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Issue
Ann. For. Sci.
Volume 60, Number 7, October-November 2003
Technical, Environmental and Economic challenges of Forest Vegetation Management
Page(s) 741 - 748
DOI http://dx.doi.org/10.1051/forest:2003068
References of Ann. For. Sci. 60 741-748
  1. Ahlgren C.E., Some effects of fire on reproduction and growth of vegetation in northeastern Minnesota, Ecology 41 (1960) 431-445.
  2. Bedford L., Sutton R.F., Stordeur L., Grismer M., Establishing white spruce in the Boreal White and Black Spruce zone - Site preparation trials at Wonowon and Iron Creek, British Columbia, New For. 20 (2000) 213-233.
  3. Bonan G.B., Soil temperature as an ecological factor in boreal forests, in: Shugart H.H., Leemans R., Bonan G.B. (Eds.), System analysis of the global boreal forest, Cambridge Press, Cambridge, 1992, pp. 126-143.
  4. Callaway R.M., King L., Temperature-driven variation in substrate oxygenation and the balance of competition and facilitation, Ecology 77 (1996) 1189-1195.
  5. Cole E., Youngblood A., Newton M., Effects of competing vegetation on juvenile white spruce (Picea glauca (Moench) Voss) growth in Alaska, Ann. For. Sci. 60 (2003) 573-583.
  6. Conlin T.S.S., Lieffers V.J., Root respiration of boreal forest conifers under anoxia and cool conditions, Can. J. For. Res. 23 (1992) 767-771.
  7. DeLucia E.H., Effects of low root temperature on net photosynthesis, stomatal conductance and carbohydrate concentration in Engelmann spruce (Picea engelmannii Parry ex Engelm.) seedlings, Tree Physiol. 2 (1986) 527-533.
  8. Drew T.J., Managing white spruce in Alberta's mixed-wood forest: the dilemma, in: Samoil J.K. (Ed.), Management and utilization of northern mixed woods, Report NOR-X-296, Can. For. Serv., North. For. Centre, Edmonton, Alberta, 1988, pp. 35-40.
  9. Dubé S., Plamondon A.P., Rothwell R.L., Watering up after clear-cutting on forested wetlands of the St. Lawrence lowland, Water Resource Res. 31 (1995) 1741-1750.
  10. Dulohery C.J., Kolka R.K., McKevlin M.R., Effects of a willow overstory on planted seedlings in a bottomland restoration, Ecol. Engin. 15 (2000) S57-S66.
  11. Dyrness C.T., Norum R.A., The effects of experimental fires on black spruce forest floors in interior Alaska, Can. J. For. Res. 13 (1983) 879-893.
  12. Eis S., Establishment and early development of white spruce in the interior of British Columbia, For. Chron. 43 (1967) 174-177.
  13. Eis S., Effects of vegetation competition on revegetation of white spruce, Can. J. For. Res. 11 (1981) 1-8.
  14. Folk R.S., Grossnickle S.C., Russel J.H., Gas exchange, water relations and morphology of yellow-cedar seedlings and stockings before planting and during field establishment, New For. 9 (1995) 1-20.
  15. Grossnickle S.C., Influence of flooding and soil temperature on the water relations and morphological development of cold-stored black spruce and white spruce seedlings, Can. J. For. Res. 17 (1987) 821-828.
  16. Grossnickle S.C., Ecophysiology of northern spruce species: The performance of planted seedlings, NRC Research Press, Ottawa, 2000.
  17. Grossnickle S.C., Blake T.J., Acclimation of cold-stored jack pine and white spruce seedlings: effect of soil temperature on water relations, Can. J. For. Res. 15 (1985) 544-550.
  18. Häussling C.A., Jorn CA., Lehmbecker G., Hecht-Buchholz C., Marschner H., Ion and water uptake in relation to root development in Norway spruce (Picea abies), J. Plant Physiol. 13 (1988) 486-491.
  19. Heikurainen L., Effects of cutting on the ground water level on drained peatlands, in: Sopper W.E., Corbett E.S. (Eds.), International symposium on forest hydrology, Pergamon, Tarrytown, 1967, pp. 345-354.
  20. Hogg E.H., Lieffers V.J., The impact of Calamagrostis canadensis on soil thermal regimes after logging in northern Alberta, Can. J. For. Res. 21 (1991) 387-394.
  21. Hornung M., Newson M., Upland afforestation: influences on stream hydrology and chemistry, Soil Use Manage. 2 (1986) 61-65.
  22. Jackson M.B., Armstrong W., Formation of aerenchyma and the processes of plant ventilation in relation to soil flooding and submergence, Plant Biol. 1 (1999) 274-287.
  23. Jackson M.B., Attwood P.A., Roots of willow (Salix viminalis L.) show marked tolerance to oxygen shortage in flooded soils and in solution culture, Plant Soil 187 (1996) 37-45.
  24. Jobidon R., Roy V., Cyr G., Net effect of competing vegetation on selected environmental conditions and performance of four spruce seedling stock sizes after eight years in Québec (Canada), Ann. For. Sci. 60 (2003) 691-699.
  25. Kaufmann M.R., Leaf water stress in Engelmann spruce: Influence of the root and shoot environments, Plant Physiol. 56 (1975) 841-844.
  26. Kozlowski T.T., Water supply and tree growth. Part II. Flooding, For. Abstr. 43 (1982) 145-161.
  27. Kozlowski T.T., Soil aeration and growth of forest trees, Scand. J. For. Res. 1 (1986) 113-123.
  28. Kozlowski T.T., Responses of woody plants to flooding and salinity, http://www.heronpublishing.com/tp/monograph/kozlowski.pdf, 1997.
  29. Landhäusser S.M., The effect of soil temperature on rooting and early establishment of Populus balsamifera cuttings, Tree Plant. Notes (to be published).
  30. Landhäusser S.M., Lieffers V.J., Rhizome growth of Calamagrostis canadensis into mounds created for tree seedling establishment, New For. 18 (1999) 245-262.
  31. Landhäusser S.M., Lieffers V.J., Growth of Populus tremuloides in association with Calamagrostis canadensis, Can. J. For. Res. 28 (1998) 396-401 [CrossRef].
  32. Landhäusser S.M., Lieffers V.J., Competition between Calamagrostis canadensis and Epilobium angustifolium under different soil temperature and nutrient regimes, Can. J. For. Res. 24 (1994) 2244-2250.
  33. Landhäusser S.M., Desrochers A., Lieffers V.J., A comparison of growth and physiology in white spruce (Picea glauca) and aspen (Populus tremuloides) at different soil temperatures, Can. J. For. Res. 31 (2001) 1922-1929 [CrossRef].
  34. Landhäusser S.M., Stadt K.J., Lieffers V.J., McNabb D., Rhizome growth of Calamagrostis canadensis in response to soil nutrients and bulk density, Can. J. Plant Sci. 76 (1996) 545-550.
  35. Landhäusser S.M., Wein R.W., Lange P., Gas exchange and growth of three arctic treeline tree species under different soil temperature and drought pre-conditioning regimes, Can. J. Bot. 74 (1996) 686-693.
  36. Leder B., Zur Geschichte einer Einbeziehung von Weichlaubhölzern in die waldbauliche Praxis, Forst und Holz 48 (1993) 337-343.
  37. Leder B., Weichlaubhölzer in Eichen- und Buchen-Jungbeständen, Forst und Holz 51 (1996) 340-344.
  38. Lees J.C., Soil aeration and Sitka spruce seedling growth in peat, J. Ecol. 60 (1972) 343-349.
  39. Lees J.C., Soil aeration response to draining intensity in basin peat, Forestry 45 (1972) 135-143.
  40. Letey J., Stolzy L.H., Measurement of oxygen diffusion rates with the platinum microelectrode. I. Theory and equipment, Hilgardia 35 (1964) 545-554.
  41. Levan M.A., Riha S.J., Response of root systems of northern conifer transplants to flooding, Can. J. For. Res. 16 (1986) 42-46.
  42. Lieffers V.J., Rothwell R.L., Effects of depth and water table and substrate temperature on root and top growth of Picea mariana and Larix laricina, Can. J. For. Res. 16 (1986) 1201-1206.
  43. Lieffers V.J., Stadt K.J., Growth of understory Picea glauca, Calamagrostis canadensis and Epilobium angustifolium in relation to overstory light transmission, Can. J. For. Res. 24 (1994) 1193-1198.
  44. Lieffers V.J., Macdonald S.E., Hogg E.H., Ecology of and control strategies for Calamagrostis canadensis in boreal in forest sites, Can. J. For. Res. 23 (1993) 2070-2077.
  45. Man R., Lieffers V.J., Photosynthesis of Picea glauca and Pinus banksiana in relation to season and temperature, Can. J. Bot. 75 (1997) 1766-1771.
  46. McIntyre D.S., The platinum microelectrode method for soil aeration measurement, Adv. Agron. 22 (1970) 235-283.
  47. McMinn R.G., Mechanical site preparation in forest vegetation management: A research synthesis, in: Harrington T.B., Parendes L.A. (Eds.), Forest vegetation management without herbicides, Proc. Feb 1992, College of Forestry, O.S.U, Oregon, 1993, pp. 39-43.
  48. Neilson R.E., Jarvis P.G., Photosynthesis in Sitka spruce (Picea sitchensis (Bong.) Carr.). IV. Response of stomata to temperature, J. Appl. Ecol. 12 (1976) 879-891.
  49. Örlander G., Gemmel P., Hunt J., Site preparation: a Swedish overview. FRDA Rep. 105. B.C. Min. For. Lands, Victoria, 1990.
  50. Pereira J.S., Kozlowski T.T., Variations among woody angiosperms in response to flooding, Physiol. Plant. 41 (1977) 184-192.
  51. Quine C.P., Burnand A.C., Coutts M.P., Reynard B.R., Effects of mounds and stumps on the root architecture of Sitka spruce on a peaty gley restocking site, Forestry 64 (1991) 385-401.
  52. Ray D., Nicoll B.C., The effect of soil water-table depth on root-plate development and stability of Sitka spruce, Forestry 71 (1998) 169-182.
  53. Schmidt-Schütz A., Wiederbewaldung von Fichten-Sturmwurfflächen aud vernässenden Standorten mit Hilfe von Pioniergehölzen Forst. Forschungsber. 176 (1999) 120-130.
  54. Tryon P.R., Chapin F.S., Temperature control over root growth and biomass in taiga forest trees, Can. J. For. Res. 13 (1983) 827-833.
  55. Vapaavuori E.M., Rikala R., Ryyppö A., Effects of root temperature on growth and photosynthesis in conifer seedlings during shoot elongation, Tree Physiol. 10 (1992) 217-230 [PubMed].
  56. Vartapetian B.B., Jackson M.B. Plant adaptations to anaerobic stress, Ann. Bot. 79 (1997) 3-20 [CrossRef] Suppl. A.
  57. Wan X., Zwiazek J.J., Mercuric Chloride effects on root water transport in aspen seedlings, Plant Physiol. 121 (1999) 939-946 [CrossRef] [PubMed].
  58. Wan X., Zwiazek J.J., Lieffers V.J., Landhäusser S.M., Hydraulic conductance in aspen (Populus tremuloides) seedlings exposed to low soil temperatures, Tree Physiol. 21 (2001) 691-696 [PubMed].
  59. Wan X., Landhäusser S.M., Zwiazek J.J., Lieffers V.J., Root water flow and growth of aspen (Populus tremuloides) at low root temperatures, Tree Physiol. 19 (1999) 879-884 [PubMed].
  60. Zasada J.C., Viereck L.A., Foote M.J., Parkenson R.H., Wolff J.O., Lankford L.A., Natural regeneration of Balsam Poplar following harvesting in the Susitna Valley, Alaska, For. Chron. 57 (1981) 57-65.