Root character evolution and systematics in Cranichidinae, Prescottiinae and Spiranthinae (Orchidaceae, Cranichideae)

Background and Aims: Previous studies have suggested that velamen characteristicsare useful as taxonomic markers in Orchidaceae. Members of tribeCranichideae have been assigned to two velamen types constructedbased on combinations of characters such as the presence ofsecondary cell-wall thickenings and pores. However, such charactershave not been analysed on an individual basis in explicit cladisticanalyses. Methods: The micromorphology of roots of 26 species of Cranichideae wasexamined through scanning electron microscopy and light microscopy,scoring the variation and distribution of four characters: numberof velamen cell layers, velamen cell-wall thickenings, presenceand type of tilosomes, and supraendodermal spaces. The lastthree characters were analysed cladistically in combinationwith DNA sequence data of plastid trnK/matK and nuclear ribosomalinternal transcribed spacer (ITS) regions and optimized on theresulting phylogenetic tree. Key Results: Thickenings of velamen cell walls group Prescottiinae with Spiranthinae,whereas tilosomes, documented here for the first time in Cranichideae,provide an unambiguous synapomorphy for subtribe Spiranthinae.Supraendodermal spaces occur mostly in species dwelling in seasonallydry habitats and appear to have evolved three times. Conclusions: Three of the four structural characters assessed are phylogeneticallyinformative, marking monophyletic groups recovered in the combinedmolecular–morphological analysis. This study highlightsthe need for conducting character-based structural studies toovercome analytical shortcomings of the typological approach.     

Localization of Associative Cyanobacteria on the Roots of Epiphytic Orchids

This work is the first study of the localization of phototrophic microorganisms in the rhizoplane and velamen of epiphytic orchids, namely, on the aerial and substrate roots of Acampe papillosa and Dendrobium moschatum and on the aerial roots of Phalaenopsis amabilis and Dendrobium phalaenopsis. The composition of the bacterial community on the plant roots depended on the conditions of plant growth. Under conditions simulating the climate of moist tropical forests, the aerial roots proved to be populated with phototrophic microorganisms, among which cyanobacteria predominated. Interlaced fungal hyphae and filamentous cyanobacteria formed a sheath on the surface of the aerial roots. The nitrogen-fixing capacity of the sheath of the aerial roots was studied on the example of P. amabilis.     

Systematic and comparative anatomy of Maxillarieae (Orchidaceae), sans Oncidiinae

On the basis of floral and vegetative morphology, 63 tropical American genera have been recognized within Maxillarieae. We were able to examine anatomical material of all subtribes, excluding Oncidiinae. Stegmata with conical silica bodies occur in leaves and stems of all subtribes excluding Ornithocephalinae, and pericyclic stegmata found in roots are characteristic of Lycastinae. Lycastinae and Maxillariinae are characterized by foliar glands, foliar fibre bundles and tilosomes. Endodermal cells are U-thickened in most Zygopetalinae; O-thickened in most Lycastinae, Ornithocephalinae and Telipogoninae; variously thickened in Maxillariinae; and thin-walled in Cryptarrhena lunata . Water-storage cells varied from thin-walled to variously banded throughout Maxillarieae. Cladistic analyses using anatomical characters yielded no resolution among subtribes, illustrating that anatomical characters are of limited value in assessing relationships within this tribe.  © 2004 The Linnean Society of London, Botanical Journal of the Linnean Society , 2004, 144 , 251–274.     

附生兰科植物根被组织研究概述

植物根被组织是指存在于附生兰科植物、地生兰科植物、一些石蒜科、天南星科、薯蓣科以及百合科植物根部的典型适应性结构特征;成熟根被组织是由1～25层左右死细胞构成的白色鞘,其细胞壁多有螺旋式增厚,呈天鹅绒状或网状、羽毛状结构,具有海绵质地.该组织有六种应用于分类学特征的形态,依据这六种形态可将其分为12种类型;根被组织具有...     

Endophytic diversity of hanging velamen roots in the epiphytic orchid Acampe praemorsa

ABSTRACT

Background

The ecological functions of the aerial hanging roots (velamen roots) in orchids are not yet fully understood.     

Comparative vegetative anatomy and systematics of the Oncidiinae (Maxillarieae, Orchidaceae)

Subtribe Oncidiinae comprises a vegetatively heterogeneous assemblage of species that has persistently been incapable of organization. Anatomy was considered to be a possible means to resolve the perplexity of relationships amongst the constituent taxa. The consistent occurrence of a foliar hypodermis, homogeneous mesophyll, conical silica bodies in stegmata, and ubiquitous fibre bundles in leaves provides a matrix for linking the taxa, as do the parenchymatous pith and O-thickened endodermal cell walls in roots. However, the strict consensus of the 40 genera studied was completely unresolved, suggesting that vegetative characters alone are insufficient to assess the relationships amongst these taxa, a conclusion also reached for the remainder of Maxillarieae.  © 2006 The Linnean Society of London, Botanical Journal of the Linnean Society , 2006, 152 , 91–107.     

Vegetative anatomy and systematics of Triphorinae (Orchidaceae)

Triphorinae represents a group of three anatomically simple genera, the structural features of which are unspecialized. The anomocytic stomatal pattern occurs in all genera; it predominates in Triphora. A foliar hypodermis, sclerenchyma, fibre bundles and stegmata are absent. The mesophyll is homogeneous. The exodermal and endodermal cells in the roots are entirely thin‐walled and tilosomes are absent. However, there are anatomical modifications that appear to be unique: root hairs in Monophyllorchis are borne on velamenal buttresses and, in Psilochilus, they arise endogenously. In the root vascular system of Psilochilus, the metaxylem occurs as a circumferential band. The surfaces of stems in Triphora are tuberculate. Mycorrhizae appear to characterize the root cortices of all genera. © 2009 The Linnean Society of London, Botanical Journal of the Linnean Society, 2009, 159 , 203–210.     

Comparative vegetative anatomy and systematics of Laeliinae (Orchidaceae)

Laeliinae are one of the most prominent orchid subtribes, with c. 40 genera and nearly 1500 species, and contain a disparate group of taxa with widely varying morphological features. There does not appear to be a complex of characters to which one can refer in order to delineate the subtribe as a whole. Thus, it was thought that vegetative anatomy might provide clues to the monophyly of the group. The microscopic structure of the leaves, stems and roots of representatives of most of the genera was studied. It was concluded that the anatomy lacks overall uniformity and that vegetative characters alone are insufficient to assess the relationships amongst the genera. The only nearly consistent anatomical feature was the abaxial row of fibre bundles in the leaves. Thus, anatomically, as well as morphologically, Laeliinae are a mixed bag. © 2009 The Linnean Society of London, Botanical Journal of the Linnean Society, 2009, 160 , 21–41.     

Comparative vegetative anatomy and systematics of Vanilla (Orchidaceae)

Vanilla is a pantropical genus of green-stemmed vines bearing clasping (aerial) and absorbing (terrestrial) roots. Most vanillas bear normal, thick foliage leaves; others produce fugacious bracts. Seventeen species, including both types were studied. Foliage leaves of Vanilla are glabrous, have abaxial, tetracytic stomatal apparatuses, and a homogeneous mesophyll. Species may or may not have a uniseriate hypodermis. Crystals occur in the foliar epidermises of some species, but all species have crystalliferous idioblasts with raphides in the mesophyll. Vascular bundles in leaves are collateral and occur in a single series alternating large and small. Sclerenchyma may or may not be associated with the vascular bundles. Scale leaves may be crescent or C-shaped and usually have abaxial stomatal apparatuses. A hypodermis may or may not be present; the mesophyll contains raphide bundles in idioblasts. Vascular bundles are collateral and occur in a single row sometimes aligned close to the adaxial surface. They may or may not be associated with sclerenchyma. Stems of leafy vanillas show a sclerenchyma band separating cortex from ground tissue; stems of leafless vanillas do not show a sclerenchyma band. Ground tissue of the stem may consist solely of assimilatory cells or mixed assimilatory and water-storage cells. In some species centrally located assimilatory cells are surrounded by layers of water-storage cells. A uniseriate hypodermis is present in all stems. Sclerenchyma may completely surround the scattered collateral vascular bundles, occur only on the phloem side, or be absent. Both aerial and terrestrial roots are notable for their uniseriate velamen the cell walls of which may be unmarked or ornamented with anticlinal strips. Exodermis is uniseriate; the cells vary from barely thickened to strongly thickened. Only the outer and radial walls are thickened. Cortical cells of aerial roots generally have chloroplasts that are lacking from the same tissue of terrestrial roots. Raphide bundles occur in thin-walled cortical idioblasts. Endodermis and pericycle are uniseriate; pericycle cells are all ?-thickened opposite the phloem. Cells of the endodermis are either ?- or ∪-thickened opposite the phloem. Vascular tissue may be embedded in thin- or thick-walled sclerenchyma or in parenchyma. Metaxylem cells are always wider in terrestrial than in aerial roots of the same species. Pith cells are generally parenchymatous but sclerotic in a few species.     

Comparative anatomy and systematics of the orchid tribe Vanilleae excluding Vanilla

Vanilleae have been divided into three subtribes consisting of ten genera. We had material for study of all except Dictyophyllaria in subtribe Vanillinae. All genera except Vanilla have few species; Clematepistephium and Dictyophyllaria are monospecific. Leafy types have adaxial and abaxial stomata except Clematepistephium, Epistephium , and Eriaxis which have only abaxial tetracytic and anomocytic stomatal apparatuses. Cyrtosia, Erythwrchis, Galeola , and Lecanorchis are leafless. Hypodermis occurs in leaves of Pseudovanilla, Clematepistephium , and Eriaxis; leaves of Epistephium lack a hypodermis. Mesophyll is homogeneous. Stems of Cyrtosia, Galeola , and Eriaxis and rhizomes of Cyrtosia have a hypodermis. A uniseriate velamen occurs in roots of Erythrorchis, Pseudovanilla, Clematepistephium , and Lecanorchis; roots of other genera are bounded by a simple epidermis. Exodermal cell walls are n-thickened; endodermal cell walls are O-thickened. Vascular tissue of roots is variously embedded in sclerenchyma or parenchyma; similarly, pith may be sclerenchymatous or parenchymatous. Cladistic analyses result in two equally parsimonious trees with Epistephium and Eriaxis reversed in placement in each tree. Both trees constitute a paraphyletic complex giving rise to a clade containing the monophyletic Lecanorchidinae and Galeolinae. Vegetative anatomical characters have some phylogenetic value in Vanilleae, but they are not useful in resolving placement of the large and polymorphic genus Vanilla.