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All issues Volume 62 / No 4 (June 2005) Ann. For. Sci., 62 4 (2005) 325-332 References
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Issue
Ann. For. Sci.
Volume 62, Number 4, June 2005
Page(s) 325 - 332
DOI https://doi.org/10.1051/forest:2005027
References of Ann. For. Sci. 62 325-332
  1. Abuarghub S.M., Read D.J., The biology of mycorrhiza in the Ericaceae XII. Quantitative analysis of individual "free" amino acids in relation to time and depth in the soil profile, New Phytol. 108 (1988) 433-441.
  2. Aceñolaza P.G., Estructura y Dinámica de bosques de aliso (Alnus acuminata H.B.K. subsp. acuminata) de la Provincia de Tucumán. Ph.D. thesis, National University of Tucumán, Argentina, 1995.
  3. Agerer R., Characterization of ectomycorrhiza, in: Norris J.R., Varma A.K., Read D.J. (Eds.), Techniques for the study of mycorrhiza, Methods in Microbiology 23, 1991, pp. 25-73.
  4. Alexander I.J., The significance of ectomycorrhizas in the nitrogen cycle, in: Lee L.A., Mc Neill S., Rorison I.H. (Eds.), Nitrogen as an Ecological Factor, Oxford, Blackwell, 1983, pp. 69-94.
  5. Baar J., Bastiaans T., Van de Coevering M.A., Roelofs J.G.M., Ectomycorrhizal root development in wet Alder carr forests in response to desiccation and eutrophication, Mycorrhiza 12 (2002) 147-151 [CrossRef] [PubMed].
  6. Baum C., Makeschin F., Effects of nitrogen and phosphorus fertilization on mycorrhizal formation of two poplar clones (Populus trichocapa and P. tremula × tremuloides), J. Plant Nutr. Soil Sci. 163 (2000) 491-497 [CrossRef].
  7. Baum C., Weih M., Verwijst T., Makeschin F., The effects of nitrogen fertilization and soil properties on mycorrhizal formation of Salix viminalis, For. Ecol. Manage. 160 (2002) 35-43.
  8. Becerra A.G., Influencia de los Suelos Ustorthentes sobre las ectomicorrizas y endomicorrizas de Alnus acuminata H.B.K., Master thesis, University of Buenos Aires, Argentina, 2002.
  9. Becerra A., Daniele G., Domínguez L., Nouhra E., Horton T., Ectomycorrhizae between Alnus acuminata H.B.K. and Naucoria escharoides (Fr.:Fr.) Kummer from Argentina, Mycorrhiza 12 (2002) 61-66 [PubMed].
  10. Becerra A., Nouhra E., Daniele G., Domínguez L., McKay D., Ectomycorrhizas of Cortinarius helodes and Gyrodon monticola with Alnus acuminata from Argentina, Mycorrhiza 15 (2005) 7-15 [CrossRef] [PubMed].
  11. Bower C.A., Wilcox L.W., Soluble salts, in: Methods in Soil Analysis: Agronomy, in: CA Black (Ed.), No. 9, Part 2, 1st ed, Am. Soc. Agron., Inc., Madison WI., 1965, pp. 933-951.
  12. Bremner J.M., Mulvaney C.S., Chemical and microbiological properties, in: Page A.L., Miller R.H., Keeney D.R. (Eds.), Methods of soil analysis, Part 2, 2nd ed., Am. Soc. Agron., Inc., Madison, 1982, pp. 595-624.
  13. Brundrett M., Mycorrhizas in natural ecosystems, Adv. Ecol. Res. 21 (1991) 171-262.
  14. Cervantes E., Rodríguez-Barrueco C., Relationships between the mycorrhizal and actinorrhizal symbioses in non-legumes, in: Norris J.R., Read D.J., Varma A.K. (Eds.), Methods in Microbiology 24, Academic Press, London, 1992, pp. 417-432.
  15. Duponnois R., Founoune H., Lesueur D., Influence of the controlled dual ectomycorrhizal and rhizobal symbiosis on the growth of Acacia mangium provenances, the indigenous symbiotic microflora and structure of plant parasitic nematode communities, Geoderma 109 (2002) 85-102 [CrossRef].
  16. El Karkouri K., Martin F., Mousain D., Dominance of the mycorrhizal fungus Rhizopogon rubescens in a plantation of Pinus pinea seedlings inoculated with Suillus collinitus, Ann. For. Sci. 59 (2002) 197-204 [EDP Sciences] [CrossRef].
  17. Fogel R., Hunt G., Fungal and arboreal biomass in a western Oregon Douglas-fir ecosystem: distribution patterns and turnover, Can. J. For. Res. 9 (1979) 245-256.
  18. Founoune H., Duponnois R., Bâ A.M., El Bouami F., Influence of the dual arbuscular endomycorrhizal/ectomycorrhizal symbiosis on the growth of Acacia holosericea (A. Cunn ex G. Don) in glasshouse conditions, Ann. For. Sci. 59 (2002) 93-98 [EDP Sciences] [CrossRef].
  19. Gehring C.A., Whitham T.G., Comparisons of ectomycorrhizae on pinyon pines (Pinus edulis; Pinaceae) across extremes of soil type and herbivory, Amer. J. Bot. 81 (1994) 1509-1516.
  20. Godbout C., Fortin J.A., Morphological features of synthesized ectomycorrhizae of Alnus crispa and Alnus rugosa, New Phytol. 94 (1983) 249-262.
  21. Grau A., La expansión del aliso del cerro (Alnus acuminata H.B.K. subsp. acuminata) en el noroeste de Argentina, Lilloa 36 (1985) 237-247.
  22. Harvey A.E., Jurgensen M.F., Larsen M.J., Seasonal distribution of ectomycorrhizae in a mature Douglas-fir/larch forest soil in western Montana, For. Sci. 24 (1978) 203-208.
  23. Helm D.J., Allen E.B., Trappe J.M., Mycorrhizal chronosequence near Exit Glacier, Alaska, Can. J. Bot. 74 (1996) 1496-1506.
  24. Helm D.J., Allen E.B., Trappe J.M., Plant growth and ectomycorrhiza formation by transplants on deglaciated land near Exit Glacier, Alaska, Mycorrhiza 8 (1999) 297-304 [CrossRef].
  25. Henrion B., Chevalier G., Martin F., Typing truffle species by PCR amplification of the ribosomal DNA spacers, Mycol. Res. 98, 37-43.
  26. Jackson M.L., Análisis químico de suelos, Omega, Barcelona, 1964.
  27. Lapeyrie F., Chilvers G.A., An endomycorrhiza-ectomycorrhiza succession associated with enhanced growth of Eucalyptus dumosa seedlings planted in a calcareous soil, New Phytol. 100 (1985) 93-104.
  28. Leake J.R., Read D.J., Mycorrhizal fungi in terrestrial habitats, in: Wicklow D.T., Söderström B. (Eds.), The Mycota IV. Environmental and microbial relationships, Springer-Verlag, Berlin, 1997, pp. 281-301.
  29. Lee K.J., Correlation between ectomycorrhizal formation in Pinus and organic matter, nitrogen, phosphorus contents and acidity in the forest soil, in: Proceedings, 17th IUFRO Congress, Ibaeaki, Kyoto, 1981, pp. 83-87.
  30. Menge J.A., Grand L.F., Haines L.W., The effect of fertilization on growth and mycorrhizae numbers in 11 years-old loblolly pine plantations, For. Sci. 23 (1977) 37-44.
  31. Miller S.L., Koo C.D., Molina R., Characterization of red alder ectomycorrhizae: a preface to monitoring belowground ecological responses, Can. J Bot. 69 (1991) 516-531.
  32. Moser M., Some aspects of Cortinarius associated with Alnus, Journées Européennes du Cortinaire 3 (2001) 47-101.
  33. Moyersoen B., Fitter A.H., Alexander I.J., Spatial distribution of ectomycorrhizas and arbuscular mycorrhizas in Korup National Park rain forest, Cameroon, in relation to edaphic parameters, New Phytol. 139 (1998) 311-320 [CrossRef].
  34. Moyersoen B., Becker P., Alexander I.J., Are ectomycorrhizas more abundant than arbuscular mycorrhizas in tropical heath forest? New Phytol. 150 (2001) 591-599 [CrossRef].
  35. National Academy of Sciences, Especies para leña; árboles y arbustos para la producción de energía, CATIE, Turrialba, Costa Rica, 1984.
  36. Nelson D.W., Sommers L.E., Total carbon, organic carbon, and organic matter, in: Page A.L., Miller R.H., Keeney D.R. (Eds.), Methods of soil analysis, Part 2, American Society of Agronomy, Inc., Madison WI., 1982, pp. 639-577.
  37. Neville J., Tessier J.L., Morrison I., Scarratt J., Canning B., Klironomos J.L., Soil depth distribution of ecto- and arbuscular mycorrhizal fungi associated with Populus tremuloides within a 3-year-old boreal forest clear-cut, Appl. Soil Ecol. 19 (2002) 209-216 [CrossRef].
  38. Newbery D.M., Alexander I.J., Thomas D.W., Gartlan J.S., Ectomycorrhizal rain-forest legumes and soil phosphorus in Korup National Park, Cameroon, New Phytol. 109 (1998) 433-450.
  39. Ogawa M., Ecological characters of ectomycorrhizal fungi and their mycorrhizae. An introduction to the ecology of higher fungi, JARQ 18 (1985) 305-314.
  40. Peech M., Hydrogen-ion activity, in: Methods in Soil Analysis: Agronomy, in: CA Black (Ed.), No. 9, Part 2, 1st ed., Am. Soc. Agron., Inc., Madison WI., 1965, pp. 914-926.
  41. Persson H.A., The distribution and productivity of fine roots in boreal forest, Plant Soil 71 (1983) 87-101.
  42. Poole E.J., Bending G.D., Whipps J.M., Read D.J., Bacteria associated with Pinus sylvestris-Lactarius rufus ectomycorrhizas and their effect on mycorrhiza formation in vitro, New Phytol. 151 (2002) 743-751.
  43. Pritchett W.L., Fischer R.F., Tropical Forest Soils, in: Properties and Management of Forest Soils,Wiley Sons J. (Ed.), 2nd ed., New York, 1987, pp. 308-328.
  44. Pritsch K., Untersuchungen zur Diversität und Ökologie von Mykorrhizen der Schwarzerle [Alnus glutinosa (L.) Gaertn.], Ph.D. thesis, University of Tübingen, Germany, 1996.
  45. Pritsch K., Boyle H., Munch J.C., Buscot F., Characterization and identification of black alder ectomycorrhizas by PCR/RFLP analyses of the rDNA internal transcribed spacer (ITS), New Phytol. 137 (1997) 357-369 [CrossRef].
  46. Pritsch K., Munch J.C., Buscot F., Morphological and anatomical characterisation of black alder Alnus glutinosa (L.) Gaertn. ectomycorrhizas, Mycorrhiza 7 (1997) 201-216 [CrossRef].
  47. Raithelhuber J., Flora Micológica Argentina, Hongos II, Mycosur, 1988.
  48. SAS Institute, SAS/EIs software reference, version 6.0, 2nd ed., SAS Institute, Cary, N.C., 1995.
  49. Simpson E.H., Measurement of diversity, Nature 163 (1949) 688.
  50. Singer R., Morello J.H., Ectotrophic forest tree mycorrhizae and forest communities, Ecology 41 (1960) 549-551.
  51. Slankis V., Soil factors influencing formation of mycorrhizae, Ann. Rev. Phytopathol. 12 (1974) 437-457.
  52. Swaty R.L., Gehring C.A., Van Ert M., Theimer T.C., Keim P., Whitman T.G., Temporal variation in temperature and rainfall differentially affects ectomycorrhizal colonization at two contrasting sites, New Phytol. 139 (1998) 733-739 [CrossRef].
  53. Taylor D.L., Bruns T.D., Community structure of ectomycorrhizal fungi in a Pinus muricata forest: minimal overlap between the mature forest and resistant propagule communities, Mol. Ecol. 8 (1999) 1837-1850 [CrossRef] [PubMed].
  54. Tedersoo L., Kõljalg U., Hallenberg N., Larsson K.-H., Fine scale distribution of ectomycorrhizal fungi and roots across substrate layers including coarse woody debris in a mixed forest, New Phytol. 159 (2003) 153-165 [CrossRef].
  55. Veihmeyer F.J., Hendrickson A.H., The moisture equivalent as a measure of the field capacity of soils, Soil Sci. (1931) 181-194.
  56. Visser S., Maynard D., Danielson R.M., Response of ecto- and arbuscular mycorrhizal fungi to clear-cutting and the application of chipped aspen wood in a mixedwood site in Albert, Canada, Appl. Soil Ecol. 7 (1998) 257-269 [CrossRef].
  57. Vogt K.A., Edmonds R.L., Grier C.C., Seasonal changes in biomass and vertical distribution of mycorrhizal and fibrous-textured conifer fine roots in 23-and 180-year-old sub-alpine Abies amabalis stands, Can. J. For. Res. 17 (1981) 239-245.
  58. White T.J., Bruns T., Lee S., Taylor J., Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics, in: Innis M.A., Gelfand D.H., Sninsky J.J., White T.J. (Eds.), PCR Protocols: a guide to methods and applications, New York, Academic Press, 1990, pp. 315-322.