Free Access
Ann. For. Sci.
Volume 60, Number 2, March 2003
Page(s) 173 - 178


  1. Andersson C., Distribution of seedlings and saplings of Quercus robur in a grazed deciduous forest, J. Veg. Sci. 2 (1991) 279-282.
  2. Andersson C., Frost I., Growth of Quercus robur seedlings after experimental grazing and cotyledon removal, Acta Bot. Neerl. 45 (1996) 85-94.
  3. Biging G.S., Wensel L.C., The effect of eccentricity on the estimation of basal area and basal area increment of coniferous trees, For. Sci. 34 (1988) 621-633.
  4. Braithwaite T.W., Mayhead G.J., The effects of simulated browsing on the growth of sessile oak (Quercus petraea (Matt.) Lieblein), Arboric. J. 20 (1996) 59-64.
  5. Chaar H., Colin F., Leborgne G., Artificial defoliation, decapitation of the terminal bud, and removal of the apical tip of the shoot in sessile oak seedlings and consequences on the subsequent growth, Can. J. For. Res. 27 (1997) 1614-1621.
  6. Chaar H., Colin F., Développement en hauteur des régénérations de chêne sessile [Aerial development of sessile oak regeneration material], Rev. For. Fr. 2 (1999) 341-354.
  7. Chaar H., Colin F., Collet C., Effects of environmental factors on the shoot development of Quercus petraea seedlings: methodological approach, For. Ecol. Manage. 97 (1997) 119-131.
  8. Colin F., Danjon F., Wehrlen L., études racinaires au sein du programme `Croissance' de l'INRA (Quercus petraea et Pinus pinaster) [Studies on roots within the programme `Growth' at INRA (Quercus petraea and Pinus pinaster)], Rev. For. Fr. 157 (1995) 165-172.
  9. Collet C., Colin F., Bernier F., Height growth, shoot elongation and branch development of young Quercus petraea grown under different levels of resource availability, Ann. Sci. For. 54 (1997) 65-81.
  10. Crow T.R., Reproductive mode and mechanisms for self- replacement of northern red oak (Quercus rubra) - a review, For. Sci. 34 (1988) 19-40.
  11. Eiberle K., Folgewirkungen eines simulierten Wildverbisses auf die Entwicklung junger Waldbäume [The consequential effects of simulated deer browsing on the development of young forest trees], Schweiz. Z. Forstwes. 129 (1978) 757-768.
  12. Eiberle K., Methodische Möglichkeiten zum Verständnis der waldbaulich tragbaren Verbissbelastung (Evaluating silviculturally acceptable browsing rates), Schweiz. Z. Forstwes. 131 (1980) 311-326.
  13. Eiberle K., Nigg H., Grundlagen zur Beurteilung des Wildverbisses im Gebirgswald [Basis for assessing game browsing game browsing in montane forests], Schweiz. Z. Forstwes. 138 (1987) 747-785.
  14. Fitter A.H., The ecological significance of roots system architecture: an economic approach, in: Atkinson D. (Ed.), Plant Root Growth: An Ecological Perspective, Special Publication of the Brithish Ecological Society, No. 10, Blackwell Scientific Publications, Oxford, 1991, pp. 229-243.
  15. Fitter A.H., Characteristics and functions of root systems, in: Waisel Y., Eshel A., Kafkali U. (Eds.), Plant Roots - The Hidden Half. Second Edition, revised and expanded. Marcel Dekker Inc., New York, 1996, pp. 3-25.
  16. Fuchs M.A., Krannitz P.G., Harestad A.S., Factors affecting emergence and first-year survival of seedlings of Garry oaks (Quercus garryana) in British Columbia, Canada, For. Ecol. Manage. 137 (2000) 209-219.
  17. Gerber R., Schmidt W., Einfluss des Rehwildes auf die Vegetation von Eichen-Hainbuchenwäldern im südlichen Steigerwald [Influence of roe deer on the vegetation of oak-hornbeam-forests in the southern Steigerwald], Verhandlungen der Gesellschaft für Ökologie 26 (1996) 345-353.
  18. Gill R.M.A., A review of damage by mammals in north temperature forests: 2. Small mammals, Forestry 65 (1992a) 281-308.
  19. Gill R.M.A., A review of damage by mammals in North Temperature Forests: 3. Impact on trees and forests, Forestry 65 (1992b) 363-388.
  20. Gill R.M.A., Beardall V., The impact of deer on woodlands: the effects of browsing and seed dispersal on vegetation structure and composition, Forestry 74 (2001) 209-218.
  21. Harmer R., The effect of plant competition and simulated summer browsing by deer on tree regeneration, J. Appl. Ecol. 38 (2001) 1094-1103.
  22. Harmer R., Baker C., An evaluation of decapitation as a method for selecting clonal Quercus petraea (Matt.) Liebl. with different branching intensities, Ann. Sci. For. 52 (1995) 89-1002.
  23. Harmer R., Gill R., Natural regeneration in broadleaved woodlands: deer browsing and the establishment of advance regeneration. Information Note - Forestry Commission. Forestry Commission, No. 35, Edinburgh, 2000.
  24. Hibbs D.E., Yoder B.J., Development of Oregon White Oak Seedlings, Northwest Science 67 (1993) 30-36.
  25. König E., Wildschadenprobleme bei der Waldverjüngung [Problems by game damage for forest regeneration], Schweiz. Z. Forstwes. 127 (1976) 40-57.
  26. Lacointe A., Sauter J.J., Amiglio T., Harms U., Pellicer V., Frossard J.S., Carbohydrate and protein reserves in trees, in: Sandermann Jr. H., Bonnet-Masimbert M. (Eds.), EUROSILVA - Contribution to Forest Tree Physiology, Les Colloques 76, INRA, Paris, 1995, pp. 273-296.
  27. Neter J., Wasserman W., Kutner M.H., Applied linear statistical models: regression, analysis of variance, and experimental designs, RD Irwin Inc., Burr Ridge Boston, 1990.
  28. Papatheodorou E.M., Pantis J.D., Stamou G.P., The effect of grazing on phenology and biomass allocation in Quercus coccifera (L.), Acta Oecol. 19 (1998) 339-347.
  29. Santantonio D., Modeling growth and production of tree roots, in: Dixon R.K., Meldah R.S., Ruark G.A., Warren W.G. (Eds.), Process modeling of Forest Growth Responses to Environmental Stress, Timber Press Inc., Portland Oregon, 1990, pp. 124-141.
  30. SAS Institute Inc., SAS/STAT®, user's guide, version 6, 4th edn., Volume 2, SAS Institute Inc., Cary, 1989.
  31. Sawadogo L., Nygard R., Pallo F., Effects of livestock and prescribed fire on coppice growth after selective cutting of Sudanian savannah in Burkina Faso, Ann. For. Sci. 59 (2002) 185-195.
  32. Sipe T.W., Bazzaz F.A., Shoot damage effects on regeneration of maple (Acer) across an understorey-gap microenvironmental gradient, J. Ecol. 89 (2001) 761-773.
  33. Sung S.-J.S., Kormanik P.P., Black C.C., Temporal and spatial aspects of root and stem sucrose of metabolism in loblolly pine trees, Tree Physiol. 16 (1996) 1003-1008.
  34. Sutton R.F., Tinus R.W., Root and root system terminology, Forest Science suppl. 29 (1983) 1-137.
  35. Thornley J.H.M., Modelling shoot: root relations: the only way forward?, Ann. Bot. 81 (1998) 165-171.
  36. Van Hees A.F.M., Kuiters A.T., Slim P.A., Growth and development of silver birch, pedunculate oak and beech as affected by deer browsing, For. Ecol. Manage. 88 (1996) 55-63.
  37. Vila B., Keller T., Guibal F., Influence of browsing cessation on Picea sitchensis radial growth, Ann. For. Sci. 58 (2001) 853-859.
  38. Wright S.L., Hall R.W., Peacock J.W., Effect of simulated insect damage on growth and survival of northern red oak (Quercus rubra L.) seedlings, Environ. Entomol. 18 (1989) 235-239.
  39. Ziegenhagen B., Kausch W., Productivity of young shaded oaks (Quercus robur L.) as corresponding to shoot morphology and leaf anatomy, For. Ecol. Manage. 72 (1995) 97-108.


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