The Characteristics of Fibres within Coppiced and Non-Coppiced Rosewood (Pterocarpus erinaceus Poir.) and their Aptness for Wood - and Paper - Based Products
Rosewood (Pterocarpus erinaceus) is highly priced for furniture, flooring and cabinetry for its rich hue
and durability. Its coppiced wood augments the timber for regular supply and sustainable utilization. Fibre
morphology from macerated slivers within its coppiced and non-coppiced stems and their utilization potential
were assessed. Derived ratios for the fibres were also calculated. The axial positions (butt, middle, crown)
affected the fibre dimensions. Fibre length was greater for coppiced trees [i.e., 1663±11, 1488±5,
1511±10µm (for sapwood) and 1498±10, 1486±9, 1394±4µm (for heartwood)] than the non-coppiced [i.e.,
1240±7, 1013±5, 1137±5µm (sapwood) and 1094±8, 1002±2, 1041±9µm (heartwood)]. In all, those for
sapwoods were greater than heartwoods’. Significant differences (P˂0.05) existed between fibre lengths
from the coppiced (1394±4-1663±11µm) and non-coppiced trees (1002±2-1240±7µm). Fibre diameters for
coppiced sapwood and heartwood were 23±1, 20±1, 22±0.8µm and 21.5±0.3, 20.7±0.5, 21.3±2µm and noncoppiced
recorded 21±0.6, 20.7±0.3, 20.6±0.1µm and 21±0, 21±0.4, 21±0.8µm respectively. Their respective
double wall thicknesses were 8.4±0.2, 7.2±0.2, 9.4±1µm and 8.2±0.2, 9±0.3, 9.1±0.4µm for coppiced wood,
and 9.1±1, 7.8±0.1, 8.1±0.3µm and 8.5±0.3, 8±0.4, 8±1 for non-coppiced. Thus, radial stem position also
influenced fibre morphology. The fibre indices [i.e., Runkel Ratio, Slenderness Ratio and Flexibility
Coefficient for coppiced wood (0.6±0.06-0.85±0.06, 68±4-77±6, 56±4-64±2 respectively) and non-coppiced
(0.64±0.12-0.8±0, 49±1-58±4, 57±3-62±2 respectively)] indicate the timber’s aptness for pulp and paper.
Besides, the Wood Industry could exploit the fibre characteristics of coppiced wood also for engineering of
fibre-based products and structural applications