Within-tree variation in cambial anatomy and xylem cell differentiation in Eucalyptus globulus |
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Authors: | Brad G Ridoutt Roger Sands |
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Institution: | (1) Cooperative Research Centre for Hardwood Fibre and Paper Science, School of Forestry, The University of Melbourne, 3363 Creswick, Victoria, Australia |
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Abstract: | Summary Microscopic examination of the vascular cambium of Eucalyptus globulus, from four trees, at nine height levels, revealed a non-storied cambial structure with both ray and fusiform initials. Average fusiform initial length increased from 443 m at 70% of tree height from the base to a maximum of 484 m at 10% of tree height. At 2.5% of tree height average fusiform initial length sharply declined to 438 m. A strong positive correlation (r = 0.757, df = 7, P <0.05) existed between average fusiform initial length and average fibre length at each height, giving quantitative support to the notion that variation in fusiform initial length is an important mechanism influencing fibre length in hardwoods. However, 62% of the longitudinal variation in average fibre length was explained by the extent of elongation during differentiation, which increased linearly down the stem. At 70% of tree height, the average length of fibres was 1.84 times that of the fusiform initials, compared to 2.11 times at 2.5% of tree height. Concomitant with this longitudinal gradient of elongation was a gradient of increasing tangential area of the cambium occupied by cambial rays. This was accounted for by dimensional increases in the ray initial cells with decreasing height. Possible mechanisms that regulate the elongation of developing fibres and the proportion of cambial rays are discussed. |
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Keywords: | Cambium Eucalyptus globulus Fibre length Longitudinal variation Xylem differentiation |
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