Diversity of Cellulose Microfibril Arrangement in the Cell Walls of Lygeum spartum Leaves

Extraction of matrix material, cytochemical methods and stereoanalysiswere used to study cell-wall architecture in leaves of Lygeumspartum, a grass species growing in sub-and regions of the Mediterraneanzone Most tissues were lignified with the exception of mesophyllcells Better results were obtained with NaOH extraction thanwith methylamine extraction The different types of fibres (sub-epidermal,axial and bundle sheath fibres), parenchyma and epidermal cellswere characterized by specific cell-wall organization The differentwall textures were variations of the basic helicoidal model Lygeum spartum L, lignified leaf fibres, cell wall, helicoidal texture, polysaccharide cytochemistry     

Comparison between the anatomical and morphological structure of leaf blades and foliar domatia in the ant-plant Hirtella physophora (Chrysobalanaceae)

Background and Aims: Myrmecophytes, or ant-plants, are characterized by their abilityto shelter colonies of some ant species in hollow structures,or ant-domatia, that are often formed by hypertrophy of theinternal tissue at specific locations (i.e. trunk, branches,thorns and leaf pouches). In Hirtella physophora (Chrysobalanaceae),the focal species of this study, the ant-domatia consist ofleaf pouches formed when the leaf rolls over onto itself tocreate two spheres at the base of the blade. Methods: The morphological and anatomical changes through which foliarant-domatia developed from the laminas are studied for the firsttime by using fresh and fixed mature leaves from the same H.physophora individuals. Key results: Ant-domatia were characterized by larger extra-floral nectaries,longer stomatal apertures and lower stomatal density. The anatomicalstructure of the domatia differed in the parenchymatous tissuewhere palisade and spongy parenchyma were indistinct; chloroplastdensity was lower and lignified sclerenchymal fibres were morenumerous compared with the lamina. In addition, the domatiawere thicker than the lamina, largely because the parenchymatousand epidermal cells were enlarged. Conclusions: Herein, the morphological and anatomical changes that permitfoliar ant-domatia to be defined as a specialized leaf structureare highlighted. Similarities as well as structural modificationsin the foliar ant-domatia compared with the lamina are discussedfrom botanical, functional and mutualistic points of view. Theseresults are also important to understanding the reciprocal evolutionarychanges in traits and, thus, the coevolutionary processes occurringin insect–plant mutualisms.     

植物高度木质化叶片表皮细胞制备方法

以凤凰茶(Camellia sinensis)叶片为例,介绍一种获取高度木质化植物叶片表皮细胞的简易方法——叶片燃烧法.该方法根据高度木质化的叶片在燃烧、过水之后,其上下表皮自行分开、细胞透明化,从而获得材料上下表皮细胞的轮廓.该方法具有简单迅速、制片效率高、上下表皮易区分及可靠稳定等优点,非常适用于木质化叶片表皮特征的研究,也可为植物学及生态学的相关研究方法提供参考.     

Alcantarea (Bromeliaceae) leaf anatomical characterization and its systematic implications

Alcantarea (Bromeliaceae) has 26 species that are endemic to eastern Brazil, occurring mainly on gneiss–granitic rock outcrops (‘inselbergs’). Alcantarea has great ornamental potential and several species are cultivated in gardens. Limited data is available in the literature regarding the leaf anatomical features of the genus, though it has been shown that it may provide valuable information for characterizing of Bromeliaceae taxa. In the present work, we employed leaf anatomy to better characterize the genus and understand its radiation into harsh environments, such as inselbergs. We also searched for characteristics potentially useful in phylogenetic analyses and in delimiting Alcantarea and Vriesea. The anatomical features of the leaves, observed for various Alcantarea species, are in accordance with the general pattern shown by other Bromeliaceae members. However, some features are notable for their importance for sustaining life on rock outcrops, such as: small epidermal thick‐walled cells, uneven sinuous epidermal walls, hypodermis often differentiated into lignified layers with thick‐walled cells, aquiferous hypodermis bearing collapsible cells, and the presence of well developed epicuticular stratum. Alcantarea leaves tend to show different shapes in the spongy parenchyma, and have chlorenchymatous palisade parenchyma arranged in more well‐defined arches, when compared to Vriesea species from the same habitat.     

New applications for an old lignified element staining reagent

The use is reported of Mirande's reagent in epifluorescence microscopy which permits a clear distinction between cellulosic and lignified tissues. Homogeneous Prespermatophytae and gymnosperm xylem appeared entirely green with Mirande's reagent under ultraviolet excitation, whereas heteroxyled angiosperm wood showed a mixed pink and blue–green colour. This coloration was due to the fluorescence of cellulose, since certain elements in dicotyledonous wood (parenchyma, fibres, xylem rays) are not entirely lignified. Monocotyledonous (Poaceae) lignin showed an intense blue fluorescence due to hydroxycinnamic acids bound to the cell wall.The method showed that lignification occurs first in the middle lamella, and later in the secondary wall of xylem cells. In addition, this staining technique proved useful in the study of lignin and suberin deposition in response to various stress factors.     

Release of Guttation Fluid from Passive Hydathodes of Intact Barley Plants. I. Structural and Cytological Aspects

The structural details of the guttating tips of 7-day-old barleyleaves were studied as a basis for a subsequent report on thephysiology of guttation. The walls of the vessels at the tipsof leaves bear many pits and are rather thin, appearing neithercutinized nor lignified. This could facilitate a direct passageof solutes out of the xylary system through the leaf apoplastand out to the leaf surface via hydathode openings. The latterare formed by modified stomatal guard cells, and there are nospecially differentiated epithem, epithelium or gland hair likestructures that could serve an active elimination of guttation.Xylem parenchyma cells and the peculiar mesophyll cells withdense cytoplasm, numerous mitochondria, an extended ER systemand a considerable formation of small vesicles in the leaf tipcould modify the content of the guttated fluid along the routeof transport. Hordeum vulgare L., barley, hydathodes, guttation     

菰适应湿地环境的解剖和屏障结构特征研究

菰(Zizania latifolia)是一种多年生挺水植物,为了探讨该植物根、茎和叶的解剖结构、组织化学及其质外体屏障的通透性生理。该文利用光学显微镜和荧光显微镜,对菰的根、茎、叶进行了解剖学和组织化学研究。结果表明:(1)菰不定根解剖结构由外而内分别为表皮、外皮层、单层细胞的厚壁机械组织层、皮层、内皮层和维管柱;茎结构由外而内分别为角质层、表皮、周缘厚壁机械组织层、皮层、具维管束的厚壁组织层和髓腔。叶鞘具有表皮和具维管束皮层,叶片具有表皮,叶肉和维管束。(2)不定根具有位于内侧的内皮层及其邻近栓质化细胞和外侧的外皮层组成的屏障结构;茎具内侧厚壁机械组织层,外侧的角质层和周缘厚壁机械组织层组成的屏障结构,屏障结构的细胞壁具凯氏带、木栓质和木质素沉积的组织化学特点,叶表面具有角质层。(3)菰通气组织包括根中通气组织,茎、叶皮层的通气组织和髓腔。(4)菰的屏障结构和解剖结构是其适应湿地环境的重要特征,但其茎周缘厚壁层和厚壁组织层较薄。由此推测,菰适应湿地环境,但在旱生环境中分布有一定的局限性。     

天南星科叶表皮研究

利用光学显微镜对天南星科18属27种及菖蒲科1属1种植物的叶表皮微形态进行观察,同时用扫描电镜对具代表性的14种植物作了研究,结果显示：天南星科气孔类型变异较大,有不规则型,辐射型,平列型,胞环型及平列型和胞环型间的过渡类型,副卫细胞数目0－12个;表皮细胞长宽近相等,平周壁具条纹或否,垂周壁平直,弧形或波浪形,虽然气孔类型对天南星科分类上的意义不大,但与表皮细胞垂周壁形状,副卫细胞角质层纹饰等特征相结合对种间分类有一定意义,天南星科与菖蒲科叶表皮微形态明显不同,从而支持菖蒲属从天南星科中分出另立为科的观点。     

Micro morphological Characteristics of Leaf Epidermis under Light Microscopy and Its Taxonomic Significance in Persea (Lauraceae) from America

Leaf epidermal micro morphological characters of 54 species belonging to genus Persea (Lauraceae) from America were comparatively studied by the means of light microscopy. It was shown that the leaf epidermal cells were usually regular bearing with straight or beaded anticlinal walls.Most of these species had unicellular trichomes uniformly distributed. The stomatal apparatus which were paracytic, only randomly presented in the areoles of abaxial epidermis for all sampled species, can be assigned into three types. The results showed that similar leaf epidermal characters can be found in the species with similar morphology. Nineteen characters were selected for PCA analysis, and the sampled species was divided into two clades. The characters of leaf epidermis were little different within a species but can vary among species. However, the multiple leaf epidermal characters including the shape of epidermal cells, the shape of stomatal apparatus, stomatal ledges and some distinct characters were relatively constant and taxonomically quite useful for the identification of some species with similar phenotypes.     

A model of stomatal conductance to quantify the relationship between leaf transpiration, microclimate and soil water stress

A model of stomatal conductance was developed to relate plant transpiration rate to photosynthetic active radiation (PAR), vapour pressure deficit and soil water potential. Parameters of the model include sensitivity of osmotic potential of guard cells to photosynthetic active radiation, elastic modulus of guard cell structure, soil‐to‐leaf conductance and osmotic potential of guard cells at zero PAR. The model was applied to field observations on three functional types that include 11 species in subtropical southern China. Non‐linear statistical regression was used to obtain parameters of the model. The result indicated that the model was capable of predicting stomatal conductance of all the 11 species and three functional types under wide ranges of environmental conditions. Major conclusions included that coniferous trees and shrubs were more tolerant for and resistant to soil water stress than broad‐leaf trees due to their lower osmotic potential, lignified guard cell walls, and sunken and suspended guard cell structure under subsidiary epidermal cells. Mid‐day depression in transpiration and photosynthesis of pines may be explained by decreased stomatal conductance under a large vapour pressure deficit. Stomatal conductance of pine trees was more strongly affected by vapour pressure deficit than that of other species because of their small soil‐to‐leaf conductance, which is explainable in terms of xylem tracheids in conifer trees. Tracheids transport water by means of small pit‐pairs in their side walls, and are much less efficient than the end‐perforated vessel members in broad‐leaf xylem systems. These conclusions remain hypothetical until direct measurements of these parameters are available.     

Characterization of peroxidases in lignifying peach fruit endocarp

Developing peach (Prunus persica L. Batsch `Redskin') fruit were used to characterize the role of peroxidases in lignification. During development, the endocarp of these drupes becomes lignified while the mesocarp remains parenchymatous. Acidic peroxidase from lignifying endocarp were similar to those of the fleshy mesocarp. The endocarp had a larger amount and number of basic peroxidases than the mesocarp. Cultured peach leaf cells are thought to be lignified because their walls give a positive reaction with phloroglucinol-HCI. These cells also secreted a basic peroxidase. Peroxidases were difficult to extract from endocarp tissue as they lignified. This was also demonstrated by tissue printing on nitrocellulose. Flesh, but not endocarp peroxidase was evident in tissue prints. This suggests that tissue printing may fail to reveal the presence of enzymes which are firmly attached to the cell.     

Leaf epidermal characteristics of Trifolium L. species from Serbia and Montenegro

A micromorphological analysis of leaf epidermal tissue of 18 Trifolium species was carried out using light and scanning electron microscopy, in order to obtain qualitative and quantitative data on epidermal characteristics and to evaluate their taxonomic significance. The shape of epidermal cells and their cell walls, epidermal wax depositions, presence of papillae, type and number of stomata, type, distribution and number of non-glandular and glandular trichomes were analyzed. The results showed that species that belong to the same section had some common leaf epidermal characteristics. Combinations of those characters proved to be useful in taxonomy at the level of the sections, but not for identification of single species.     

Characterization of microstructure and cell wall components of Arabidopsis thaliana overexpressing cyclin-dependent kinase inhibitor 2

Overexpression of a cyclin-dependent kinase inhibitor (KRP2) caused changes in the general morphology in the leaves of Arabidopsis thaliana. The wild type plant had obovate leaves with entire margins whereas the transgenic line had leaves with denticulate margins. The epidermal cells and stomata of the adult transgenic leaves were significantly larger than those of the wild-type plants and the number of stomata was in proportion to the number of epidermal cells. No apparent differences in thickness and structure of cell walls of the mesophyll cells between the two samples were observed. The smaller amount of cell wall material in the transgenic leaves caused by the larger cell size was also apparent in the lower dry weight of the transgenic leaves. The chemical analysis revealed the main differences to be in pectin and neutral sugar contents, and especially in the amounts of glucose, all being higher in the leaves of the KRP2 transgenic plants. p-Coumaric acid content varied more in the transgenic leaf material than in the control one reflecting possibly fewer cross-links in the cell walls of transgenic plants.     

Localisation and characterisation of cell wall mannan polysaccharides in<Emphasis Type="Italic"> Arabidopsis thaliana</Emphasis>

Polysaccharides containing -1,4-mannosyl residues (mannans) are abundant in the lignified secondary cell walls of gymnosperms, and are also found as major seed storage polysaccharides in some plants, such as legume species. Although they have been found in a variety of angiosperm tissues, little is known about their presence and tissue localisation in the model angiosperm, Arabidopsis thaliana (L.) Heynh. In this study, antibodies that specifically recognised mannans in competitive ELISA experiments were raised in rabbits. Using these antibodies, we showed that Golgi-rich vesicles derived from Arabidopsis callus were able to synthesise mannan polysaccharides in vitro. Immunofluorescence light microscopy and immunogold electron microscopy of Arabidopsis inflorescence stem sections revealed that the mannan polysaccharide epitopes were localised in the thickened secondary cell walls of xylem elements, xylem parenchyma and interfascicular fibres. Similarly, mannan epitopes were present in the xylem of the leaf vascular bundles. Surprisingly, the thickened epidermal cell walls of both leaves and stems also contained abundant mannan epitopes. Low levels were observed in most other cell types examined. Thus, mannans are widespread in Arabidopsis tissues, and may be of particular significance in both lignified and non-lignified thickened cell walls. Polysaccharide analysis using carbohydrate gel electrophoresis (PACE) of cell wall preparations digested with a specific mannanase showed that there is glucomannan in inflorescence stems. The findings show that Arabidopsis can be used as a model plant in studies of the synthesis and functions of mannans.Abbreviations BSA bovine serum albumin - ELISA enzyme-linked immunosorbent assay - PACE polysaccharide analysis by carbohydrate gel electrophoresis     

Epifluorescent and histochemical aspects of shoot anatomy of Typha latifolia L., Typha angustifolia L. and Typha glauca Godr

Using epifluorescent and histochemical techniques, we examined anatomical differences in the shoot organs of Typha latifolia, T. angustifolia and T. glauca. The leaf lamina of T. latifolia and T. glauca had enlarged epidermal cells and a thickened cuticle above the subepidermal vascular bundles; that of T. angustifolia lacked these characteristics. Leaf sheaths were similar among the species and all lacked the epidermal thickenings found in the lamina. The fertile stems had typical scattered vascular bundles with a band of fibres that was most prominent in T. glauca. The sterile stems were only 1 cm in length and contained a multiseriate hypodermis and a uniseriate endodermis over part of their length. The rhizomes were similar except for a pronounced band of fibres surrounding the central core in T. angustifolia. The rhizome was also characterized by an outer cortical region with a large multiseriate hypodermis/exodermis and a uniseriate endodermis with Casparian bands, suberin lamellae and secondarily thickened walls.     

Concentrations of Vacuolar Inorganic Ions in Individual Cells of Intact Wheat Leaf Epidermis

A method is described for quantitative determination of themajor inorganic constituents of individual cells of higher plants.The approach utilizes a modified pressure probe to extract samplesof undiluted vacuolar sap from single cells. Subsamples of constantvolume are taken from these sap samples and are freeze-driedon to thin films along with similarly-sized droplets of standards.The films are placed in a scanning electron microscope and elementalcontent of the freeze-dried material is determined by X-raymicroanalysis. The method has been used to compare levels ofa range of ions in two distinct types of epidermal cell froma young wheat leaf and, in association with nanolitre osmometry,was used to assess the relative importance of the inorganicions in the generation of turgor pressure in these cells. Itwas found that the concentrations of the major inorganic ionswithin the vacuole was constant both within and between twoanatomically distinct groups of epidermal cells on a leaf. Key words: Pressure probe, vacuolar ion levels, single cell sampling, wheat     

Epidermal derivatives as xylem elements and transfer cells: a study of the host-parasite interface in two species of Triphysaria (Scrophulariaceae)

Summary Haustoria ofTriphysaria pusilla andT. versicolor subsp.faucibarbata from a natural habitat were analysed by light and electron microscopy. The keel-shaped edge of the secondary haustorium generally splits the epidermis and cortex of the host root parallel to the root axis, and penetrates to the host vascular tissue. Anticlinally elongated epidermal cells of the haustorium constitute most of the host/parasite interface. Some of these epidermal cells are divided by oblique cell walls. Some of their oblique daughter cells as well as some undivided epidermal cells differentiate into xylem elements. Single epidermal cells occasionally intrude into the vascular tissue of the host and individual host cells can be invaded. The surface area of the plasmalemma in parasitic parenchymatous interface cells is increased by the differentiation of wall labyrinths characteristic of transfer cells and by the development of membrane-lined cytoplasmic tubules or flattened sacs which become embedded in the partly lignified interface cell-wall. Mycorrhizal fungal hyphae enter the xylem bridge in some haustoria. Implications of these observations for the function of the haustorium are discussed.     

中国蓼属头状蓼组植物叶表皮微形态及其分类学意义

采用光学显微镜对中国蓼属头状蓼组17种7变种植物的叶片下表皮微形态进行了观察研究,结果表明,其叶片下表皮微形态特征分为4种类型:(1)气孔器类型为无规则型,表皮细胞不规则形,垂周壁波状或深波状;(2)非典型不等型,偶有无规则型,表皮细胞多边形或不规则形,垂周壁弓形、波状或深波状;(3)平列型,表皮细胞不规则形,垂周壁深波状;(4)平列型兼有非典型不等型,表皮细胞不规则形,垂周壁波状。根据其叶片下表皮气孔器类型,结合该组植物形态、习性等特征,将中国蓼属头状蓼组植物划分为4个系,即掌裂叶系、多年生系、蓼子草系以及一年生直立系。