15 research outputs found
Stem structure of monocotyledonous trees
This paper describes process of secondary stem growth in monocotyledonous trees realized by anomalous cambium or diffuse secondary growth. The anatomical structure of stem wood and external covering tissues are also described
Measurable traits of tracheary elements in wood
The trade−off in case of water transport is captured in ecological theory by the safety vs. efficiency
concept. As the efficiency of transport of water depends mainly on the dimensions of the con−
ductive elements in wood, this paper presents the survey on some methods that allow to quantify
the tracheids and vessels attributes including their diameter (tangential/radial, hydraulic), length
as well as arrangement (axial, radial). Each trait of conductive elements is briefly described and
formula for its calculation is given. Moreover, the usefulness of measurable traits for calculating
the meso− and xeromorphy index is presented. Given the fact that the structure of pits and com−
plexity of perforation plate (scalariform, ladder−like) are important factors in wood hydraulic
resistance, the following parameters were additionally characterized: the pit membrane diameter,
pit membrane thickness, pit chamber depth and the number of bars per perforation plate between
the adjacent vessel elements
Reaction wood and tree crown architecture
The structure of reaction wood, both compression in coniferous and tension in dicotyledonous trees is described. The mechanism of reaction wood formation and its deposition in main stem and lateral branches in respect to tree crown architecture is also discussed