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Mean wood density of species in forests was greater than in state-owned plantations.
Part of the variability of mean annual wood density was explained by cambial age: an increase in cambial age resulted in an increase in mean wood density.
The species A. leiocarpus, C. glutinosum, T. macroptera, V. paradoxa, P. erinaceus, A. indica, A. seyal, and C. febrifuga were characterized by a high mean wood density.
Additionally, in all conservation areas, the mean wood density sampled by the inventory and that sampled by the census did not significantly differ.
Fig. 1 Hierarchical distribution of independent variables included in the model: cambial age (CA), aspect and tree-ring width (TRW) and their influence on mean wood density.
Mean wood density of each bole (and each tree) was calculated as the diameter-weighted mean of all discs from each tree, and mean wood density of each log was calculated as the diameter-weighted mean of the two log-end discs.
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Mean annual wood density on the NE exposed slope was on average 0.5968 (±0.0312) g/cm3 and slightly lower on the SW with 0.5908 (±0.0299) g/cm3.
However, our results showed that the difference in mean annual wood density between aspects is very small.
The second interaction term CA Aspect permits the effect of tree-ring age on mean annual wood density to vary with aspect.
The interaction term TRW Aspect allows the magnitude of the tree-ring width on mean annual wood density to vary across the valley.
The hierarchical contributions of each independent variable included in the model on mean annual wood density are illustrated in Fig. 1.
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