@inproceedings{8646615,
  abstract     = {{Xylem vessel features are the most investigated anatomical traits of Angiosperm wood. They are being analyzed in ecophysiological projects aiming at understanding sap flow and vulnerability to drought stress. Since long, size, grouping and density of vessels are also used as one of the first steps in timber identification, as they can easily be observed even with a hand lens.

Vessels are also known to be related to tree height. The volumetric sap flow rate is inversely related to the length of the path, so that vessels need to widen at lower parts of the tree and taper towards the higher parts to assure optimal transport and a stable hydraulic resistance with progressing growth in height. Vessels are expected to narrow from roots to stem and further to the branches and the petioles. Accordingly it is also predictable that vessel features on pith-to-bark profiles are a proxy for height growth for individual trees. Since the functional groups of species of a tropical rainforest are based on height grow rate (related to light needs), it is expected that pith-to-bark profiles of vessels reveal information on temperament of the species.

A methodology has been developed to establish pith-to-bark profiles of vessel features, based on long microtomic sections, image analysis and machine learning. Entandrophragma was used as a model genus. The differences between the four most common species of this genus have been explored. Wilcoxon signed rank test indicate that the difference in mean vessel size is significant between every species combination except between Entandrophragma candollei and Entandrophragma cylindricum. Interesting to note is the large vessel size range possible for Entandrophragma utile. Currently, pith-to-bark vessel trends are constructed that could help explaining difference in growth strategy. The approach offers appealing perspectives to find a formal way for sub setting tree species into functional groups and develop indexes for growing conditions of forest sites.}},
  author       = {{Kasongo Yakusu, Emmanuel and Deklerck, Victor and Hubau, Wannes and Lievens, Kevin and Laurent, Félix and Bourland, Nils and Van den Bulcke, Jan and Van Acker, Joris and Beeckman, Hans}},
  booktitle    = {{AMPEE5, 5th Annual Meeting on Plant Ecology and Evolution,  Abstracts}},
  keywords     = {{Xylem vessel traits,tree performance,drought stress,Entandrophragma species,Congo Basin forest}},
  language     = {{eng}},
  location     = {{Meise}},
  pages        = {{1}},
  publisher    = {{Botanical Society Belgium and Meise Botanic Garden}},
  title        = {{Pith-to-bark profiles of xylem vessel traits reveal unique information on tree performance in a tropical moist semi-deciduous forest of the Congo Basin}},
  url          = {{https://sites.google.com/plantentuinmeise.be/ampee5/homepage/ampee5-abstracts}},
  year         = {{2019}},
}