EDP Sciences logo
Search
Menu
All issues Volume 61 / No 5 (July-August 2004) Ann. For. Sci., 61 5 (2004) 397-408 References
Free Access
Issue
Ann. For. Sci.
Volume 61, Number 5, July-August 2004
Page(s) 397 - 408
DOI https://doi.org/10.1051/forest:2004033
References of Ann. For. Sci. 61 397-408
  1. Abacus Concepts Inc., Manuel de référence de StatView, Berkeley, CA, 1996.
  2. Adams M.A., Polglase P.J., Attiwill P.M., Weston C.J., In situ studies of nitrogen mineralisation and uptake in forest soils; some comments on methodology, Soil Biol. Biochem. 21 (1989) 423-429 [CrossRef].
  3. Aggangan R.T., O'Connell A.M., McGrath J.F., Dell B., Fertilizer and previous land use effects on C and N mineralization in soils from Eucalyptus globulus plantations, Soil Biol. Biochem. 30 (1998) 1791-1798 [CrossRef].
  4. Barg A.K., Edmonds R.L., Influence of partial cutting on site microclimate, soil nitrogen dynamics, and microbial biomass in Douglas-fir stands in Western Washington, Can. J. For. Res. 29 (1999) 705-713 [CrossRef].
  5. Bobbink R., Roelofs J.G.M., Nitrogen critical loads for natural and semi-natural ecosystems: The empirical approach, Water Air Soil Pollut. 85 (1995) 2413-2418.
  6. Bonne M., Andreux F., Vedy J.C., Souchier B., Étude hydro-chimique saisonnière dans trois sols acides : composition des eaux gravitaires et des solutions extraites à pF 4,4, Sci. Sol 4 (1982) 275-292.
  7. Bonneau M., Dambrine E., Nys C., Ranger J., Apports acides et cycle des cations dans des pessières du Nord-Est. Intérêt de bilans saisonniers, Sci. Sol 29 (1991) 125-145.
  8. Bormann F.H., Likens G.E., Pattern and Process in a forest ecosystem, Springer Verlag, New York, 1979.
  9. Bormann F.H., Likens G.E., Fischer D.W., Pierce R.S., Nutrient loss accelerated by clear-cutting of a forest ecosystem, Science 159 (1968) 882-884.
  10. Braun-Blanquet J., Plant sociology, the study of plant communities, McGraw-Hill, New York, 1932, reprinted by Koeltz, Koenigstein, 1983.
  11. Brown G.W., Gahler A.R., Marston R.B., Nutrient losses after clear-cut logging and slash burning in the Oregon coast range, Water Resour. Res. 9 (1973) 1450-1453.
  12. Carlyle J.C., Bligh M.W., Nambiar E.K.S., Woody residue management to reduce nitrogen and phosphorus leaching from sandy soil after clear-felling Pinus radiata plantations, Can. J. For. Res. 28 (1998) 1222-1232 [CrossRef].
  13. Chang S.X., Preston C.M., Weetman G.F., Soil microbial biomass and microbial and mineralizable N in a clear-cut chronosequence on northern Vancouver Island, British Columbia, Can. J. For. Res. 25 (1995) 1595-1607.
  14. Chrétien J., Ranger J., Villette S., Modification au cours de la révolution forestière des caractères physiques de sols sous plantations de Douglas (Pseudotsuga menziesii Franco), Étud. gest. Sols 4 (1997) 127-140.
  15. Coats R.N., Leonard R.L., Goldman C.R., Nitrogen uptake and release in a forested watershed, Lake Tahoe Basin, California, Ecology 57 (1976) 995-1004.
  16. Compton J.A., Boone R.D., Long term impacts of agriculture on soil carbon pools and nitrogen dynamics in New England forests, Ecology 8 (2000) 2314-2330.
  17. Cortina J.,Vallejo V.R., Effects of clearfelling on forest floor accumulation and litter decomposition in a radiata pine plantation, For. Ecol. Manage. 70 (1994) 299-310.
  18. Davidson E.A., Swank W.T., Environmental parameters regulating gaseous nitrogen losses from two forested ecosystems via nitrification and denitrification, Appl. Environ. Microbiol. 52 (1986) 1287-1292.
  19. De Boer W., Klein Gunnewiek P.J.A., Troelstra S.R., Nitrification in Dutch heathland soils, II, Characteristics of nitrate production, Plant Soil 127 (1990) 193-200.
  20. Decourt N., Le Douglas dans le Nord-Est du Massif Central, Ann. Sci. For. 24 (1967) 45-84.
  21. Driscoll C.T., Schaefer D.A., Overview of nitrogen processes, in: Malanchuk J.L., Nilsson I. (Eds.), The role of nitrogen in the acidification of soils and surface waters, 1989, pp. 4-1- 4-12.
  22. Entry J.A., Stark N.M., Loewenstein H., Effects of timber harvesting on microbial biomass fluxes in a northern Rocky Mountain forest soil, Can. J. For. Res. 16 (1986) 1076-1081.
  23. Ezzaïm A., Intérêt de la mesure du flux d'éléments issu de l'altération des minéraux des sols dans le calcul des bilans minéraux d'un écosystème forestier. Le cas des plantations de Douglas dans le Beaujolais (France), Ph.D. thesis University of Nancy I, 1997.
  24. Fahey T.J., Hughes J.W., Pu M., Arthur M.A., Root decomposition and nutrient flux following whole-tree harvest of northern hardwood forest, For. Sci. 34 (1988) 744-768.
  25. Feger K.H., Nitrogen cycling in two Norway spruce (Picea abies) ecosystems and effects of a (NH4)2SO4 addition, Water Air Soil Pollut. 61 (1992) 295-307.
  26. Flinn D.W., Comparison of establishment methods for Pinus radiata on a former P. pinaster site, Aust. For. 41 (1978) 167-176.
  27. Giblin A.E., Laundre J.A., Nadelhoffer K.J., Shaver G.R., Measuring nutrient availability in arctic soils using ion exchange resins: A field test, Soil Sci. Soc. Am. J. 58 (1994) 1154-1162.
  28. Granier A., Breda N., Biron P., Villette S., A lumped water balance model to evaluate the duration and intensity of drought constraints of forest soils, Ecol. Model. 116 (1999) 269-283 [CrossRef].
  29. Grundmann G.L., Renault P., Rosso L., Bardin R., Differential effects of soil water content and temperature on nitrification and aeration, Soil Sci. Soc. Am. J. 59 (1995) 1342-1349.
  30. Gundersen P., Mass balance approaches for establishing critical loads for nitrogen in terrestrial ecosystems, in: Grennfelt P., Thörnelöf E. (Eds.), Critical loads for nitrogen, a workshop report, Nordic Council of Ministers, 1992, pp. 55-110.
  31. Gundersen P., Emmett B.A., Kjønaas O.J., Koopmans C.J., Tietema A., Impact of nitrogen deposition on nitrogen cycling in forests: a synthesis of NITREX data, For. Ecol. Manage. 101 (1998) 37-55.
  32. Harvey A.E., Jurgensen M.F., Larsen M.J., Ecology of ectomycorrhizae in northern Rocky Mountain forests, in: USDA For. Serv. Gen. Tech. Rep. INT-90, Environmental consequences of timber harvesting in Rocky Mountain coniferous forests: Symposium proceedings, 1980, pp. 188-210.
  33. Hatch D.J., Jarvis S.C., Phillips L., Field measurement of nitrogen mineralisation using soil core incubation and acetylene inhibition of nitrification, Plant Soil 124 (1990) 97-107.
  34. Hendrickson O.Q., Chatarpaul L., Robinson J.B., Effects of two methods of timber harvesting on microbial processes in forest soil, Soil Sci. Soc. Am. J. 49 (1985) 739-746.
  35. Holmes W.E., Zak D.R., Soil microbial control of nitrogen loss following clear-cut harvest in northern hardwood ecosystems, Ecol. Appl. 9 (1999) 202-215.
  36. Hornung M., Reynolds B., The effects of natural and anthropogenic environmental changes on ecosystem processes at the catchment scale, Trees 10 (1995) 443-449.
  37. Hübner C., Redl G., Wurst F., In situ methodology for studying N-mineralization in soils using anion exchange resins, Soil Biol. Biochem. 23 (1991) 701-702 [CrossRef].
  38. Hunt G.A., Fogel R.A., Direct measurement of ectomycorrhizal biomass, in: R. Molina (Ed.), Proceedings of the 6th North American Conference on Mycorrhizae, June 25-29 1984, Bend, Oregon, USA, 1985.
  39. Josserand A., Bardin R., Nitrification en sol acide. I. Mise en évidence de germes autotrophes nitrifiants (genre Nitrobacter) dans un sol forestier sous résineux, Rev. Ecol. Biol. Sol 18 (1981) 435-445.
  40. Jussy J.H., Minéralisation de l'azote, nitrification et prélèvements radiculaires dans différents écosystèmes forestiers sur sol acide. Effets de l'essence, du stade de développement du peuplement et de l'usage ancien des sols, Ph.D. thesis, University of Nancy I, 1998.
  41. Jussy J.H., Colin-Belgrand M., Ranger J., Production and root uptake of mineral nitrogen in a chronosequence of Douglas-fir (Pseudotsuga menziesii) in the Beaujolais Mounts, For. Ecol. Manage. 128 (2000) 197-209.
  42. Jussy J.H., Koerner W., Moares C., Dambrine E., Dupouey J.L., Zeller B., Benoît M., Influence de l'usage ancien des sols sur le cycle de l'azote dans les forêts vosgiennes, Étud. Gest. Sols, 2001, pp. 91-102.
  43. Jussy J.H., Koerner W., Dambrine E., Dupouey J.L., Benoît M., Influence of former agricultural land use on net nitrate production in forest soils, Eur. J. Soil Sci. 53 (2002) 367-374 [CrossRef].
  44. kaiser e.a., Heinemeyer O., Temporal changes in N2O-losses from two arable soils, Plant Soil 181 (1996) 57-63.
  45. Klemedtsson L., Svensson B.H., Rosswall T., Relationships between soil moisture content and nitrous oxide production during nitrification and denitrification, Biol. Fertil. Soils 6 (1988) 106-111.
  46. Lemée G., Investigations sur la minéralisation de l'azote et son évolution annuelle dans des humus forestiers in situ, OEcol. Plant 2 (1967) 319-324.
  47. Likens G.E., Bormann F.H., Pierce R.S., Reiners W.A., Recovery of a deforested ecosystem, Science 199 (1978) 491-496.
  48. Lossaint P., Rapp M., Sur la minéralisation de l'azote organique d'un humus lent forestier à la suite d'un labour, C. R. Acad. Sci. 251 (1960) 3034-3036.
  49. Lundgren B., Bacteria in a pine forest soil as affected by clear-cutting, Soil Biol. Biochem. 14 (1982) 537-542 [CrossRef].
  50. McColl J.G., Retention of soil water following forest cutting, Soil Sci. Soc. Am. J. 41 (1977) 984-988.
  51. McColl J.G., Ionic composition of forests soil solutions and effects of clearcutting, Soil Sci. Soc. Am. J. 42 (1978) 358-363.
  52. Magill A., Aber J., Hendricks J., Bowden R., Melillo J., Steudler P., Biogeochemical response of forest ecosystems to simulated chronic nitrogen deposition, Ecol. Appl. 7 (1997) 402-415.
  53. Marques R., Dynamique du fonctionnement minéral d'une plantation de Douglas (Pseudotsuga menziesii (Mirb.) Franco) dans les monts du Beaujolais (France), Ph.D. thesis Engref, 1996.
  54. Marques R., Ranger J., Nutrient dynamics in a chronosequence of Douglas-fir (Pseudotsuga menziesii (Mirb.) Franco) stands on the Beaujolais Mounts (France). 1. Qualitative approach, For. Ecol. Manage. 91 (1997) 255-277.
  55. Marques R., Ranger J., Gelhaye D., Pollier B., Ponette Q., Goedert O., Comparison of chemical composition of soil solutions collected by zero-tension lysimeters with those from ceramic-cup lysimeters in a forest soil, Eur. J. Soil Sci. 96 (1996) 407-417.
  56. Marques R., Ranger J., Villette S., Granier A., Nutrient dynamics in a chronosequence of Douglas-fir (Pseudotsuga menziesii (Mirb.) Franco) stands on the Beaujolais Mounts (France). 2. Quantitative approach, For. Ecol. Manage. 92 (1997) 167-197.
  57. Mulder J., Nilsen P., Stuanes A.O., Huse M., Nitrogen pools and transformations in Norwegian forest ecosystems with different atmospheric inputs, Ambio 26 (1997) 273-281.
  58. Nadelhoffer K., Aber J., Melillo J., Fine roots, net primary production, and soil nitrogen availability: a new hypothesis, Ecology 66 (1985) 1377-1390.
  59. Nohrstedt H.Ö., Sikström U., Ring E., Näsholm T., Högberg P., Persson T., Nitrate in soil water in three Norway spruce stands in southwest Sweden as related to N-deposition and soil, stand, and foliage properties, Can. J. For. Res. 26 (1996) 836-848.
  60. Paavolainen L., Kitunen V., Smolander A., Inhibition of nitrification in forest soil by monoterpenes, Plant Soil 205 (1998) 147-154 [CrossRef].
  61. Pennock D.J., van Kessel C., Clear-cut forest harvest impacts on soil quality indicators in the mixedwood forest of Saskatchewan, Canada, Geoderma 75 (1997) 13-32 [CrossRef].
  62. Persson T., Wirén A., Nitrogen mineralization and potential nitrification at different depths in acid forest soils, Plant Soil 168-169 (1995) 55-65.
  63. Pietikäinen J., Fritze H., Clear-cutting and prescribed burning in coniferous forest: comparison of effects on soil fungal and total microbial biomass, respiration activity and nitrification, Soil Biol. Biochem. 27 (1995) 101-109 [CrossRef].
  64. Powers R.F., Nitrogen mineralization along an altitudinal gradient: Interactions of soil temperature, moisture, and substrate quality, For. Ecol. Manage. 30 (1990) 19-29.
  65. 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].
  66. Ranger J., Gelhaye D., Belowground biomass and nutrient content in a 47-year-old Douglas-fir plantation, Ann. For. Sci. 58 (2001) 423-430 [EDP Sciences].
  67. Ranger J., Marques R., Colin-Belgrand M., Flammang N., Gelhaye D., The dynamics of biomass and nutrient accumulation in a Douglas-fir (Pseudotsuga menziesii Franco) stand studied using a chronosequence approach, For. Ecol. Manage. 72 (1995) 167-183.
  68. Ranger J., Marques R., Colin-Belgrand M., Nutrient dynamics during the development of a Douglas-fir (Pseudotsuga menziesii Mirb.) stand, Acta OEcol. 18 (1997) 73-90.
  69. Ranger J., Marques R., Gelhaye D., Bienaimé S., Gelhaye L., Pollier B., Koerner W., La dynamique du fonctionnement minéral d'une plantation de Douglas (Pseudotsuga menziesii Franco) dans le Beaujolais, Ecologie 29 (1998) 411-415.
  70. Ranger J., Allié S., Gelhaye D., Pollier B., Turpault M.P., Granier A., Nutrient budgets calculated for a rotation of a Douglas-fir plantation in the Beaujolais (France). Conclusions after six years of measurements in a chronosequence of stands, For. Ecol. Manage. 171 (2002) 3-16.
  71. Ranger J., Gérard F., Lindemann M., Gelhaye D., Gelhaye L., Dynamics of litterfall in a chronosequence of Douglas-fir (Pseudo-tsuga menziesii Franco) stands in the Beaujolais mounts (France), Ann. For. Sci. 60 (2003) 475-488 [EDP Sciences] [CrossRef].
  72. Ross D.J., Sparling G.P., Burke C.M., Smith C.T., Microbial biomass C and N, and mineralizable-N, in litter and mineral soil under Pinus radiata on a coastal sand: Influence of stand age and harvest management, Plant Soil 175 (1995) 167-177.
  73. Sierra J., Temperature and soil moisture dependance of N mineralization in intact soil cores, Soil Biol. Biochem. 9/10 (1997) 1557-1563.
  74. Smolander A., Priha O., Paavolainen L., Steer J., Mälkönen E., Nitrogen and carbon transformations before and after clear-cutting in repeatedly N-fertilized and limed forest soil, Soil Biol. Biochem. 30 (1998) 477-490 [CrossRef].
  75. Soil Survey Staff, Soil Taxonomy, USDA Conservation Service, US Government Printing Office, Washington DC, 1975.
  76. Staaf H., Berg B., Plant litter input to soil, in: Clarke F.E., Rosswall T. (Eds.), Terrestrial Nitrogen Cycles, Ecol. Bull. Stockholm 33, 1981, pp. 147-162.
  77. Stober C., George E., Persson H., Root Growth and Response to Nitrogen, in: Schulze E.D. (Ed.), Carbon and nitrogen cycling in european forest ecosystems, Ecol. Stud. 142, Springer, Berlin, 2000, pp. 99-121.
  78. Stone E.L., The impact of timber harvest on soil and water, in: Government printing office (Ed.), Report of the president's advisory panel on timber and the environment, Washington, DC, USA, 1973, pp. 427-467.
  79. Sundman V., Huhta V., Niemela S., Biological changes in northern spruce forest soil after clear-cutting, Soil Biol. Biochem. 10 (1978) 393-397 [CrossRef].
  80. Tamm C.O., Nitrogen in terrestrial ecosystems, Ecol. Stud. 81 (1991) 1-115.
  81. Tietema A., Warmerdam B., Lenting E., Riemer L., Abiotic factors regulating nitrogen transformations in the organic layer of forest soils: Moisture and pH, Plant Soil 147 (1992) 69-78.
  82. Ulrich B., Interaction of forest canopies with atmospheric constituents: SO2, alkali and earth alkali cations and chloride, in: Ulrich B., Pankrath J. (Eds.), Effects of accumulation of air pollutants in forest ecosystems, D. Reidel Publish., Dordrecht, 1983, pp. 33-45.
  83. Ulrich E., Lanier M., Combes C., RENECOFOR - Dépôts atmosphériques, concentrations dans les brouillards et dans les solutions du sol (sous-réseau CATANEAT) - Rapport scientifique sur les années 1993 à 1996, Office National des Forêts, Département des Recherches Techniques, 1998, 135 p.
  84. Villette S., Établissement du bilan hydrique sur une chronoséquence de Douglas (Pseudotsuga menziesii (Mirb.) Franco) du Beaujolais. Essai de modélisation, Mémoire de fin d'études de l'ENITA, 1994, 50 p.
  85. Vitousek P.M., Clear-cutting and the nitrogen cycle, in: Clarke F.E., Rosswall T. (Eds.), Terrestrial Nitrogen Cycles, Ecol. Bull. Stockholm 33, 1981, pp. 631-642.
  86. Vitousek P.M., Matson P.A., Mechanisms of nitrogen retention in forest ecosystems: a field experiment, Science 225 (1984) 51-52.
  87. Vitousek P.M., Melillo J.M., Nitrate losses from disturbed ecosystems: Patterns and mechanisms, For. Sci. 25 (1979) 605-619.
  88. Vitousek P.M., Reiners W.A., Ecosystem succession and nutrient retention: An hypothesis, Bioscience 25 (1975) 376-381.
  89. Vitousek P.M., Gosz J.R., Grier C.C., Melillo J.M., Reiners W.A., A comparative analysis of potential nitrification and nitrate mobility in forest ecosystems, Ecol. Monogr. 52 (1982) 155-177.
  90. Vitousek P.M., Matson P.A., Van Cleve K., Nitrogen availability and nitrification during succession: Primary, secondary, and old-field seres, Plant Soil 115 (1989) 229-239.
  91. Walley F.L., Van Kessel C., Pennock D.J., Lanscape-scale variability of N mineralization in forest soils, Soil Biol. Biochem. 28 (1996) 383-391 [CrossRef].
  92. Weetman G.F., Establishment report on a humus decomposition experiment, Woodland Research Index 134, Pulp and Paper Research Institute of Canada, Montreal, 1962.
  93. Wiklander G., Clear-cutting and the nitrogen cycle. Heterogeneous nitrogen leaching after clear-cutting, in: Clarke F.E., Rosswall T. (Eds.), Terrestrial Nitrogen Cycles, Ecol. Bull. Stockholm 33, 1981, pp. 642-647.
  94. Wyland L.J., Jackson L.E., Evaluating nitrate recovery by ion-exchange resin bags, Soil Sci. Soc. Am. J. 57 (1993) 1208-1211.