., Peltier J.P., Girel J., and Pautou G., 2000. Success in the demographic expansion of Fraxinus excelsior L. Trees 15: 1–13 [CrossRef].
  33. Meehl G.A. and Tebaldi C., 2004. More intense, more frequent, and longer lasting heat waves in the 21st century. Science 305: 994–997 [PubMed] [CrossRef].
  34. Meinen C., 2008. Fine root dynamics in broad-leaved deciduous forest stands differing in tree species diversity. Ph.D. thesis, Univ. Göttingen.
  35. Meinzer F.C., 2003. Functional convergence in plant response to the environment. Oecologia 134: 1–11 [PubMed] [CrossRef].
  36. Nardini A. and Salleo S., 2000. Limitation of stomatal conductance by hydraulic traits: sensing or preventing xylem cavitation? Trees 15: 14–24.
  37. Niinemets U., Sober A., Kull O., Hartung W., and Tenhunen J.D., 1999. Apparent controls on leaf conductance by soil water availability and via light-acclimation of foliage structural and physiological properties in a mixed deciduous, temperate forest. Int. J. Plant Sci. 160: 707–721 [CrossRef].
  38. Oren R., Sperry J.S., Katul G.G., Pataki D.E., Ewers B.E., Phillips N., and Schäfer K.V.R., 1999. Survey and synthesis of intra- and interspecific variation in stomatal sensitivity to vapour pressure deficit. Plant Cell Environ. 22: 1515–1526 [CrossRef].
  39. Oren R., Sperry J.S., Ewers B.E., Pataki D.E., Phillips N., and Megonigal J.P., 2001. Sensitivity of mean canopy stomatal conductance to vapor pressure deficit in a flooded Taxodium distichum L. forest: hydraulic and non-hydraulic effects. Oecologia 126: 21–29 [CrossRef].
  40. Pataki D.E. and Oren R., 2003. Species differences in stomatal control of water loss at the canopy scale in a mature bottomland deciduous forest. Adv. Water Res. 26: 1267–1278 [CrossRef].
  41. Pataki D.E., Oren R., and Smith W.K., 2000. Sap flux of co-occurring species in a western subalpine forest during seasonal soil drought. Ecology 81: 2557–2566 [CrossRef].
  42. Phillips N., Oren R., Zimmermann R., and Wright, S.J., 1999. Temporal patterns of water flux in trees and lianas in a Panamanian moist forest. Trees 14: 116–123 [CrossRef].
  43. Pigott C.D. and Pigott S., 1993. Water as a determinant of the distribution of trees at the boundary of the Mediterranean zone. J. Ecol. 81: 557–566 [CrossRef].
  44. Roberts J. and Rosier P.T.W., 1994. Comparative estimates of transpiration of ash and beech forest at a chalk site in southern Britain. J. Hydrol. 162: 229–245 [CrossRef].
  45. Schaap M.G., Leij F.J., and van Genuchten, M.T., 1998. Neural network analysis for hierarchical prediction of soil hydraulic properties. Soil Sci. Soc. Am. J. 62: 847–855.
  46. Schär C., Vidale P.L., Luthi D., Frei C., Haberli C., Liniger M.A., and Appenzeller C., 2004. The role of increasing temperature variability in European summer heatwaves. Nature 427: 332–336 [PubMed] [CrossRef].
  47. Schipka F., 2003. Blattwasserzustand und Wasserumsatz von vier Buchenwäldern entlang eines Niederschlagsgradienten in Mitteldeutschland. Ph.D. thesis, Univ. of Göttingen.
  48. Scholander P.F., Hammel H.T., Bradstreet E.D., and Hemmingsen E.A., 1965. Sap pressure in vascular plants – negative hydrostatic pressure can be measured in plants. Science 148: 339–346 [PubMed] [CrossRef].
  49. Sellin A. and Kupper P., 2007. Effects of enhanced hydraulic supply for foliage on stomatal responses in little-leaf linden (Tilia cordata Mill.). Eur. J. For. Res. 126: 241–251.
  50. Sperry J.S., 2000. Hydraulic constraints on plant gas exchange. Agric. For. Meteorol. 104: 13–23 [CrossRef].
  51. Sperry J.S., Hacke U.G., Oren R., and Comstock J.P., 2002. Water deficits and hydraulic limits to leaf water supply. Plant Cell Environ. 25: 251–263 [PubMed] [CrossRef].
  52. Stöhr A. and Lösch R., 2004. Xylem sap flow and drought stress of Fraxinus excelsior saplings. Tree Physiol. 24: 169–180 [PubMed].
  53. Tognetti R., Johnson J.D., and Michelozzi M., 1995. The response of European beech (Fagus sylvatica L.) seedlings from two Italian populations to drought and recovery. Trees 9: 348–354.