Free Access
Ann. For. Sci.
Volume 60, Number 8, December 2003
Page(s) 763 - 772
References of Ann. For. Sci. 60 763-772
  1. Addoms R.M., Entrance of water into suberized roots of trees, Physiol. Plant 21 (1946) 109-111.
  2. Backes K., Leuschner Ch., Leaf water relations of competitive Fagus sylvatica L. and Quercus petraea (Matt.) Liebl. trees during four years differing in soil drought, Can. J. For. Res. 30 (2000) 335-346 [CrossRef].
  3. Barrowclough D.E., Peterson C.A., Steudle E., Radial hydraulic conductivity along developing onion roots, J. Exp. Bot. 51 (2000) 547-557 [CrossRef] [PubMed].
  4. Bledsoe C.S., Zasoki R.J., Effects of ammonium and nitrate on growth and nitrogen uptake by mycorrhizal Douglas-fir seedlings, Plant Soil 71 (1983) 445-454.
  5. Büttner V., Leuschner Ch., Spatial and temporal patterns of fine root abundance in a mixed oak-beech forest, For. Ecol. Manage. 70 (1994) 11-21.
  6. Chung H.-H., Kramer P.J., Absorption of water and 32P through suberized and unsuberized roots of Loblolly pine, Can. J. For. Res. 5 (1975) 229-236.
  7. Clarkson, D.T., Carvajal M., Henzler T., Waterhouse R.N., Smyth A.J., Cooke D.T., Steudle E., Root hydraulic conductance: diurnal aquaporin expression and the effects of nutrient stress, J. Exp. Bot. 51 (2000) 61-70 [CrossRef] [PubMed].
  8. Coners H., Wasseraufnahme und artspezifische hydraulische Eigenschaften der Feinwurzeln von Buche, Eiche und Fichte: In situ-Messungen an Altbäumen. Ph.D. thesis, Göttingen University, Germany, 2001.
  9. Coners H., Leuschner Ch., Water absorption by tree fine roots measured in situ with miniature sap flow gauges, Funct. Ecol. 16 (2002) 696-703 [CrossRef].
  10. Coners H., Leuschner Ch., Daily and seasonal variation of root water uptake by three temperate tree species in its dependence on plant, soil and atmospheric factors. Submitted.
  11. Cruz R.T., Jordan W.R., Drew M.C., Structural changes and associated reduction of hydraulic conductance in roots of Sorghum bicolor L. following exposure to water deficit, Physiol. Plant 99 (1992) 203-212.
  12. Ellenberg H., Vegetation Mitteleuropas mit den Alpen in ökologischer, dynamischer und historischer Sicht. 5th ed. Stuttgart, Germany: Ulmer Verlag, 1996.
  13. Escamilla J.A., Comerford N.B., Measuring nutrient depletion by roots of mature trees in the field, Soil Sci. Soc. Am. J. 62 (1998) 797-804.
  14. Faiz M.A., Weatherley P.E., Root contraction in transpiring plants, New Phytol. 92 (1982) 333-343.
  15. Green S.R., Clothier B.E., Root water uptake by kivifruit vines following partial wetting of the root zone, Plant Soil 173 (1995) 317-328.
  16. Hertel D., Das Feinwurzelwerk von Rein- und Mischbeständen der Rotbuche : Struktur, Dynamik und interspezifische Konkurrenz, Dissertationes Botanicae 317 (1999) 1-190.
  17. Howard S.B., Ong C.K., Black C.R., Khan A.A.H., Using sap flow gauges to quantify water uptake by tree roots from beneath the crop rooting zone in agroforestry systems, Agrofor. Syst. 35 (1997) 15-29.
  18. Jackson R.B., Sperry J.S., Dawson T.E., Root water uptake and transport: using physiological processes in global predictions, Trends Plant Sci. 5 (2000) 482-488 [CrossRef] [PubMed].
  19. Knievel D.P., Procedure for estimating ratio of living and dead root dry matter in root core samples, Crop Sci. 13 (1973) 124-126.
  20. Kolattukudy P.E., Agrawal V.P., Structure and composition of aliphatic constituents of potato tuber skin (suberin), Lipids 9 (1974) 682-691.
  21. Lapierre C., Pollet B., Monties B., Thiacidolysis of spruce lignin: GC-MS analysis of the main dimers recovered after Raney nickel desulphurication, Holzforschung 45 (1991) 61-68.
  22. Leuschner Ch., Changes in forest ecosystem function with succession in the Lüneburger Heide, in: Tenhunen J., Hantschel R., Lenz R. (Eds.) Ecosystem Approaches to Landscape Management in Central Europe, Ecol. Stud. 147 (2000) 517-568.
  23. Leuschner Ch., Hertel D., Coners H., Büttner V., Root competition between beech and oak: a hypothesis, Oecologia 126 (2001) 276-284 [CrossRef].
  24. Leuschner Ch., Rode M.W., The role of plant resources in forest succession: changes in radiation, water and nutrient fluxes, and plant productivity over a 300-yr-long chronosequence in NW Germany, Perspectives in Plant Ecology, Evolution and Systematics 2 (1999) 103-147.
  25. Leuschner Ch., Backes K., Hertel D., Schipka F., Schmitt U., Terborg O., Runge M., Drought responses at leaf, stem and fine root levels of competitive Fagus sylvatica L. and Quercus petraea (Matt.) Liebl. trees in dry and wet years, For. Ecol. Manage. 149 (2001) 33-46.
  26. MacFall J.S., Johnson G.A., Kramer P.J., Comparative water uptake by roots of different ages in seedlings of loblolly pine (Pinus taeda L.), New Phytol. 119 (1991) 551-560.
  27. McKenzie B., Peterson C.A., Root browning in Pinus banksiana Lamb. and Eucalyptus pilularis Sm. 2. Anatomy and permeability of the cork zone, Bot. Acta 108 (1995) 138-143.
  28. Moreshet S., Huang B., Huck M.G., Water permeability of roots, in: Waisel Y., Eshel A., Kafkafi U. (Eds.) Plant Roots, The Hidden Half, New York, Marcel Dekker, 1996, pp. 659-768.
  29. Muhsin T.M., Zwiazek J.J., Ectomycorrhizas increase apoplastic water transport and root hydraulic conductivity in Ulmus americana seedlings, New Phytol. 153 (2002) 153-158 [CrossRef].
  30. North G.B., Nobel P.S., Radial hydraulic conductivity of concentric root tissues of Agave deserti Engelm. under wet and drying conditions, New Phytol. 130 (1996) 47-57.
  31. Oertli J.J., Transport of water in the rhizosphere and in roots, in: Waisel Y., Eshel A., Kafkafi U. (Eds.) Plant Roots, The Hidden Half, Marcel Dekker, New York, pp. 607-634.
  32. Peterson C.A., Cholewa E., Structural modification of the apoplast and their potential impact on ion uptake, Z. Pflanzenernähr. Bodenkd. 161 (1998) 521-531.
  33. Raison R.J., Connell M.J., Khanna P.K., Methodology for studying fluxes of soil mineral-N in situ, Soil Biol. Biochem. 19 (1987) 521-530 [CrossRef].
  34. Rüdinger M., Hallgren S.W., Steudle E., Schulze E.-D., Hydraulic and osmotic properties of spruce roots, J. Exp. Bot. 45 (1994) 1413-1425.
  35. Sakuratani T., A heat balance method for measuring water flux in the stem of intact plants, J. Agric. Meteorol. 37 (1981) 9-17.
  36. Senock R.S., Ham J.M., Heat balance sap flow gauge for small diameter stems, Plant Cell Environ. 16 (1993) 593-601.
  37. Senock R.S., Leuschner Ch., Axial water flux dynamics in small diameter roots of a fast growing tropical tree, Plant Soil 208 (1999) 57-71 [CrossRef].
  38. Stavosky E., Peterson C.A., Effects of drought and subsequent rehydration on the structure, vitality and permeability of Allium cepa adventitous roots, Can. J. Bot. 71 (1993) 700-707.
  39. Schreiber L., Breiner H.-W., Riederer M., Düggelin M., Guggenheim R., The Casparian strip of Clivia miniata Reg. roots: isolation, fine structure and chemical nature, Bot. Acta 107 (1994) 353-361
  40. Steudle E., Pressure probe techniques: basic principles and application to studies of water and solute relations at the cell, tissue and organ level, in: Smith J.A.C., Griffiths H. (Eds.), Water deficits: plant responses from cell to community, Oxford, England: Bios Scientific Publishers, 5-36, 1993.
  41. Steudle E., Water uptake by plant roots: an integration of views, Plant Soil 226 (2000a) 45-56 [CrossRef].
  42. Steudle E., Water uptake by roots: effects of water deficit, J. Exp. Bot. 51 (2000b) 1531-1542 [CrossRef] [PubMed].
  43. Steudle E., Heydt H., Water transport across tree roots, in: Rennenberg H., Eschrich W., Ziegler H. (Eds.), Trees - Contributions to Modern Tree Physiology, Leiden, The Netherlands: Backhuys Publishers, 1997, pp. 239-255.
  44. Steudle E., Meshcheryakov A.B., Hydraulic and osmotic properties of oak roots, J. Exp. Bot. 47 (1996) 387-401.
  45. Steudle E., Peterson C.A., How does water get through roots? J. Exp. Bot. 49 (1998) 775-788 [CrossRef].
  46. Van Rees K.C.J., Comerford N.B., The role of woody roots of slash pine seedlings in water and potassium absorption, Can. J. For. Res. 20 (1990) 1183-1191.
  47. Veen B.W., Van Noordwijk M., De Willigen P., Boone F.R., Kooistra M.J., Root-soil contact of maize, as measured by a thin-section technique, Plant Soil 139 (1992) 131-138.
  48. Von Wilpert K., Die Jahrringstruktur von Fichten in Abhängigkeit vom Bodenwasserhaushalt auf Pseudogley und Parabraunerde, Freiburger Bodenkundliche Abhandlungen 24 (1990) 1-184.
  49. Zeier J., Schreiber L., Chemical composition of hypodermal and endodermal cell walls and xylem vessels isolated from Clivia miniata: identification of the biopolymers lignin and suberin, Physiol. Plant 113 (1997) 1223-1231.
  50. Zeier J., Schreiber L., Comparative investigation of primary and tertiary endodermal cell walls isolated from the roots of five monocotyledoneous species: chemical composition in relation to fine structure, Planta 206 (1998) 349-361 [CrossRef].
  51. Zeier J., Ruel K., Ryser U., Schreiber L., Chemical analysis and immunolocalisation of lignin and suberin in endodermal and hypodermal rhizodermal cell walls of developing maize (Zea mays L.) primary roots, Planta 209 (1999) 1-12 [CrossRef] [PubMed].
  52. Zimmermann M.H., Hartmann K., Schreiber L., Steudle E., Chemical composition of apoplastic transport barriers in relation to radial hydraulic conductivity of corn roots (Zea mays L.), Planta 210 (2000) 302-311 [PubMed].