Free Access
Issue |
Ann. For. Sci.
Volume 61, Number 3, April-May 2004
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Page(s) | 251 - 262 | |
DOI | https://doi.org/10.1051/forest:2004018 |
References of Ann. For. Sci. 61 251-262
- Berlyn G.P., A Hypothesis for Cell Wall Density, For. Prod. J. 18 (1968) 34-36.
- Boutelje J., On shrinkage and change in microscopic void volume during drying, as calculated from measurements on microtome cross sections of Swedish Pine (Pinus sylvestris L.), Svensk Papperstidning 65 (1962) 209-215.
- Brown H.P., Panshin A.J., Forsaith C.C., Textbook of wood technology, Vol. 1, McGraw-Hill Book Co., Inc., New York, NY, 1949.
- Christensen G.N., Hergt H.F.A., The Apparent Density of Wood in Non-Swelling Liquids, Holzforschung 22 (1968) 165-170.
- Danborg F., Pedini M., The use of X-ray densitometry and digital image analysing for wood technological research, Internal of the Royal Veterinary and Agricultural University, Department of Economics and Natural Resources, KVL, Hrsholm, Denmark, 1990.
- Donaldson L.A., Lausberg M.J.F., Comparison of conventional transmitted light and confocal microscopy for measuring wood cell dimensions by image analysis, IAWA J. 19 (1998) 321-336.
- Ellwood E.L., Wilcox W.W., The Shrinkage of Cell Walls and Cell Cavities in Wood Microsections, For. Prod. J. 12 (1962) 235-242.
- Erickson H.D., Harrison A.T., Douglas - Fir Wood Quality Studies, Part I: Effects of Age and Stimulated Growth on Wood Density and Anatomy, Wood Sci. Technol. 8 (1974) 207-226.
- Fengel D., Stoll M., On the Variation of the Cell Cross Area, the Thickness of the Cell Wall and of the Wall Layers of Sprucewood Tracheids within an Annual Ring, Holzforschung 27 (1973) 1-7.
- Fengel D., The Ultrastructure of Cellulose from Wood, Part I: Wood as the Basic Material for the Isolation of Cellulose, Wood Sci. Technol. 3 (1969) 203-217.
- Fengel D., Ultramicrotomy, Its Application in Wood Research, Wood Sci. Technol. 1 (1967) 191-204.
- Ferrand J.C., Réflexions sur la densité du bois, 1e Partie: Définition de la densité du Bois, Holzforschung 36 (1982) 99-105.
- Fukazawa K., Imagawa H., Quantitative Analysis of Lignin Using an UV Microscopic Image Analyser. Variation Within One Growth Increment, Wood Sci. Technol. 15 (1981) 45-55.
- Hannrup B., Danell O., Ekberg I., Moëll M., Relationships between wood density and tracheid dimensions in Pinus sylvestris L., Wood Fiber Sci. 33 (2001) 173-181.
- Heger L., Parker M.L., Kennedy R.W., X-Ray Densitometry: A Technique and An Example of Application, Wood Sci. 7 (1974) 140-148.
- Ifju G., Within-Growth-Ring Variation in Some Physical Properties of Southern Pine Wood, Wood Sci. 2 (1969) 11-19.
- Ivkovich M., Koshy M.P., Wood Density Measurement: Comparison of X-ray, Photometric, and Morphometric Methods, Timber Management Toward Wood Quality and End-Product Value, CTIA/IUFRO International Wood Quality Workshop, 1997.
- Jayme G., Krause T., Uber die Packungsdichte der Zellwände in Laubhölzern, Holz Roh- Werkst. 21 (1963) 14-19.
- Kellogg R.M., Wangaard F.F., Variation in the cell-wall density of wood, Wood Fiber 1 (1969) 180-204.
- Koubaa A., Zhang S.Y.T., Makni S., Defining the transition from earlywood to latewood in black spruce based on intra-ring wood density profiles from X-ray densitometry, Ann. For. Sci. 59 (2002) 519-524 [EDP Sciences] [CrossRef].
- Lindström H., Fiber length, tracheid diameter, and latewood percentage in Norway spruce: Development from pith outwards, Wood Fiber Sci. 29 (1997) 21-34.
- Mörling T., Evaluation of annual ring width and ring density development following fertilisation and thinning of Scots pine, Ann. For. Sci. 59 (2002) 29-40 [EDP Sciences] [CrossRef].
- Mothe F., Duchanois G., Leban J.M., Owoundi R.E., Perrin J.R., Qualification des bois par microdensitométrie, Contrat Région Lorraine - INRA, Décision DBCR 158-90 (Code INRA 3086A), 1990.
- Mothe F., Duchanois G., Zannier B., Leban J.-M., Analyse microdensitométrique appliquée au bois: méthode de traitement des données utilisée à l'Inra-ERQB (programme Cerd), Ann. Sci. For. 55 (1998) 301-313.
- Park W-K., Telewski F.W., Measuring maximum latewood density by image analysis at the cellular level, Wood Fiber Sci. 25 (1993) 326-332.
- Polge H., Fifteen Years of Wood Radiation Densitometry, Wood Sci. Technol. 12 (1978) 187-196.
- Polge H., Établissement des courbes de variation de la densité du bois par exploration densitométrique de radiographies d'échantillons prélevés à la tarière sur des arbres vivants - Applications dans les domaines technologique et physiologique, Ann. Sci. For. 23 (1966) 1-215.
- Polge H., Le bois juvénile des conifères, Rev. For. Fr. 86 (1964) 473-505.
- Quirk J.T., Cell Wall Density of Douglas Fir by two Optometric Methods, Wood Fiber Sci. 16 (1984) 224-236.
- Quirk J.T., Shrinkage and related properties of Douglas-fir cell walls, Wood Fiber Sci. 16 (1984) 115-133.
- Quirk J.T., Dot-grid integrating eyepiece: two sampling techniques for estimating cell wall areas, Wood Sci. 8 (1975) 88-91.
- Quirk J.T., Smith D., Comparison of dual linear and dot-grid eyepiece methods for estimating wood properties of Douglas-fir, Wood Sci. 8 (1975) 92-96.
- Smith D.M., Rapid Measurement of Tracheid Cross-Sectional Dimensions of Conifers: Its Application to Specific Gravity Determinations, For. Prod. J. 15 (1965) 325-334.
- Stamm A.J., History of Two Phases of Wood Physics, Wood Sci. Technol. 1 (1967) 186-190.
- Stamm A.J., Wood and Cellulose Science, North Carolina State of the University of North Carolina at Raleigh, 1964.
- Stamm A.J., Density of wood substance, absorption by wood, and permeability of wood, J. Phys. Chem. 33 (1929) 398-414.
- Stamm A.J., Sanders H.T., Specific Gravity of the Wood Substance of Loblolly Pine as Affected by Chemical Composition, Tappi 49 (1966) 397-400.
- Stayton C.L., Hart C.A., Determining Pore-Size Distribution in Softwoods with a Mercury Porosimeter, For. Prod. J. 15 (1965) 435-440.
- Stone J.E., Scallan A.M., Aberson G.M.A., The Wall Density of Native Cellulose Fibres, Pulp and Paper Research Institute of Canada 67 (1966) T263-T268.
- Stone J.E., Scallan A.M., A Study of Cell Wall Structure by Nitrogen Adsorption, Pulp and Paper Research Institute of Canada 66 (1965) T407-T414.
- Tsoumis G., Microscopic Measurement of the Amount of Cell Wall Substance in Wood and Its Relationship to Specific Gravity, Tappi 47 (1964) 675-677.
- Tsoumis G., Passialis C., Effect of growth rate and abnormal growth on wood substance and cell-wall density, Wood Sci. Technol.11 (1977) 33-38.
- Wangaard F.F., Cell-Wall Density of Wood With Particular Reference to the Southern Pines, Wood Sci. 1 (1969) 222-226.
- Weatherwax R.C., Tarkow H., Cell Wall Density of Dry Wood, For. Prod. J. 18 (1968) 83-85.
- Wilfong J.G., Specific Gravity of Wood Substance, For. Prod. J. 16 (1966) 55-61.
- Wimmer, R., Intra-annual cellular characteristics and their implications for modeling softwood density. Wood Fiber Sci. 27 (1995) 413-420.
- Yiannos P.N., The apparent Cell-Wall Density of Wood and Pulp Fibers, Tappi 47 (1964) 468-471.