N. Amusant, C. Moretti, B. Richard, E. Prost, J. M. Nuzillard et al., Chemical compounds from Eperua falcata and Eperua grandiflora heartwood and their biological activities against wood destroying fungus, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00135691

W. Holz-roh, , vol.65, pp.23-28

S. C. Chafe, Collapse, volumetric shrinkage, specific gravity and extractives in Eucalyptus and other species. Part 1: the shrinkage/specific gravity ratio, Wood Sci. Technol, vol.20, pp.293-307, 1986.

E. T. Choong and P. J. Fogg, Differences in moisture content and shrinkage between innerwood and outerwood of two shortleaf pine trees. For, Prod. J, vol.39, pp.13-18, 1989.

H. C. Fritts, Y. Fukuyama, R. Yokoyama, A. Ohsaki, H. Takahashi et al., An example of the co-occurrence of enantiomeric labdane-type diterpenes in the leaves of Mimosa hostilis, Chem. Pharm. Bull, vol.47, pp.454-455, 1976.

W. Gaffield, A. C. Waiss, and T. Tominaga, Structural relations and interconversions of isomeric astilbins, J. Org. Chem, vol.40, pp.1057-1061, 1975.

J. Gérard, R. B. Miller, and B. J. Welle, Major timber trees of Guyana: timber characteristics and utilization, Tropenbos Series 15. The Tropenbos Foundation, 1996.

R. E. Hernandez, Swelling properties of hardwoods as affected by their extraneous substances, wood density, and interlocked grain, Wood Fiber Sci, vol.39, pp.146-158, 2007.

W. E. Hillis, T. Heartwood, and . Exudates, , 1987.

J. O. Lacandula, Variations in the physics of wood of selected Philippine tree species as a function of extractive content, CMU J. Sci, vol.10, pp.69-111, 2002.

A. M. Marchesini, G. G. Prado, G. B. Messiano, B. Marcos, M. B. Machado et al., Chemical constituents of Aristolochia giberti, J. Braz. Chem. Soc, vol.20, pp.1598-1608, 2009.

A. M. Mendoza-wilson and D. Glossman-mitnik, Theoretical study of the molecular properties and chemical reactivity of (q)catechin and (-)-epicatechin related to their antioxidant ability, J. Mol. Struct.: Theochem, vol.761, pp.97-106, 2006.

B. Nay, V. Arnaudinaud, and J. Vercauteren, Gram-scale production and applications of optically pure 13 C-labelled (q)-catechin and (-)-epicatechin, Eur. J. Org. Chem, pp.2379-2384, 2001.

J. A. Newlin and T. R. Wilson, The relation of shrinkage and strength properties of wood to its specific gravity, USDA For. Prod. Lab. Bull, vol.676, pp.1-35, 1919.

J. C. Pinheiro and D. M. Bates, Mixed Effects Model in S and S-plus, 2000.

M. Royer, Molécules responsables de la stabilité du bois: cas des bois tropicaux de Guyane, 2008.

S. Saito and J. Kawabata, DPPH (s2,2-diphenyl-1-picrylhydrazyl) radical-scavenging of protocatechuic acid (s3,4-dihydroxybenzoic acid): difference in reactivity between acids and their esters, Helv. Chim. Acta, vol.89, pp.1395-1407, 2006.

L. Salmén and I. Burgert, Cell wall features with regard to mechanical performance. A review. COST Action E35 2004-2008: Wood machining-micromechanics and fracture, Holzforschung, vol.63, pp.121-129, 2008.

T. F. Shupe, E. T. Choong, and M. D. Gibson, The effects of previous drying and extractives on the radial and tangential shrinkage of outerwood, middlewood, and corewood of two sweetgum trees. For, Prod. J, vol.46, pp.94-97, 1996.

C. Skaar, . Wood-water, and . Relations, Department of Agriculture. The Encyclopedia of Wood, 1988.

M. Watanabe, Catechins as antioxidants from Buckwheat (Fagopyrum esculentum Moench) groats, J. Agric. Food Chem, vol.46, pp.839-845, 1998.

J. Xu, X. Li, P. Zhang, Z. L. Li, and Y. Wang, Antiinflammatory constituents from the roots of Smilax bockii Warb, Arch. Pharm. Res, vol.28, pp.395-399, 2005.

C. Xu, A. Pranovich, J. Hemming, B. Holmbom, S. Albrecht et al., Hydrolytic stability of watersoluble spruce O-acetyl galactoglucomannans, Holzforschung, vol.63, pp.61-68, 2009.

L. Yinrong and F. L. Yeap, The polyphenol constituents of grape pomace, Food Chem, vol.65, pp.1-8, 1999.