Free Access
Issue |
Ann. For. Sci.
Volume 61, Number 4, June 2004
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Page(s) | 373 - 380 | |
DOI | https://doi.org/10.1051/forest:2004030 |
References of Ann. For. Sci. 61 373-380
- Anagnost S.E., Smith W.B., Comparative decay of heartwood and sapwood of Red Maple, Wood Fiber Sci. 29 (1997) 189-194.
- Bonjour I., Variabilité de la qualité des bois d'une essence guyanaise : l'Angélique Dicorynia guianensis Amsh., Thèse ENGREF, 1996, 314 p.
- Burtin P., Le déterminisme de la couleur du bois de Chêne. Étude sur les relations entre la couleur et des propriétés physiques, chimiques et anatomiques ainsi que des caractéristiques de croissance, Thèse de 3e cycle en sciences du bois, ENGREF Nancy, 1994, 243 p.
- Burtin P., Jay-Allemand C., Charpentier J., Janin G., Natural wood colouring process in Juglans sp. (J. nigra, J. regia and hybrid J. nigra 23 × J. regia) depends on native phenolic compounds accumulated in the transition zone between sapwood and heartwood, Trees 12 (1998) 258-264.
- Burtin P., Jay-Allemand C., Janin G., Relation entre les composés phénoliques solubles du bois de noyer (Juglans regia) et sa couleur, 4e colloque des Sciences et Industries du Bois Nancy, 1996, pp. 107-114.
- Carrodus B.B., Variability in the proportion of heartwood formed in woody stems, New Phytol. 71 (1972) 713-718.
- Cartwright K.S.G., The variability in resistance to decay of the heartwood of home-grown western red cedar (Thuja plicata D. Don) and its relation to position in the log, Forestry 15 (1941) 65-75.
- Chang S.T., Wang S., Cheng S.S., Environmental effects on the colour of Sugi (Cryptomeria japonica D. Don) heartwood, J. Wood Sci. 46 (2000) 390-394.
- Chang S.T., Wang J.H., Wu C.L., Chen P.F., Kuo Y.H., Comparaison of the antifungal activity of cadinane skeletal sesquiterpenoïd from Taiwania (Tawania Crypromerioides Hayara) heartwood, Holzforschung 54 (2000) 241-245.
- Da Costa E.W.B., Rudman P., Deverall F.J., Inter-tree variation in decay resistance of Karri (Eucalyptus diversicolor F. Muell) as related to colour, density and extractives content, J. Inst. Wood Sci. 10 (1962) 48-55.
- Da Costa E.W.B., Rudman P., Gay F.J., Investigations on the durability of Tectona grandis, Empire Forestry Review 37 (1958) 291-298.
- Da Costa E.W.B., Rudman P., Gay J.F., Relationship of growth rate and related factors to durability in Tectona Grandis, Empire Forestry Review 40 (1961) 308-319.
- Déon G., A propos de la durabilité naturelle de l'Angélique (Dicorynia guianensis Amsh), CTFT - Note technique 13, 1980, 26 p.
- Dumonceau O., Utilisation de petits bois naturellement durables dans des usages extérieurs (aire de jeux, mobilier urbain...) en substitution aux bois traités par des pesticides comme les solutions cuivre-chrome-arsenic, Thèse de 3e cycle en sciences du bois, Université de Montpellier II, 2001, 210 p.
- Freitag C.M., Morrell J., Durability of a changing Western Redcedar resource, Wood Fiber Sci. 33 (2000) 69-75.
- Gartner B.L., Morell J.J., Freitag C.M., Spicer R., Heartwood decay resistance by vertical and radial position in Douglas-fir trees from a young stand, Can. J. For. Res. 29 (1999) 1993-1996.
- Gominho J., Figueira J., Rodrigues and Pereira H., Within-tree variation of heartwood extractives and wood density in the Eucalyptus hybrid Urograndis (Eucalyptus grandis × E. Urophylla), Wood Fiber Sci. 33 (2001) 3-8.
- Hart J.H., The role of wood exudates and extractives in protecting wood from decay, Chap. 9.2, Rowe J.W. (Ed.), 1981, pp. 861-881.
- Hillis W.E., Distribution, properties and formation of some wood extractives, Wood Sci. Technol. (1971) 273-289.
- Highley T.L., Scheffer T.C., Natural decay resistance of 30 peruvian woods, USDA Forest Service Research Paper, FPL 143 (1970) 1-5.
- Hirmke M., Messner K., Teischinger A., Fellner J., Wimmer R., Influence of felling time on natural durability of Norway Spruce (Picea abies (L.) Karst.), Document IRG WP No 98-10250, 1998, pp. 1-7.
- Janin G., Klumpers J., Ducci F., Verracini A., Sevrin E., La couleur du bois des feuillus précieux : Chênes, Noyers, Alisiers, Lignasylva, 1990, pp. 348-355.
- Kukachka B.F., Angelique. Revised November, U.S. Products Laboratory Report 1787, 1958, 8 p.
- Klumpers J., Le déterminisme de la couleur du bois de Chêne : Étude sur les relations entre la couleur et des propriétés physiques, chimiques et anatomiques ainsi que des caractéristiques de croissance, Thèse de 3e cycle en sciences du bois, ENGREF Nancy, 1994, 195 p.
- Laks P.E., Wood preservation as trees do it, Scott. For. 45 (1991) 275-284.
- Laks P.E., McKaig P.A., Flavonoïd biocides: wood preservatives based on condensed tannins, Holzforschung 42 (1988) 299-306.
- Mateejcic B.A., Dicorynia guianensis Amsh. A monograph, Ligna orbis - Serie Internationalis - Royal Tropical Institute Amsterdam, 1974.
- Mosedale J.R., Charrier B, Janin G., Genetic control of wood colour density and heartwood ellagitanin concentration in European Oak (Quercus petraea and Q. robur), Forestry 69 (1996) 11-124.
- Nelson N.D., Heather W.A., Wood color, basic density, and decay resistance in heartwood of fast grown Eucalyptus grandis Hill ex Maiden, Holzforschung 26 (1972) 54-60.
- Nishino Y., Janin G., Chanson B., Détienne P., Gril J., Thibaut B., Colorimetry of wood specimens from French Guiana, J. Wood Sci. 44 (1998) 3-8.
- Panayotov P., Roussanov H., Yankoulova S., 3rd ICFWST 97, Fungus resistance of wood species common in Bulgaria, Proceeding book of the 3rd ICFWST, 1997, pp. 164-167.
- Reis M.S., Variation in decay resistance of four wood species from Southeastern Brazil, Holzforschung 27 (1973) 103-111.
- Rudman P., The causes of natural durability in timber. Pt. VII, The causes of decay resistance in Teak (Tectona grandis L.f), Holzforschung 15 (1961) 151-155.
- Rudman P., The causes of natural durability in timber. Pt. IX, The antifungal activity of heartwood extractives in a wood substrate, Holzforschung 16 (1962) 74-77.
- Rudman P., The cause of natural durability in timber. Pt. XII, The deterioration in antifungal activity of heartwood extractives during the life of trees of Eucalyptus marginata Sm., Holzforschung 17 (1963) 86-89.
- Rudman P., The causes of natural durability in timber. Pt. XI, Some tests on the fungi toxicity of wood extractives and related compounds, Holzforschung 17 (1963) 54-57.
- Rudman P., The causes of natural durability in timber. Pt. XVI, The causes of variation in decay resistance in Jarrah (Eucalyptus marginata Sm.), Holzforschung 18 (1964) 172-177.
- Rudman P., The causes of natural durability in timber, Pt. XIX, Ageing of Eucalyptus heartwoods and its effects on decay resistance, Holzforschung 19 (1965) 190-195.
- Rudman P., Da Costa E.W.B., Variation in extractives content and decay resistance in the heartwood of Tectona grandis L.f., J. Inst. Wood Sci. 3 (1959) 33-42.
- Rudman P., Da Costa E.W.B., The causes of natural durability in timber, Pt. IV, Variation in the role of toxic extractives in the resistance of durable Eucalyptus to decay, Holzforschung 15 (1961) 10-15.
- Rudman P., Da Costa E.W.B., Gay J.F., Wood quality in plus trees of Teak (Tectona grandis L.F.). An assessment of decay and termite resistance, Sylvae Genet. 16 (1967) 102-105.
- Rudman P., Gay J.F., The causes of natural durability in timber. Pt. XX, The causes of variation in the termite resistance of Jarrah (Eucalyptus marginata Sm.), Holzforschung 21 (1967) 21-23.
- Scheffer T.C., Cowling E.B., Natural resistance of wood to microbial deterioration, Annu. Rev. Phytopathol. 4 (1966) 147-170.
- Schultz T.P., Harms W.B., Fisher T.H., Mc Murtrey K.D., Minn J., Nicholas D.D., Durability of Angiosperm heartwood: the importance of extractives, Holzforschung 49 (1995) 29-34.
- Smith A.L., Campbell C.L., Diwakar M.P., Hanover J.W., Miller R.O., Extracts from Black Locust heartwood as wood preservatives: A comparison of the methanol extract with pentachlorophenol and chromated copper arsenate, Holzforschung 43 (1989) 421-423.
- Suttie E.D., Orsler R.J., The influence of the natural extractives of Opepe (Nauclea diderrichii) and African Padauk (Pterocarpus soyauxii) timbers on their durability, Document IRG WP No 96-30098, 1996, pp. 1-15.
- Thiel G., Compte rendu des essais effectués sur douze plateaux d'Angélique envoyés par Monsieur Audiard, CTFT, 1982, 21 p.
- Vallet A., La filière bois de Guyane - Stratégie de développement. Cabinet Sagital, Cayenne, 2002, 95 p.
- Van Acker J., Stevens M., Increased biological durability differs for traditional wood preservation and new non-biocidal systems (NBS), Document IRG WP No. 00-20212, 2000, pp. 1-11.
- Viitanen H., Ritschkoff A., Moisture requirements and wood degradation of Pine and Spruce wood by some basidiomycetes - fungi, Document IRG WP No. 1406, 1989, pp. 1-8.
- Wangaard F.F., Muschler A.F., Properties and uses of tropical woods., University School of Forestry, Yale University, Newhaven, Connecticut, 1952.
- Yatagai M., Takahashi M., Tropical wood extractives effects on durability, paint curing, and pulp sheet resin spotting, J. Inst. Wood Sci. 12 (1980) 176-181.
- Zabel R.A., Morell J.J., Wood microbiology - Decay and its prevention, Press Academic Inc, 1992.