'' (field horsetail)
Equisetum leaves are greatly reduced and usually non-
photosynthetic. They contain a single, non-branching
vascular trace, which is the defining feature of
microphylls. However, it has recently been recognised that horsetail microphylls are probably not ancestral as in
lycophytes (clubmosses and relatives), but rather derived
adaptations, evolved by reduction of
megaphylls. The leaves of horsetails are arranged in
whorls fused into
nodal sheaths. The stems are usually green and photosynthetic, and are distinctive in being hollow, jointed and ridged (with sometimes 3 but usually 6–40 ridges). There may or may not be whorls of branches at the nodes. Unusually, the branches often emerge below the leaves in an internode, and grow from buds between their bases. '', terminal on an unbranched stem '' (rough horsetail) (2-1-0-1-2 is one
millimetre with th
graduation).The small white protuberances are accumulated
silicates on
cells.
Spores The
spores are borne under
sporangiophores in
strobili, cone-like structures at the tips of some of the stems. In many species the cone-bearing shoots are unbranched, and in some (e.g.
E. arvense, field horsetail) they are non-photosynthetic, produced early in spring. In some other species (e.g.
E. palustre, marsh horsetail) they are very similar to
sterile shoots, photosynthetic and with whorls of branches. Horsetails are mostly
homosporous, though in the field horsetail, smaller spores give rise to male
prothalli. The spores have four
elaters that act as moisture-sensitive springs, assisting spore dispersal through crawling and hopping motions after the
sporangia have split open longitudinally. They are photosynthetic and have a lifespan that is usually two weeks at most, but will germinate immediately under humid conditions and develop into a
gametophyte.
Cell walls The crude cell extracts of all
Equisetum species tested contain
mixed-linkage glucan : xyloglucan endotransglucosylase (MXE) activity. This is a novel enzyme and is not known to occur in any other plants. In addition, the cell walls of all
Equisetum species tested contain
mixed-linkage glucan (MLG), a
polysaccharide which, until recently, was thought to be confined to the
Poales. The evolutionary distance between
Equisetum and the Poales suggests that each evolved MLG independently. The presence of MXE activity in
Equisetum suggests that they have evolved MLG along with some mechanism of cell wall modification. Non-
Equisetum land plants tested lack detectable MXE activity. An observed negative correlation between
XET activity and cell age led to the suggestion that XET is catalysing endotransglycosylation in controlled wall-loosening during cell expansion. The lack of MXE in the Poales suggests that there it must play some other, currently unknown, role. Due to the correlation between MXE activity and cell age, MXE has been proposed to promote the cessation of cell expansion. ==Taxonomy==