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Interlocked grain and density patterns in Bagassa guianensis: Changes with ontogeny and mechanical consequences for trees

Bossu J., Lehnebach R., Corn S., Regazzi A., Beauchêne J., Clair B.. 2018. Trees, 32 (6) : p. 1643-1655.

DOI: 10.1007/s00468-018-1740-x

Trees modulate their building material, wood, throughout their lifetime to meet changing mechanical needs. Basic density, a widely studied wood property, has been proved to be negatively correlated to growth rate and is then considered to reflect the diversity of species growth strategies. An alternative way for trees to modulate growth strategy at constant construction cost is changing the organisation of their fibre network. Interlocked grain, the result of a periodic change in the orientation of the fibres in the tangential plane, is found in numerous tropical tree species. In this study, we first describe the variations in basic density and interlocked grain occurring during ontogeny of Bagassa guianensis, a fast-growing Amazonian species, and analyse their influence on the local mechanical properties of wood at the tissue level. The observed radial patterns and properties are then incorporated in a finite element model to investigate their effect on mechanical properties of the trunk. We report extreme and highly reproducible concomitant radial variations in basic density and interlocked grain in all the sampled trees, with grain angle variations ranging from -¿31° to 23°. Such changes in wood during ontogeny allows trees to tailor their growth rate while greatly improving resistance to torsion and reducing the risk of splitting.

Mots-clés : bois; propriété mécanique; fil et veinure du bois; densité; accroissement du diamètre; guyane française; france; bagassa guianensis

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