The diversity of stomatal development in Orchidaceae subfamily Orchidoideae

The development of leaf stomata in species of Orchidoideae sensu Garay is agenous or hemimesogenous with a single mesogene cell. Both kinds of development occur in all 26 species studied and are found in a characteristic proportion which may differ markedly even between related species.
Leaf and stem stomata develop similarly but surrounding cells may divide obliquely in the latter, so that perigene cells are formed. At maturity, mesogene and perigene cells resemble other epidermal cells, the stomata being anomocytic.
In monocotyledons, the hemimesogenous development of stomata is previously known only from five orchid genera of the neottioid tribe Cranichideae sensu Dressler. This kind of stomatal development in monocotyledons is documented by micrographs for the first time. Mesogene and perigene cells are recorded for the first time in the Orchidoideae. The diversity of types of stomatal development in this group is emphasized.     

Pollinium development and number in the Orchidaceae

Development of anthers in three subfamilies of Orchidaceae was studied anatomically to examine homology hypotheses for pollinium number characters and to produce a model of pollinium development for the family. Serial sections of plastic-embedded embryonic inflorescences revealed that anther primordia were either flattened or ovoid; subsequent expansion of thecae and their inward (adaxial) reorientation (“rotation”), achieved by differential cell division and elongation in the connective, result in a mature anther with strongly introrse morphology and pollinia oriented side by side (juxtaposed). Strongly introrse anthers occur in at least some members of all subfamilies and are probably the basal state for the family. All anthers examined (from Orchidoideae, Spiranthoideae, and Epidendroideae) showed a single meristematic region, which would later give rise to pollen, per theca at earliest stages; septation of each of these regions resulted in four or eight pollinia per anther, while lack of septation in some members of the Epidendroideae gave two pollinia. In contrast, the two bipartite pollinia found in many Spiranthoideae and Orchidoideae were produced by adherence of the contents of two locules at a late ontogenetic stage, and should be recognized as a distinct character state. Eight pollinia result from partitioning by two longitudinal septa or a longitudinal and a transverse septum; these two morphologies may also represent separate character states.     

Phylogeny of Bonatea (Orchidaceae: Habenariinae) based on molecular and morphological data

The genus Bonatea is widely distributed throughout southern and eastern Africa. Considerable debate surrounds the generic status of Bonatea, but there have been neither previous studies of evolutionary relationships among Bonatea species, nor any tests of the monophyly of the genus in relation to its close relative Habenaria. We investigated phylogenetic relationships between Bonatea and selected Habenaria species using morphology, as well as sequences of the chloroplast gene matK and the internal transcribed spacer (ITS) regions of nuclear ribosomal DNA. A fully resolved cladogram was obtained using morphological data, but neither the ITS, matK, nor combined data sets yielded well-resolved and well-supported phylogenetic structure for Bonatea. There is poor congruence between ITS and matK data for interspecific relationships in Bonatea, whilst the morphological results are largely congruent with the ITS analysis. Relative to Habenaria, there is little sequence variation between Bonatea species, which could indicate a recent and rapid radiation of Bonatea. Although the sampled Bonatea species form a distinct clade, more extensive sampling of Habenaria would be required to establish unambiguously whether or not Bonatea is monophyletic.