Biomechanics of selected arborescent and shrubby monocotyledons.

Main aims of the study are a deepened understanding of the mechanically relevant (ultra-)structures and the mechanical behaviour of various arborescent and shrubby monocotyledons and obtaining the structure-function relationships of different structurally conspicuous parts in stems. The stems of five different "woody" monocotyledon species were dissected and the mechanical properties of the most noticeable tissues in the five monocotyledons and, additionally, of individual vascular bundles in , were tested under tensile stress. Results for Young's moduli and density of these tissues were assessed as well as the area, critical strain, Young's modulus and tensile strength of the vascular bundles in . These analyses allowed for generating a model for the mechanical interaction of tissues and vascular bundles of the stem in as well as filling major "white spots" in property charts for biological materials. Additionally we shortly discuss the potential significance of such studies for the development of branched and unbranched bio-inspired fibre-reinforced materials and structures with enhanced properties.