LITERATURE CITED
- Anonymous. 1986a. Standard method of accelerated laboratory test of natural decay resistance of woods. ASTM Design. D 2017–81. Pp. 446–451. In: ASTM book of standards. Vol. 04.09, Wood. American Society for Testing and Materials, Philadelphia, Pennsylvania.
- Anonymous.. 1986b. Standard test method for 1% sodium hydroxide solubility of wood. ASTM Design. D 1109–84. Pp. 289–290. In: ASTM book of standards. Vol. 04.09, Wood. American Society for Testing and Materials, Philadelphia, Pennsylvania.
- Anonymous.. 1991a. Acid-insoluble lignin in wood and pulp. T 222 om-88. Pp. 1–3. In: TAPPI test methods. TAPPI Press, Atlanta, Georgia.
- Anonymous.. 1991b. Acid-soluble lignin in wood and pulp. Useful Method 250. Pp. 47–48. In: TAPPI useful methods. TAPPI Press, Atlanta, Georgia.
- Bandoni, R. J. 1984. The Tremellales and Auriculariales: an alternative classification. Trans. Mycol. Soc. Japan 25: 489–530.
- Bartnicki-Garcia, S. 1987. The cell wall: a crucial structure in fungal evolution. Pp. 389–403. In: Evolutionary Uology of the fungi. Eds., A. D. M. Rayner, C. M. Brasier and D. Moore. Cambridge University Press, Cambridge, United Kingdom.
- Blanchette, R. A. 1991. Delignification by wood-decay fungi. Ann. Rev. Phytopathol. 29: 381–398.
- Blanchette, R. A., J. R. Obst, and T. E. Timell. 1994. Biodegradation of compression wood and tension wood by white and brown rot fungi. Holzforschung 48 Suppl.: 34–42.
- Bruns, T. D., T. J. White, and J. W. Taylor. 1991. Fungal molecular systematics. Ann. Rev. Ecol. Syst. 22: 525–564.
- Courtois, H. 1963. Mikromorphologische Befallsymptome beim Holzabbau durch Moderfäulepilze. Holzforschung und Holzverwertung 15: 88–101.
- Cowling, E. B. 1961. Comparative biochemistry of the decay of sweetgum sapwood by white-rot and brown-rot fungi. USDA Forest Products Laboratory (Madison). Technical Bulletin 1258. 79 pp.
- Cowling, E. B., and W. Merrill. 1966. Nitrogen in wood and its role in wood deterioration. Canad. J. Bot. 44: 1539–1554.
- Daniel, G., J. Volc, and T. Nilsson. 1992. Soft rot and multiple t-branching by the basidiomycete Oudemansiella mucida. Mycol. Res. 96: 49–54.
- Davidson, R. W., W. A. Campbell, and D. J. Blaisdell. 1938. Differentiation of wood-decaying fungi by their reaction on gallic or tannic acid medium. J. Agric. Res. 57: 683–695.
- Davidson, R. W., W. A. Campbell, and D. J. Blaisdell, and T. E. Hinds. 1958. Unusual fungi associated with decay in some forest trees in Colorado. Phytopathology 48: 216–218.
- Duncan, C. G. 1960. Wood-attacking capacities and physiology of soft-rot fungi. USDA Forest Products Laboratory (Madison). Report 2173. 70 pp.
- Duncan, C. G., and W. E. Eslyn. 1966. Wood decaying ascomycetes and fungi imperfecti. Mycologia 58: 642–645.
- Eaton, R. A., and M. D. C. Hale. 1993. Wood---decay, pests, and protection. Chapman & Hall, London, United Kingdom. 546 pp.
- Effland, M. J. 1977. Modified procedure to determine acid-insoluble lignin in wood and pulp. Tappi 60: 143–144.
- Eslyn, W. E., T. K. Kirk, and M. J. Effland. 1975. Changes in the chemical composition of wood caused by six soft-rot fungi. Phytopathology 65: 473–476.
- Fengel, D., and G. Wegener. 1984. Wood: chemistry, ultrastructure, reactions. Walter de Gruyter, Berlin, Germany. 613 pp.
- Francis, D. M., and L. E. Leightley. 1984. An unusual soft-rot decay pattern caused by the Ascomycete Hypoxylon mediterraneum (de Not.) J. Miller. Intl. Res. Grp. Wood Pres. Doc. No. IRG/WP/1222: 1–15.
- Gilbertson, R. L. 1980. Wood-rotting fungi of North America. Mycologia 72: 1–49.
- Ginns, J., and M. N. L. Lefebvre. 1993. Lignicolous corticioid fungi of North America. Systematics, distribution and ecology. APS Press, St. Paul, Minnesota. 247 pp.
- Hawksworth, D. L., P. M. Kirk, B. C. Sutton, and D. N. Pegler. 1995. Ainsworth & Bisby's dictionary of the fungi. 8th ed. CAB International, Wallingford, United Kingdom. 616 pp.
- Henningsson, B. 1967. Changes in impact bending strength, weight and alkali solubility following fungal attack on birch wood. Studia Forestalia Suecica 41: 1–20.
- Highley, T. L. 1975. Properties of cellulases of two brown-rot fungi and two white-rot fungi. Wood and Fiber 6: 275–281.
- Highley, T. L.. 1987a. Biochemical aspects of white-rot and brown-rot decay. Intl. Res. Grp. Wood Pres. Doc. No. IRG/WP/1319: 1–23.
- Highley, T. L.. 1987b. Changes in chemical components of hardwood and softwood by brown-rot fungi. Material und Organismen 22: 39–45.
- Highley, T. L., and B. L. Illman. 1990. Changes in cell wall components of white pine and maple by white-rot fungi. Pp. 349–360. In: Biodeterioration research. Vol. 3. Plenum Press, New York, New York.
- Jones, H. L., and J. J. Worrall. 1995. Fungal biomass in decayed wood. Mycologia 87: 459–466.
- Jülich, W. 1981. Higher taxa of basidiomycetes. Bibliotheca Mycologica 85: 1–485.
- Kirk, T. K., and H.-m. Chang. 1990. Biotechnology in pulp and paper manufacture. Butterworth-Heinemann, Boston, Massachusetts. 666 pp.
- Kirk, T. K., and H.-m. Chang., and T. L. Highley. 1973. Quantitative changes in structural components of conifer woods during decay by white- and brown-rot fungi. Phytopathology 63: 1338–1342.
- Kleman-Leyer, K., E. Agosin, A. H. Conner, and T. K. Kirk. 1992. Changes in molecular size distribution of cellulose during attack by white rot and brown rot fungi. Appl. Environ. Microbiol. 58: 1266–1270.
- Leightley, L. E., and R. A. Eaton. 1979. Nia vibrissa—a marine white rot fungus. Trans. Br. Mycol. Soc. 73: 35–40.
- Levi, M. P., and R. D. Preston. 1965. A chemical and microscopic examination of the action of the soft-rot fungus Chaetomium globosum on beechwood (Fagus syl.). Holzforschung 19: 183–190.
- Lewis, P. F. 1976. The possible significance of the hemicelluloses in wood decay. Material und, Organismen, Beiheft 3, Organismen und Holz 8: 113–119.
- Liese, W. 1970. Ultrastructural aspects of woody tissue disintegration. Ann. Rev. Phytopathol. 8: 231–258.
- Ljungdahl, L. G., and K.-E. Eriksson. 1986. Ecology of microbial cellulose degradation. Pp. 237–299. In: Advances in microbial ecology. Vol. 8. Ed., K. C. Marshall. Plenum Press, New York, New York.
- Merrill, W., D. W. French, and F. A. Wood. 1964. Decay of wood by species of the Xylariaceae. Phytopathology 54: 56–58.
- Nilsson, T. 1973. Studies on wood degradation and cellulolytic activity of microfungi. Studia Forestalia Suecica 104: 1–40.
- Nilsson, T.. 1988. Defining fungal decay types—final proposal. Intl. Res. Grp. Wood Pres. Doc. No. IRG/WP/1355: 1–3.
- Nilsson, T., and G. Daniel. 1988. Micromorphology of the decay caused by Chondrostereum purpureum (Pers.:Fr.) Pouzar and Flammulina velutipes (Curt.:Fr.) Singer. Intl. Res. Grp. Wood Pres. Doc. No. IRG/WP/1358: 1–4.
- Nilsson, T., and G. Daniel, T. K. Kirk, and J. R. Obst. 1989. Chemistry and microscopy of wood decay by some higher ascomycetes. Holzforschung 43: 11–18.
- Nobles, M. K. 1958. Cultural characters as a guide to the taxonomy and phylogeny of the Polyporaceae. Canad. J. Bot. 36: 883–926.
- Pettersen, R. C., and V. H. Schwandt. 1991. Wood sugar analysis by anion chromatography, J. Wood Chem. Technol. 11: 495–501.
- Redhead, S. A., and J. H. Ginns. 1985. A reappraisal of agaric genera associated with brown rots of wood. Trans. Mycol. Soc. Japan 26: 349–381.
- Savile, D. B. O. 1968. Possible interrelationships between fungal groups. Pp. 649–675. In: The fungi: an advanced treatise. Vol. III, The fungal population. Eds., G. C. Ainsworth and A. S. Sussman. Academic Press, New York, New York.
- Savory, J. G. 1954. Breakdown of timber by Ascomycetes and Fungi Imperfecti. Ann. Appl. Biol. 41: 336–347.
- Savory, J. G., and L. C. Pinion. 1958. Chemical aspects of decay of beech wood by Chaetomium glabosum. Holzforschung 12: 99–103.
- Schwarze, F. W., D. Lonsdale, and S. Fink. 1995. Soft rot and multiple T-branching by the basidiomycete Inonotus hispidus in ash and London plane. Mycol. Res. 99: 813–820.
- Seifert, K. 1966. Die chemische Veränderung der Buchenholz-Zellwand durch Moderfäule. Holz ah Roh- und Werkstoff 24: 185–189.
- Seifert, K. A. 1983. Decay of wood by the Dacrymycetales. Mycologia 75: 1011–1018.
- Shields, J. K., and M. Shih. 1975. Catalogue of reference culture collection of wood-inhabiting microorganisms. Eastern Forest Products Laboratory, Ottawa, Canada. Report OPX9E (revised). 62 pp.
- Stalpers, J. A. 1978. Identification of wood-inhabiting Aphyllophorales in pure culture. Stud, in Mycol. 16: 1–248.
- Stubblefield, S. P., and T. N. Taylor. 1986. Wood decay in silicified gymnosperms from Antarctica. Bot. Gaz. 147: 116–125.
- Stubblefield, S. P., and T. N. Taylor, and C. B. Beck. 1985. Studies of Paleozoic fungi. V. Wood-decaying fungi in Callixylon newberryi from the Upper Devonian. Am. J. Bot. 72: 1765–1774.
- Tanesaka, E., H. Masuda, and K. Kinugawa. 1993. Wood degrading ability of basidiomycetes that are wood decomposers, litter decomposers, or mycorrhizal symbionts. Mycologia 85: 347–354.
- Wang, C. J. K., and R. A. Zabel, Eds. 1990. Identification manual for fungi from utility poles in the eastern United States. American Type Culture Collection, Rockville, Maryland. 356 pp.
- Wells, K. 1994. Jelly fungi, then and now! Mycologia 86: 18–48.
- Wilcox, W. W. 1968. Changes in wood microstructure through progressive stages of decay. USDA Forest Products Laboratory (Madison). Research Paper FPL 70. 46 pp.
- Wilcox, W. W.. 1993. Comparative morphology of early stages of brown-rot wood decay. IAWA J. 14: 127–138.
- Worrall, J. J., S. E. Anagnost, and C. J. K. Wang. 1991. Conditions for soft rot of wood. Canad. J. Microbiol. 37: 869–874.
- Worrall, J. J., S. E. Anagnost, and C. J. K. Wang, and K. M. Anderson. 1993. Sample preparation for analysis of wood sugars by anion chromatography. J. Wood Chem. Technol. 13: 429–437.
- Worrall, J. J., S. E. Anagnost, and C. J. K. Wang, and K. M. Anderson, and C. J. K. Wang. 1991. Importance and mobilization of nutrients in soft rot of wood. Canad. J. Microbiol. 37: 864–868.
- Zabel, R. A., and J. J. Morrell. 1992. Wood microbiology. Academic Press, San Diego, California. 476 pp.
- Zabel, R. A., and J. J. Morrell, C. J. K. Wang, and S. E. Anagnost. 1991. Soft rot capabilities of the major microfungi, isolated from Douglas-fir poles in the Northeast. Wood and Fiber Science 23: 220–237.