Free access
Ann. For. Sci.
Volume 65, Number 6, September 2008
Article Number 610
Number of page(s) 8
Published online 19 July 2008
References of  Ann. For. Sci. 65 (2008) 610
  1. Anagnost S.E. and Smith W.B., 1997. Hygroscopicity of decayed wood: implications for weight determinations. Wood Fiber Sci. 29: 299-305.
  2. Brunauer S., Emmett P.H., and Teller E., 1938. Adsorption of gases in multimolecular layers. J. Am. Chem. Soc. 60: 309-319 [CrossRef].
  3. Celimene C.C., Micales J.A., Ferge L., and Young R., 1999. Efficacy of pinosylvins against white-rot and brown-rot fungi. Holzforschung 53: 491-497 [CrossRef].
  4. Flournoy D.S., Kirk T.K., and Highley T.L., 1991. Wood decay by brown-rot fungi: changes in pore structure and cell wall volume. Holzforschung 45: 383-388 [CrossRef].
  5. Goodell B., 2003. Brown-rot fungal degradation of wood: our evolving view. In: Goodell B., Nicholas D.D., and Schultz T.P. (Eds.), Wood deterioration and preservation. Advanced in our changing world, American Chemical Society, Washington DC, pp. 97-118.
  6. Griffin D.M., 1977. Water potential and wood decaying fungi. Ann. Rev. Phytopathol. 15: 319-329 [CrossRef].
  7. Harju A.M. and Venäläinen M., 2006. Measuring the decay resistance of Scots pine heartwood indirectly by the Folin-Ciocalteu assay. Can. J. For. Res. 36: 1797-1804 [CrossRef].
  8. Harju A.M, Kainulainen P., Venäläinen M., Tiitta M., and Viitanen H., 2002. Differences in resin acid concentration between brown-rot resistant and susceptible Scots pine heartwood. Holzforschung 56: 479-486 [CrossRef].
  9. Harju A.M., Venäläinen M., Anttonen S., Viitanen H., Kainulainen P., Saranpää P., and Vapaavuori E., 2003. Chemical factors affecting the brown-rot decay resistance of Scots pine heartwood. Trees 17: 263-268.
  10. Haygreen J.G. and Bowyer J.L., 1996. Forest products and wood science, an introduction, Iowa State University Press, Iowa, 484 p.
  11. Heijari J., Nerg A.-M., Kaakinen S., Vapaavuori E., Raitio H., Levula T., Viitanen H., Holopainen J.K., and Kainulainen P., 2005. Resistance of Scots pine wood to Brown-rot fungi after long-term forest fertilization. Trees 19: 728-734.
  12. Henriks M.-L., Ekman R., and von Weissenberg K., 1979. Bioassay of some resin acid and fatty acid with Fomes annosus. Acta Academiae Aboensis, Ser. B. 39: 1-7.
  13. Highley T.L., Murmanis L., and Palmer J.G., 1983. Electron microscopy of cellulose decomposition by brown-rot fungi. Holzforschung 37: 271-277 [CrossRef].
  14. Jones H.L. and Worrall J.J., 1995. Fungal biomass in decayed wood. Mycologia 87: 459-466 [CrossRef].
  15. Karppanen O., Venäläinen M., Harju A., Willför S., Pietarinen S., Laakso T., and Kainulainen P., 2007. Knotwood as a window to the indirect measurement of the decay resistance of Scots pine heartwood. Holzforschung 61: 600-604 [CrossRef].
  16. Kleist G. and Schmitt U., 2001. Characterisation of a soft rot-like decay pattern caused by Coniophora puteana (Schum.) Karst. in Sapelli wood (Entandrophragma cylindricum Sprague). Holzforschung 55: 573-578 [CrossRef].
  17. Koponen H., 1985. Sorption isotherms of Finnish birch, pine and spruce. Paperi ja Puu 67: 70-77.
  18. Larsen M.J., Winandy J.E., and Green F., 1995. A proposed model of the tracheid cell wall of southern yellow pine having an inherent radial structure in the S2 layer. Mater. Org. 29: 197-210.
  19. Lee K.H., Wi S.G., Singh A.P., and Kim Y.S., 2004. Micromorphological characteristics of decayed wood and laccase produced by the brown-rot fungus Coniophora puteana. J. Wood Sci. 50: 281-284.
  20. Prior R.L., Wu X., and Schaich K., 2005. Standardized methods for the determination of antioxidant capacity and phenolics in food and dietary supplements. J. Agric. Food Chem. 53: 4290-4302 [PubMed] [CrossRef].
  21. Rawat S.P.S, Khali D.P., Hale M.D., and Breese M.C., 1998. Studies on the moisture adsorbtion behaviour of brown-rot decayed and undecayed wood blocks of Pinus sylvestris using the Brunauer-Emmett-Teller Theory. Holzforschung 52: 463-466 [CrossRef].
  22. Rennerfelt E., 1945. The influence of the phenolic compounds in the heartwood of Scots pine (Pinus sylvestris L.) on the growth of some decay fungi in nutrient solution. Svesk Botanisk Tidskrift 39: 311-318.
  23. Scheffer T.C. and Cowling E.B., 1966. Natural resistance of wood to microbiological deterioration. Ann. Rev. Phytopathol. 4: 147-170 [CrossRef].
  24. Simpson W., 1980. Sorption theories applied to wood. Wood Fiber 12: 183-195.
  25. Skaar C., 1988. Wood-water relations, Springer-Verlag, Berlin, Heidelberg. 283 p.
  26. Söderström B., Finlay R.D., and Read D.J., 1988. The structure and function of the vegetative mycelium of ectomycorrhizal plants, IV. Qualitative analysis of carbohydrate contents of mycelium interconnecting host plants. New Phytol. 109: 163-166.
  27. Tibbett M.F., Sanders E., and Cairney J.W.G., 2002. Low-temperature changes in trehalose, mannitol and arabitol associated with enhanced tolerance to freezing in ectomycorrhizal basidiomeces (Hebeloma spp.). Mycorrhiza 12: 249-255 [PubMed] [CrossRef].
  28. Venäläinen M., Harju A.M., Kainulainen P., Viitanen H., and Nikulainen H., 2003. Variation in the decay resistance and its relationship with other wood characteristics in old Scots pines. Ann. For. Sci. 60: 409-417 [EDP Sciences] [CrossRef].
  29. Venäläinen M., Harju A.M., Saranpää P., Kainulainen P., Tiitta M., and Velling P., 2004. The concentration of phenolics in brown-rot decay resistant and susceptible Scots pine heartwood. Wood Sci. Technol. 38: 109-118 [CrossRef].
  30. Walker J.C.F., 1993. Water and wood. In: Walker J.C.F. (Ed.), Primary wood prosessing. Principles and practice, Chapman & Hall, London, pp. 68-94.
  31. Winandy J.E. and Morrell J.J., 1993. Relationship between incipient decay, strength, and chemical composition of Douglas-fir heartwood. Wood Fiber Sci. 25: 278-288.
  32. Zabel R. and Morrell J., 1992. Wood microbiology: Decay and its prevention. Academic Press, San Diego, 476 p.