Ultrastructure of germination and mucilage production inHalosphaeria appendiculata (Halosphaeriaceae)

The germination of ascospores of the marine fungusHalosphaeria appendiculata was investigated with transmission electron microscopy. Prior to germination, settled ascospores became surrounded by a fibro-granular layer. Small, membrane-bounded vesicles and larger electron-dense membrane-bounded vesicles aggregated at the site of germ tube formation where the plasmalemma adjacent to the aggregation was convoluted. The vesicles appeared to fuse with the plasmalemma, releasing their contents. Enzymatic digestion of the spore wall probably occurred at the time of germ tube emergence. After the nucleus had migrated into the newly formed germ tube, a septum was formed to delimit the germ tube from the ascospore. The growing germ tube can be divided into 3 morphological regions, namely the apical, sub-apical and vacuolated regions, and is typical of other fungi. A mucilaginous sheath was associated with the older mycelium. The germ tube displaced the polar appendage, and the ascospore, germ tube and appendage were enclosed in a mucilaginous sheath. In ascospores which subtended old germ tubes, the nucleus and lipid body became irregular in shape and the cytoplasm was more vacuolated. Microbody-like structures remained associated with the lipid throughout development, and were present in old ascospores.     

Ontogeny of solasodine-containing mucilage layer inSolanum viarum Dunal, ploidy types

Berries of steroid-bearingSolanum viarum Dunal are exploited commercially in India as raw material by steroid industries for solasodine, a glycoalkaloid, present in the mucilaginous exotesta of the seed. Comparative ontogeny of exotesta studied through histochemical studies in diploid, autotetraploid and trisomic plants indicated similarity in the histochemical changes occurring during ontogeny of the outermost seed coat layer which culminated in the transformation of this layer into the mucilage layer. The increased cell size in this layer in the autotetraploid plants probably accounts for the higher steroid content reported. Corroborative evidences for histochemical changes observed in the mucilage layer were obtained from studies of ultrastructure using transmission electron microscopy.     

The optical brightener Calcofluor White disorders thecal architecture and inhibits cell division ofCryothecomonas longipes Schnepf et Kühn, a marine nanoflagellate incertae sedis

Summary Calcofluor White inhibits the division of the marine nanoflagellateCryothecomonas longipes and causes the development of monstrously lobed cells. It disturbs the assembly of a putative noncellulosic fibrillar polysaccharide in the theca. The compact layer of the theca becomes thicker and wider, less densely packed and less rigid. The deposition of thecal components becomes uncoordinated. In consequence the initially unaffected coat of the theca and loose portions of the compact layer protrude from the cell surface. These are then convoluted, with the coat on their convex faces. The spacing of the coat ridges is increased here. The tension between the different layers obviously stabilizes the theca and contributes to its rigidity and elasticity.Abbreviations CW Calcofluor White - DCB 2-chloro-6-dichlo-robenzonitrile     

The localization of galactosyl residues and lectin receptors in the mucilage and the cell walls ofCosmocladium saxonicum (Desmidiaceae) by means of fluorescent probes

Summary The localization of galactosyl residues and lectin binding sites in mucilage and cell walls of the colony forming green algaCosmocladium saxonicum (Desmidiaceae) has been studied using fluorescent probes. In mucilaginous filaments, which are secreted through pores of the cell wall, and in the primary cell wall galactosyl residues in -bound configuration are exposed, as indicated by indirect immunofluorescence using antiserum to monogalactosyl diglyceride residues. Concanavalin A receptors are present mainly at the surface of the secondary cell wall, whereasRicinus communis agglutinin, type I, receptors are predominantly associated with mucilaginous connecting strands, which join adjacent cells within a colony. NoUlex europaeus agglutinin receptors were found. Application of the fluorochrome calcofluor white ST resulted in labeling both, the primary and the secondary cell wall. The data, obtained with the fluorescent probes were compared with those obtained by thin layer chromatography of hydrolysed mucilage.This work includes parts of a doctoral thesis of B. S. carried out under the supervision of Prof. Dr. M.Mix.     

Cell structure and reproduction process in the Blue-Green algaChamaesiphon

Ultrathin sections were studied in 2 strains and 2 samples from the nature of the genusChamaesiphon, representing 4 different species. Thylakoids are distributed mainly on the periphery of the cells, the cell-wall is probably 2-layered, and variable multilayered mucilaginous envelopes are developed around the cells. The cell division starts, as well as in otherCyanophyceae, by the invagination of the cytoplasmic membrane and of cell-wall layers into the protoplast; the mucilaginous envelopes—pseudovaginae—do not participate in this process but they form only the firm sheaths around the cells. The way of reproduction is, therefore, essentially the same as that described in other chroococcal Blue-Green algae (e.g.,Synechococcus), and the main difference is the polarized growth of theChamaesiphon cells. The taxonomical position of chamaesiphonoid algae is not as isolated as it was earlier supposed, the similarity withEntophysalidaceae is evident.     

Ontogenetic plate and plate field development in two chitons,Middendorffia andIschnochiton

Summary The larva ofIschnochiton gradually develops 6 transversal ridges and later a seventh one on its back. These intersegmental ridges are composed of two types of cells, one of them a goblet cell, as they are found in the girdle. Both types of cell seem to be responsible for cuticle secretion. The depressions between the ridges, called plate fields, are responsible for plate secretion. There are two different cell types. The marginal ones, which remain slender and tall, develop an enormous flat villus (here called a stragulum). Each plate field is tightly sealed against sea water by the stragulum. In the crystallization chamber formed by the stragulum, the first plate anlage is formed. In the later stages, the stragulum protects the growing plate margin. No periostracum is found. Most probably the cells developing the stragulum are responsible for the secretion of the tegmentum and in early development are the only secretory cells. The central cells of the plate field, which very soon flatten, then produce the second plate layer, the hypostracum. There is no secretion product in common to plate fields and intersegmental ridges. During the developmental period studied inIschnochiton (from hatching to 94 h) the number of cells of the individual plate field is not increased.The earliest anlage of the plates inMiddendorffia andIschnochiton is rodlike with straight margins and is not composed of several granules. Growth takes place at least inMiddendorffia by apposition of lime to the ends, posterior and, preferably, anterior margins. All plates are posttrochal.     

Taxonomy and Phylogeny of Synchaetomella Lunatospora, a New Genus and Species of Synnematous Fungi from Southeast Asia

The anamorphic fungus Synchaetomella lunatospora gen. et sp. nov. is described from a culture isolated from leaf litter in Singapore. The genus is characterized by the production of synnematous conidiomata with brown stipes, phialidic conidiogenesis with terminal and acropleurogenous conidiogenous cells, and falcate, 1-septate conidia, aggregating in white, mucilaginous heads. Its phylogenetic relationships, inferred from the partial nuclear small ribosomal subunit (18S) sequence, are with the coelomycetous genera Sphaerographium, Chaetomella, and Hainesia. However, the order and family affinities of this group are unclear.     

Cyanobacteria and eukaryotic algae in sports turf and amenity grasslands: a review

A review is presented on the occurrence and role of cyanobacteria and eukaryotic algae in sports turf, especially golf curses, and on the problems arising when these organisms become abundant. The literature depends largely on observations in only a few countries, mainly Canada, New Zealand, U.K. and U.S.A., but problem growths are probably widespread. The genera reported to be conspicuous at times include Nostoc, Phormidium, Coccomyxa, Cosmarium, Cylindrocystis, Klebsormidium, Mesotaenium and Zygogonium. Conspicuous surface growths are probably most often related to unsatisfactory drainage or irrigation practices, but other factors such as fertilizer treatment (especially excess ammonium sulphate) have been implicated. These surface growths sometimes incorporate copious mucilaginous ‘slime’, which can be a serious hazard by causing people to slip. U.K. observations suggest that this is especially likely under acidic conditions, where Coccomyxa, Cylindrocystis and Mesotaenium are among the probable culprits. Some literature indicates that cyanobacteria are also associated with a subsurface black layer, which can cause serious problems for turf management where sandy soils are subject to unsatisfactory drainage. It seems likely, however, that cyanobacteria are largely, if not entirely, absent from the subsurface layer, but may form a dark layer at the turf surface overlying the position of the subsurface black layer. The dark surface layer is probably due largely to narrow filamentous cyanobacteria, whose growth may enhance the poor drainage and thus reinforce the conditions favouring the black subsurface layer associated with anoxic conditions. The soil algal vegetation of sports turf may also be expected to exhibit beneficial effects known to occur in soils of other types of community, such as nitrogen fixation by some cyanobacteria and the binding of particles. However, little study on such effects has been directed specifically to sports turf.     

Ontogeny,function and evolution of extreme floral construction inMonimiaceae

In at least 4 genera of theMonimiaceae (Tambourissa, Wilkiea, Kibara, Hennecartia) extremely specialized flowers with a hyperstigma occur, i.e. a secretory zone in the narrow entrance of the floral cup. The mucilaginous secretion of the hyperstigma and of the carpels produces a transmitting medium for pollen tubes continuous from the mouth of the floral cup to the ovules. As to their floral morphology, the two extreme types,Hortonia andTambourissa, are connected gradually by various other genera. Possible evolutionary trends and systematic problems are outlined.     

Electron microscopical studies ofThorea ramosissima (Thoreaceae,Rhodophyta): Taxonomic implications ofThorea pit plug ultrastructure

The thallus ofThorea ramosissima was studied electron microscopically. The cells of the medulla, the cortex and the assimilatory hairs differ not only in size and number of plastids and their equipment with thylakoids but also in cell wall structure, the number of mitochondria and the activity of the Golgi apparatus, with dictyosomes transforming complete cisternae into Golgi vesicles with mucilaginous contents in the outer region of the cortex. The pit connections have plugs with a distinct plate—like (not dome-like) outer cap layer. BecauseT. riekei was reported to have dome-like outer cap layers and because this character was the main reason to place theThoreaceae into theBatrachospermales (Pueschel & Cole 1982),T. riekei was reinvestigated, too. A distinct outer cap could not be detected. The reliability of pit plug structure as a taxonomic character and the taxonomic position ofThorea is discussed.     

Arecophila bambusae sp. nov. andA. coronata comb. nov., from dead culms of bamboo

A new species ofArecophila and a species previously known asAmphisphaeria coronata are described and illustrated from dead culms of bamboo.Arecophila bambusae sp. nov. is distinct in the genus in having ellipsoidal ascospores with slightly round ends, and asci with a narrow subapical ring.Arecophila coronata comb. nov. has asci with a wedgeshaped apical ring and weakly striated ascospores enclosed in wide mucilaginous sheath.     

Electron microscopy of the cell wall complex ofMethylomonas albus

In surface view, the cell wall complex ofMethylomonas albus possesses a hexagonal pattern of ridges. Thin sections reveal a continuous layer of goblet-shaped elements attached to the outermost surface of the lipopolysaccharide membrane. A possible interpretation of the cell wall complex ofM. albus, based on the fine-structural data is presented.     

The Effect of an Extracellular Mucilage on the Response to Osmotic Shock in the Charophyte Alga Lamprothamnium papulosum

We have used current/voltage (I/V) analysis to investigate the role played by extracellular mucilage in the cellular response to osmotic shock in Lamprothamnium papulosum. Cells lacking extracellular mucilage originated in a brackish environment (1/3 seawater). These were compared, first with cells coated with thick (∼50 μm) extracellular mucilage, collected from a marine lake, and second, with equivalent mucilaginous marine cells, treated with heparinase enzyme to disrupt the mucilage layer. Histochemical stains Toluidine Blue and Alcian Blue at low pH identified the major component of the extracellular mucilage as sulfated polysaccharides. Treating mucilage with heparinase removed the capacity for staining with cationic dyes at low pH, although the mucilage was not removed, and remained as a substantial unstirred layer. Cells lacking mucilage responded to hypotonic shock with depolarization (by ∼95 mV), cessation of cyclosis, due to transient opening of Ca²⁺ channels, and opening of Ca²⁺-activated Cl⁻ channels and K⁺ channels. Cell conductance transiently increased tenfold, but after 60 min was restored to the conductance prior to hypotonic shock. Mucilaginous cells depolarized by a small amount (∼18 mV), but Ca²⁺ channels failed to open in large enough numbers for cyclosis to cease. Likewise most Ca²⁺-activated Cl⁻ channels failed to open and conductance increased only ∼1.2-fold above the prehypotonic level. After 60 min conductance was less than the conductance prior to hypotonic shock. Heparinased mucilaginous cells recovered several aspects of the hypotonic response in cells lacking mucilage. These cells depolarized (by ∼103 mV); cyclosis ceased, indicating that Ca²⁺ channels had opened, and conductance increased to ∼4 times the value prior to hypotonic shock, indicating that Ca²⁺-activated Cl⁻ channels opened. However, after 60 min, these cells had neither restored membrane potential (and remained at positive values), nor decreased their conductance. It was not possible to determine whether K⁺ channels had opened. The heparinased cells recovered the normal hypotonic response of mucilaginous cells when heparinase was washed out. Apical seawater cells, which lacked mucilage, were unaffected by heparinase treatment. The results demonstrate that the presence of extracellular sulfated polysaccharide mucilage impacts upon the electrophysiology of the response to osmotic shock in Lamprothamnium cells. The role of such sulfated mucilages in marine algae and animal cells is compared and discussed. Received: 24 March 1998/Revised: 28 April 1999     

The mucilaginous layer of citrus roots — Its delineation in the rhizosphere and removal from roots

Summary The presence of a mucilaginous layer adhering to the epidermal cells of young citrus roots was noted. Washing the roots with 1N NH₄Cl for 1 minute removed this layer and the micro-organisms embedded in it. Chemical analysis of this extract yielded from 2–20% of the total specific root cations. It is thought that the mucilagenous layer and associated micro-organisms are a part of the rhizopshere and can act as a reservoir and supply of nutrients for the plant.     

Bambusicolous fungi in Japan (6): Katumotoa, a new genus of phaeosphaeriaceous ascomycetes

A new genus, Katumotoa, is established for a single species, K. bambusicola, collected from culms of Sasa kurilensis. Morphological differences between Katumotoa and some related genera are noted. Katumotoa is characterized by perithecioid ascomata, thin ascomal wall composed of small pseudoparenchymatous cells, cellular pseudoparaphyses, fissitunicate asci, and apiosporous fusiform ascospores with bipolar mucilaginous sheath. From these features, it is considered that the genus belongs to Phaeosphaeriaceae in Pleosporales.     

中国大陆天麻属(兰科)一新记录种——乌来天麻

该文报道了在广西七冲国家级自然保护区发现的中国大陆兰科(Orchidaceae)天麻属(Gastrodia R. Brown)一新记录种——乌来天麻(G. uraiensis T. C. Hsu & C. M. Kuo)。乌来天麻形态较近似于春天麻(G. fontinalis T. P. Lin),但乌来天麻的花序、花被筒较短,唇盘中部具4条纵向脊,脊向舌状先端延伸、合并成更高的2条,易与春天麻相区别。同时,还描述了新记录种的形态特征,提供了彩色图版,并讨论了此次新发现的生物地理学意义。     

朱唇种子吸水特性及其在干旱胁迫下萌发特性

种子粘液质是植物在长期适应环境过程中形成的,该物质对于种子的扩散、定居、生存力的改善、萌发、幼苗生存乃至抵御有毒化学物质毒害等都具有重要的生态学意义。朱唇为唇形科鼠尾草属多年生草本植物,原产美洲热带地区,现已广泛栽植于世界各地。为了理解朱唇种子表面的粘液物质吸水特性和种子在干旱胁迫下的萌发特性,该研究以朱唇种子为材料,运用光学显微镜和扫描电子显微镜观察以及种子萌发试验的方法,对种子和粘液层的形态结构、粘液质对种子萌发的影响进行了研究。结果表明:朱唇种子为卵形,表面为负网状结构,千粒重为(1.611±0.0084)g,无粘液种子吸水倍数为3,粘液种子吸水倍数为25,粘液层吸水倍数为122。粘液和无粘液种子及粘液层的重量都随吸水时间的延长而增长,但脱水过程要远长于吸水过程。朱唇种子吸水2 h达到饱和,经过36 h可干燥失水恢复原重。不同浓度PEG对朱唇种子的萌发均有影响,发芽势随PEG浓度升高而显著降低。朱唇种子在5%PEG胁迫下发芽率最高达(90.00±8.66)%,20%PEG胁迫下发芽率最低为(76.67±10.41)%,低浓度PEG对朱唇种子萌发有一定促进作用。这说明朱唇种子为速萌型种子,其粘液质在种子吸水过程中起到举足轻重的作用,能保证短时间内有充足的水分供其萌发。     

ULTRASTRUCTURE OF THE RED TIDE DINOFLAGELLATE GYMNODINIUM BREVE. I. GENERAL DESCRIPTION1,2,3

Gymnodimium breve Davis, an unarmored marine dinoflagellate has a cell covering (theca) composed of four membranes. The inner two membranes represent a vesicular layer and in tangential section, the theca appears composed of polygonal areas. Unusual threat ridges are located in the cingular region between the epi- and hypocone. This osmotically sensitive species is extremely vesiculate with dispersed areas of cytoplasm containing typical eukaryotic organelles as well as other organelles found only in dinoflagellates. The non-vesiculated cytoplasm is continuous in serial sections. The chloroplasts can contain either quasi-radial or parallel lamellae typically consisting of three thylakoids each. The pyrenoid is multiple-stalked and lacks a starch cap. The dinophycean pusule is simple and similar to those found in several unarmored marine species. The nucleus is typically dinophycean but the chromosomes appear to lack nonfibrillar material.     

Leaf anatomy ofDombeya andNesogordonia (Sterculiaceae), emphasizing epidermal and internal idioblasts

We studied leaf anatomy, using clearings, resin sections, and scanning electron microscopy, from mostly herbarium specimens of 123 species ofDombeya and 11 species ofNesogordonia (Sterculiaceae). Species were placed in seven idioblast categories, ranging from those without any to single and bicelled epidermal forms to multicelled nodules and single mesophyll idioblasts. Idioblast contents are possibly mucilaginous, but were not identified. In these two genera the range of foliar idioblast morphology surpasses that known previously for the entire family. Leaves are dorsiventral with mostly abaxial anomocytic stomata and typical palisade and spongy layers; paraveinal mesophyll is lacking. Miniature glandular (clavates, capitates) and nonglandular (mostly stellate) trichomes occur. Prismatic crystals predominate; epidermal prismatics and mesophyll druses are rare.     

蜈蚣草孢壁发育及其系统学意义

利用光镜、扫描电镜和透射电镜对凤尾蕨科(Pteridaceae)蜈蚣草(Pteris vittata L.)孢壁的形成和发育进行研究。结果表明:蜈蚣草孢子四面体型,极面观钝三角圆形,赤道面观半圆形或超半圆形,近极面具瘤状纹饰和近极脊,远极面具脊并连成网状,具赤道环;孢子具乌毛蕨型外壁,由外壁外层构成纹饰的轮廓;实心型周壁由2层构成,且内层薄、外层具小球体。结合孢子外壁和周壁的发育特征,认为凤尾蕨科与裸子蕨科和水蕨科的亲缘关系较近,支持将裸子蕨科和水蕨科置于凤尾蕨科。