Biomechanics and functional anatomy of hollow-stemmed sphenopsids. I. Equisetum giganteum (Equisetaceae)

Biomechanics and functional anatomy of hollow-stemmed sphenopsids. I. Equisetum giganteum (Equisetaceae)

The hollow stem of Equisetum giganteum owes its mechanical stability to an outer ring of strengthening tissue, which provides stiffness and strength in the longitudinal direction, but also to an inner lining of turgid parenchyma, which lends resistance to local buckling. With a height >2.5 m isol...

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Veröffentlicht in:American journal of botany 1998-03, Vol.85 (3), p.305-314
Hauptverfasser: Spatz, H, Köhler, L, Speck, T
Format: Artikel
Sprache:eng
Schlagworte:
Bending moments
Biodynamic agriculture
biomechanics
Botany
Buckling
critical strains
Curvature
Equisetaceae
Equisetum giganteum
Flowers & plants
Horsetails
Internodes
mechanical stability
Parenchyma
Plants
Stiffness
Structure and Development
Young's modulus
Youngs modulus
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Beschreibung
Zusammenfassung:The hollow stem of Equisetum giganteum owes its mechanical stability to an outer ring of strengthening tissue, which provides stiffness and strength in the longitudinal direction, but also to an inner lining of turgid parenchyma, which lends resistance to local buckling. With a height >2.5 m isolated stems are mechanically unstable. However, in dense stands individual stems support each other by interlacing with their side branches, the typical growth habit of semi-self-supporters.
ISSN:0002-9122
1537-2197
DOI:10.2307/2446321