Dependence of colour and discolouration on total extractive content of African Padauk and Jatoba

[1]  M. Arnold,et al.  Spectral sensitivity in the photodegradation of fir wood (Abies alba Mill.) surfaces: colour changes in natural weathering , 2014, Wood Science and Technology.

[2]  M. Romagnoli,et al.  Wood colour in Lapacho (Tabebuia serratifolia): chemical composition and industrial implications , 2013, Wood Science and Technology.

[3]  P. Gérardin,et al.  Antioxidant activities, total phenolic contents and chemical compositions of extracts from four Cameroonian woods: Padouk (Pterocarpus soyauxii Taubb), tali (Erythrophleum suaveolens), moabi (Baillonella toxisperma), and movingui (Distemonanthus benthamianus) , 2013 .

[4]  Pablo Jiménez Bonilla,et al.  Relationship Between Wood Color Parameters Measured by the CIELab System and Extractive and Phenol Content in Acacia mangium and Vochysia guatemalensis from Fast-Growth Plantations , 2012, Molecules.

[5]  José Lousada,et al.  The explained variation by lignin and extractive contents on higher heating value of wood , 2011 .

[6]  A. Merlin,et al.  A Screening Study of Natural Colour of Wood from Different Geographical Regions , 2011 .

[7]  E. Berghofer,et al.  Physicochemical and antioxidative properties of red and black rice varieties from Thailand, China and Sri Lanka , 2011 .

[8]  J. Gril,et al.  Effect of extractives on vibrational properties of African Padauk (Pterocarpus soyauxii Taub.) , 2011, Wood Science and Technology.

[9]  Tzu-Cheng Chang,et al.  Stabilizing effect of extractives on the photo-oxidation of Acacia confusa wood , 2010 .

[10]  Yasuyuki Matsushita,et al.  Heartwood extractives from the Amazonian trees Dipteryx odorata, Hymenaea courbaril, and Astronium lecointei and their antioxidant activities , 2008, Journal of Wood Science.

[11]  M. Meincken,et al.  The effect of wood extractives on the thermal stability of different wood species , 2008 .

[12]  Y. Matsushita,et al.  Characterization and antioxidant activity of Amazonian woods , 2008, Journal of Wood Science.

[13]  C. Belloncle,et al.  UV light impact on ellagitannins and wood surface colour of European oak (Quercus petraea and Quercus robur) , 2007 .

[14]  E. R. Miller,et al.  The photodegradation of wood during solar irradiation , 1981, Holz als Roh- und Werkstoff.

[15]  G. Koch,et al.  Topochemical investigations of wood extractives and their influence on colour changes in American black cherry (Prunus serotina Borkh.) , 2006 .

[16]  D. Kamdem,et al.  Influence of wood extractives on the photo-discoloration of wood surfaces exposed to artificial weathering , 2006 .

[17]  P. Diouf,et al.  Antioxidant properties of wood extracts and colour stability of woods , 2006 .

[18]  K. Pandey A note on the influence of extractives on the photo-discoloration and photo-degradation of wood , 2005 .

[19]  R. Wimmer,et al.  EFFECTS OF HEARTWOOD EXTRACTIVES ON MECHANICAL PROPERTIES OF LARCH , 2005 .

[20]  I. Surowiec,et al.  Identification of "insoluble" red dyewoods by high performance liquid chromatography-photodiode array detection (HPLC-PDA) fingerprinting. , 2004, Journal of separation science.

[21]  M. Kiguchi,et al.  Depth profiling of photo-induced degradation in wood by FT-IR microspectroscopy , 2001, Journal of Wood Science.

[22]  J. Gril,et al.  Colorimetry of wood specimens from French Guiana , 1998, Journal of Wood Science.

[23]  W. Hillis Distribution, properties and formation of some wood extractives , 1971, Wood Science and Technology.

[24]  F. Ishiguri,et al.  Extractives relating to heartwood color changes in sugi (Cryptomeria japonica) by a combination of smoke-heating and UV radiation exposure , 2003, Journal of Wood Science.

[25]  Michael Grabner,et al.  Colour of larch heartwood and relationships to extractives and brown-rot decay resistance , 2003, Trees.

[26]  T. Pakkanen,et al.  CIEL*a*b* Measurements to Determine the Role of Felling Season, Log Storage and Kiln Drying on Coloration of Silver Birch Wood , 2002 .

[27]  J. Charpentier,et al.  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 , 1998, Trees.

[28]  T. Nohara,et al.  Novel yellow pigment from Pterocarpus santalinus: Biogenetic hypothesis for santalin analogs☆ , 1995 .

[29]  H. Schweppe Handbuch der Naturfarbstoffe : Vorkommen, Verwendung, Nachweis , 1993 .

[30]  H. Böhm H. Schweppe:Handbuch der Naturfarbstoffe. Vorkommen, Verwendung, nachweis. 800 Seiten, 64 Abb., 116 Tab., 42 Farbtafeln und 18 Chromatogramme. Ecomed Verlagsgesellschaft, Landsberg/Lech 1992. Preis: 298, ‐ DM , 1993 .

[31]  G. Janin,et al.  The influences of age, extractive content and soil water on wood color in oak: the possible genetic determination of wood color , 1993 .

[32]  A. Merlin,et al.  Modifications de la couleur du bois d'Abies grandis exposé à la lumière solaire , 1992 .

[33]  D. Hon,et al.  Wood and Cellulosic Chemistry , 1990 .

[34]  P. Delaveau,et al.  [Lipophilic quinones of the trunk wood of Tabebuia serratifolia (Vahl.) Nichols]. , 1988, Annales pharmaceutiques francaises.

[35]  Roger M. Rowell,et al.  The Chemistry of solid wood , 1984 .

[36]  William C. Feist,et al.  Chemistry of weathering and protection , 1984 .

[37]  R. Pettersen,et al.  The chemical composition of wood , 1984 .

[38]  E. Sjöström,et al.  Wood Chemistry: Fundamentals and Applications , 1981 .