The endodermis of different species of the genus Equisetum has different configurations, two or one continuous layers or a sheath only around the vascular bundles. The question whether the endodermis contributes to the mechanical stability of the aerial shoots is investigated in two ways: In a direct approach, the endodermis of segments of E. hyemale was dissected longitudinally and the mechanical stability against ovalization measured as a function of the orientation of the cuts with respect to the forces applied. A comparative approach tested the mechanical stability of eight different species of Equisetum against ovalization of the cross-section for samples, which were either fully turgescent or had reduced turgor pressure. The double-layer endodermis substantially contributed to the mechanical stability of E. affinis and E. hyemale. Equisetum arvense, E. pratense, E. sylvaticum, and E. telmateja are mechanically stabilized by their single layer of endodermis at least under conditions of low turgor pressure.
[1]
K. Niklas.
EXTRACELLULAR FREEZING IN EQUISETUM HYEMALE
,
1989
.
[2]
Franka Brüchert,et al.
Biomechanics of the giant reed Arundo donax
,
1997
.
[3]
T Speck,et al.
Biomechanics and functional anatomy of hollow-stemmed sphenopsids. I. Equisetum giganteum (Equisetaceae).
,
1998,
American journal of botany.
[4]
L. Brazier.
ON THE FLEXURE OF THIN CYLINDRICAL SHELLS AND OTHER SECTION
,
1927
.
[5]
K. Pryer,et al.
Phylogenetic Relationships and Evolution of Extant Horsetails, Equisetum, Based on Chloroplast DNA Sequence Data (rbcL and trnL‐F)
,
2003,
International Journal of Plant Sciences.
[6]
Olga Speck,et al.
BIOMECHANICS AND FUNCTIONAL ANATOMY OF HOLLOW STEMMED SPHENOPSIDS : III. EQUISETUM HYEMALE
,
1998
.
[7]
Harold Charles Bold.
Morphology of plants
,
1957
.