Karyotype studies in Grabowskia and Phrodus (Solanaceae)

Mitotic chromosome numbers and karyotypes of Grabowskia (G. boerhaviaefolia, G. duplicata, G. obtusa) and the monotypic genus Phrodus (P. microphyllus) were determined. Both genera were diploid with 2n = 24. The chromosome number of G. obtusa is reported here for the first time. Karyotypes of Grabowskia species were highly symmetrical with 11m + 1sm pairs. Phrodus microphyllus showed a different formula: 8m + 3sm + 1st pairs. Karyotypic features suggest that morphological differentiation in Grabowskia was not followed by chromosomal divergence, as previously found in Lycium as well. Although symmetrical karyotypes have been correlated with an ancestral condition of the taxa bearing them, in the tribe Lycieae the basal genus Phrodus showed the opposite trend.     

Pollen grain morphology of Nolana L. (Solanaceae: Nolanoideae: Nolaneae) and related genera of southern South American Solanaceae

Nolana comprises 89 species almost entirely restricted to the Atacama and Peruvian deserts. These species are adapted to the arid lomas environment of northern Chile and southern Peru, where they depend on marine fog locally known as garúa or camanchaca for their development. Recent molecular phylogenetic studies provide support for the placement of Nolana in the Solanaceae rather than Nolanaceae. Additionally, a sister relationship with the tribe Lycieae has been suggested. The pollen morphology of 111 species from 18 genera of southern South American Solanaceae was investigated under light and scanning electron microscopes in order to establish the palynological affinities of Nolana within the Solanaceae and to investigate if pollen morphology is congruent with the phylogenetic relationships and former taxonomic classification of the species of Nolana. The following genera were studied: Nolana, Cestrum, Combera, Dunalia, Fabiana, Jaborosa, Latua, Lycium (incl. Grabowskia, Phrodus), Nicandra, Nicotiana, Nierenbergia, Petunia, Physalis, Reyesia, Salpiglossis, Schizanthus, Solanum and Vestia. Two pollen types that differ in exine structure were distinguished within Nolana; these pollen types are congruent with recent phylogenetic studies, thus, we propose to reinstate Nolana sect. Sorema.     

Some further notes on the taxonomy and nomenclature ofCuscutaceae

The division ofCuscuta s.l. into 4 genera, based mainly on floral morphology, is corroborated by their embryology. Several new combinations inMonogynella andGrammica are proposed.     

Taxonomic studies ofAsarum sensu lato

The floral vascular anatomy of 12 species representing each ofAsarum s. str.,Asiasarum, Geotaenium, Heterotropa andHexastylis are compared to clarify intergeneric relationships. The five genera have basically similar structures in floral morphology and vasculature, and consistently have a six-carpelled compound ovary and the associated similar placental vasculature. They show, however, a significant difference in the position and the constituent of the “ventral” carpellary bundles in the placental axis betweenAsiasarum-Heterotropa-Hexastylis andAsarum-Geotaenium. InAsiasarum, Heterotropa andHexastylis the ventral bundles of each carpel are basically free and antilocular as expected in the least specialized compound ovary of angiosperms; in contrast, inAsarum andGeotaenium the ventral carpellary bundles are antiseptal and heterogenous (i.e., formed by the lateral fusion of ventral bundles of adjacent carpels). Shared probable apomorphic floral vasculature, as well as shared single style-column, suggests the closest mutual relationships betweenAsarum andGeotaenium. In terms of floral morphology and anatomy,Asiasarum, Heterotropa andHexastylis retain plesiomorphies. Possible chromosomal evolution in the related genera is also discussed.     

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.     

Accumulation and Speciation of Vanadium in Lycium Seedling

Lycium seedling was subjected to varying doses of V for 40–45 days to examine the effects on uptake, accumulation, and speciation of V in Lycium seedling by differential centrifugation and enzymolysis. V concentrations in Lycium seedling organs were in sequence as follows: root > leaf > stem. V uptake into stem and leaf were primarily combined with acid-soluble polar compounds, polysaccharide, and immobile materials on the cell walls. There were different speciations of V in root with different V stress levels. Enzymolysis results suggest that about 60 % of the V in Lycium seedling root was combined with pectin and cellulose. It is the antidotal effect of pectin and cellulose in the cell wall that reduced the V damage to Lycium seedling.     

Early floral development of Pentaphylacaceae (Ericales) and its systematic implications

Early floral development of four species from the genera Anneslea, Cleyera, Eurya, and Ternstroemia of Pentaphylacaceae, was studied comparatively using scanning electron microscopy. Together with earlier studies in Euryodendron and Adinandra, 6 out of 12 genera of Pentaphylacaceae have now been studied for their floral development. The usually pentamerous flowers of these taxa share a number of developmental features: the perianth organs appear in a clockwise or anticlockwise spiral sequence on the floral apex with relatively long plastochrons between successive organs, resulting in conspicuous size differences among perianth organs during early developmental stages. The early development of the usually polystemonous androecium is characterized by an indistinct ring-primordium and a mostly concave floral apex; individual stamens appear subsequently on this ring-primordium. However, further development of the androecium differs conspicuously among taxa and we describe three main developmental patterns for the family including features such as centripetal stamen whorls and stamens fascicles. Unusual features of floral development and organization of Pentaphylacaceae include: (1) a pronounced spiral sequence of organ appearance during early floral development in perianth and androecium; (2) the occurrence of paired organs in the corolla and the androecium of some species; (3) sepals and petals that are positioned opposite from each other in the genera Anneslea and Ternstroemia; and (4) a concave floral apex at the beginning of androecium development. From a systematic point of view our results clearly support a close relationship between Anneslea and Ternstroemia and also suggest a closer relationship among Adinandra, Cleyera, and Euryodendron on the one hand and between Eurya and Visnea on the other. Further, our developmental study stresses the differences between Pentaphylacaceae and Theaceae, which earlier where thought to form a natural group of plants. While high stamen numbers are achieved via centripetal pattern of stamen formation in the former family, stamens are formed centrifugally in the latter.     

Seasonality of floral resources in relation to bee activity in agroecosystems

The contribution of wild insects to crop pollination is becoming increasingly important as global demand for crops dependent on animal pollination increases. If wild insect populations are to persist in agricultural landscapes, there must be sufficient resources over time and space. The temporal, within‐season component of floral resource availability has rarely been investigated, despite growing recognition of its likely importance for pollinator populations. Here, we examined the visitation rates of common bee genera and the spatiotemporal availability of floral resources in agroecosystems over one season to determine whether local wild bee activity was limited by landscape floral resource abundance, and if so, whether it was limited by the present or past abundance of landscape floral resources. Visitation rates and landscape floral resources were measured in 27 agricultural sites in Ontario and Québec, Canada, across four time periods and three spatial scales. Floral resources were determined based on species‐specific floral volume measurements, which we found to be highly correlated with published measurements of nectar sugar mass and pollen volume. Total floral volume at varying spatial scales predicted visits for commonly observed bee genera. We found Lasioglossum and Halictus visits were highest in landscapes that provided either a stable or increasing amount of floral resources over the season. Andrena visits were highest in landscapes with high floral resources at the start of the season, and Bombus visits appeared to be positively related to greater cumulative seasonal abundance of floral resources. These findings together suggest the importance of early‐season floral resources to bees. Megachile visits were negatively associated with the present abundance of floral resources, perhaps reflecting pollinator movement or dilution. Our research provides insight into how seasonal fluctuations in floral resources affect bee activity and how life history traits of bee genera influence their responses to food availability within agroecosystems.     

Relationships of the purple-fringed orchids Platanthera Psycodes and P. grandiflora

The vegetative and floral differences between two frequently confused species are discussed in terms of function.Platanthera psycodes is a widespread species with flowers adapted to visits by short-tongued lepidoptera, especially skippers of the genusPolites; the pollinaria are attached to the base of the proboscis.Platanthera grandiflora is a geographically more limited species with flowers adapted to visits by longer-tongued lepidoptera; the pollinaria are probably attached to compound eyes. The species overlap geographically and phenologically. Chromosome numbers are 2n = 42 in each species. Cultivated plants of each are partially self-incompatible but produce apparently normal embryos when intercrossed. Mechanical, seasonal, ethological, and distributional differences isolate the species.Habenaria andPlatanthera are considered distinct but closely related genera.Platanthera psycodes is based upon a type at L,P. grandiflora on a type at AMES.Platanthera grandiflora andP. psycodes have affinities with three other eastern North American species characterized by tripartite, fringed, or erose labella. Species pairs within this group, based on column structure, includegrandifloraperamoena andpsycodeslacera. The column ofP. leucophaea is morphologically intermediate in form.     

Floral scent chemistry and pollination ecology in phytelephantoid palms (Arecaceae)

The subfamilyPhytelephantoideae comprises three genera (Ammandra, Aphandra, andPhytelephas) and seven species of dioecious palms. The floral scents ofAmmandra dasyneura, A. decasperma, Aphandra natalia, Phytelephas aequatorialis, P. macrocarpa, andP. seemannii were analyzed by gas chromatography-mass spectrometry. We studied the pollination biology ofA. natalia, P. aequatorialis, andP. macrocarpa, and tested how the synthetically produced main constituents of the floral scents ofAphandra andPhytelephas attracted insects in two natural populations ofPhytelephas. The genera are distinct in terms of floral scents.Ammandra has sesquiterpenes,Aphandra (+)-2-methoxy-3-sec-butylpyrazine, andPhytelephas p-methyl anisol. These constituents dominated the scents quantitatively and qualitatively. The similarity between scents of male and female inflorescences was 76.5% inAmmandra, 84.2% inAphandra, and >99% inPhytelephas. Different species ofAleocharinae (Staphylinidae) pollinateAphandra natalia andPhytelephas species and reproduce in their male inflorescences.Derelomini (Curculinoidae) andMystrops (Nitidulidae) only visit and pollinatePhytelephas in which male inflorescences they reproduce. A species ofBaridinae (Curculionidae) only visits and pollinatesAphandra natalia, and reproduces in its female inflorescence. The apparent reliance on one or a few floral scent constituents as attractants and few and specific pollinators may indicate co-evolution. Sympatric species ofPhytelephantoideae have different scents. We suggest that species with similar scents have allopatric distributions due to the absence of a pollinator isolation mechanism.     

OnEndomyces,Endomycopsis and related yeast-like fungi

Strains in the culture collection of the Centraalbureau voor Schimmelcultures under the generic namesEndomyces andEndomycopsis were compared with related genera of filamentous and yeast-like fungi. The genusEndomyces is accepted for ascigerous states ofGeotrichum; 6 species are keyed out and discussed. The genus nameEndomycopsis is rejected as it is an obligate synonym ofSaccharomycopsis. ForEndomyces javanensis, Endomycopsis platypodis andSaccharomycopsis synnaedendra the new generaArthroascus, Hormoascus andBotryoascus are proposed; the genusGuilliermondella is reintroduced. Briefly discussed are the generaSchizosaccharomyces, Eremascus, Dipodascus, Ascoidea, Cephaloascus, Ambrosiozyma andCrebrothecium. A key is given for the genera of yeast-like “ascomycetes” with septate hyphae. Some species described asGeotrichum are transferred to other genera.     

Cytotaxonomic study of ferns of Yunnan,southwestern China

A cytotaxonomic study was made of 90 fern species of Yunnan, southwestern China, based on collections from northwestern, central, and southwestern Yunnan and a few Cheng's collections. The results verified most of the formerly reported basic chromosome numbers of Chinese genera, and recorded for the first time the basic numbers ofGymnogrammitis andSorolepidium and Chinese members of several other genera. Cytotaxonomy of some problematical genera was discussed. Biogeographical relationships between Japanese, Chinese, and Himalayan ferns were compared with special reference to local cyto-reproductive variations inConiogramme, Deparia, Onychium, andPteris cretica. The present evidence indicates that most triploid species examined are agamosporous, as general in filicalean ferns, and also suggests the sexual 32-spored sporogenesis inHypodematium crenatum andSorolepidium graciale as in Lindsaeaceae.     

Studies in the morphology and systematics of berberidaceae

The floral vasculature in three allied genera,Plagiorhegma, Jeffersoria andAchyls is investigated, and the results are compared with those ofEpimedium andVancouveria which are related closely toPlagiorhegma andJeffersonia. The vasculature in the receptacle ofPlagiorhegma andJeffersonia is similar, but that ofAchlys is much simpler. Slightly different trace patterns are observed in the sepals ofPlagiorhegma andJeffersonia. InJeffersonia, the 3-trace condition leaving 2 or 3 gaps is most frequently observed, but inPlagiorhegma traces of a double nature leaving a single gap are more frequent. The traces to the innermost sepals, petals and stamens are usually of a double nature leaving a single gap in both genera. Regular division and fusion are not observed in the receptacular stele. The vascular differentiation between sepals and petals is more advanced inPlagiorhegma andJeffersonia than inEpimedium andVancouveria. InAchlys, the traces are all staminal and single throughout their course. Two parts recognized in the pistils ofPlagiorhegma, Jeffersonia andAchlys are traversed by independent vasculature. The comparisons of pistil morphology including vasculature ofPlagiorhegma, Jeffersonia, Achlys, Epimedium andVancouveria lead to the interpretation that the pistils are based on the same morphological plan. The probable evolutionary trend in pistil is then suggested in these five genera.     

Karyomorphology and relationships of Celtidaceae and Ulmaceae (Urticales)

Based on karyomorphological features, six (examined in this study) of nine genera of Celtidaceae are divided into three groups: 1)Celtis, Parasponia, Pteroceltis andTrema; 2)Aphananthe; 3)Gironniera, and six genera of Ulmaceae into two: 1)Holoptelea andPhyllostylon; 2)Hemiptelea, Planera, Ulmus andZelkova. The first four genera share the simple chromocenter type at the resting stage andx-10, with all chromosomes with submedian or median centromeres (frequency of chromosomes with subterminal or terminal centromeres 0%, although uncertain inTrema).Aphananthe hasx=13, but resembles the above four genera in other features.Gironniera is distinct from all other Celtidaceae in having the diffuse-complex chromocenter type andx=14, features which occur in Ulmaceae. InGironniera the frequency of chromosomes with subterminal or terminal centromeres is 43%, a proportion similar to those inHoloptelea (36%) andPhyllostylon (58%) of Ulmaceae. All six genera of Ulmaceae havex=14, yetHemiptelea, Planera, Ulmus andZelkova are distinct fromHoloptelea andPhyllostylon (with the simple chromocenter type) in having the diffuse-complex chromocenter type and in predominantly possessing chromosomes with subterminal or terminal centromeres (93%). Evidence from karyomorphology, as well as from other sources, suggests 1) thatAphananthe (x=13) is most distantly related to all genera withx=10 within Celtidaceae, 2) thatGironniera may have a key role for understanding evolutionary relationships between Celtidaceae and Ulmaceae, and 3) thatHoloptelea andPhyllostylon represent derivatives of a line that diverged early from a common ancestor or all Ulmaceae. On the basis of comparisons with other Urticales and the putative outgroups of the order, it is also suggested that the chromosome morphology of Ulmaceae represents the more derived state in Urticales.     

Systematic Placement of Dasypogonaceae Among Commelinid Monocots: Evidence from Flowers and Fruits

Despite progress in clarifying the relationships of Dasypogonaceae (four genera, Baxteria, Calectasia, Dasypogon, and Kingia), their infrafamilial relationships and precise affinities within the commelinid clade remain unsatisfactorily resolved. This paper reviews existing data on the systematic affinities of Dasypogonaceae. It also presents new data on floral structure in all four genera, and data on floral ontogeny in Dasypogon. In Dasypogon, Kingia, and Baxteria the ovary is trilocular and septal nectaries are present around the ovary base. In Calectasia, the ovary is unilocular and septal nectaries are entirely absent. Two subfamilial groupings within Dasypogonaceae (Calectasia–Dasypogon and Baxteria–Kingia) are proposed on the basis of leaf anatomy and ovule and ovary morphology. Many floral characters are plesiomorphic in Dasypogonaceae, but some morphological characters support a close relationship with the order Poales sensu lato, especially the epidermal location of the silica bodies. The unusual long-stalked “drumstick” inflorescences of Dasypogon and Kingia resemble those of some Poales, in which flowers are frequently borne on condensed inflorescences. A possible close relationship between Dasypogonaceae and some Poales such as Rapateaceae and Thurniaceae merits further exploration.     

The role of inner staminodes in the floral display of some relicMagnoliales

The inner staminodes (between stamens and carpels) in some relicMagnoliales (Austrobaileyaceae, Degeneriaceae, Eupomatiaceae, andHimantandraceae) are not just reduced stamens; they are very elaborate organs. InEupomatiaceae, Himantandraceae, and probablyDegeneriaceae they have their own secretory structures which do not occur on the stamens. These play an important role in floral biology. They contribute to the floral coloration pattern; they effect herkogamy by their position and by movements; they provide shelter and food tissue and food secretions (?) for pollinating beetles; they secrete odouriferous oils, mucilage (probably for pollen adherence) and water or nectar (?). For theHimantandraceae a new secretory region on the base of the inner staminode is described. These complicated inner staminodes are extreme specializations of primitive floral types. They have no counterparts in more advanced subclasses of the angiosperms.     

New Malaxis species (Orchidaceae, Epidendroideae) from Colombia

Two new species of the genus Malaxis are described and illustrated based on the Colombian material. Their taxonomic affinities are briefly discussed and the relevant floral elements of the most similar species are illustrated. The differences between genera Malaxis and Micorstylis are compared.     

Systematic implications of flavonoid pigments in the fern genus hemionitis (adiantiaceae)

The closely related fern generaHemionitis L. andGymnopteris Bernhardi are separated primarily on differences in leaf architecture and venation. Studies indicate that these characters are highly variable and unreliably diagnostic. Further, the type species of the two genera readily hybridize with each other. Spore morphology, as exhibited by SEM, does not support the traditional alignment of the species in these two genera: some species ofHemionitis andGymnopteris have the same rugose to papillate spores, while other species from both genera possess crested spores. The flavonoid chemistry of these taxa coincides with spore type, i.e., taxa from both genera which possess crested spores produce kaempferol and quercetin 3-0-glycosides, while species with tuberculate spores produce only quercetin 3,4′-0-glycosides. The spore and chemical data suggest a realignment of these taxa within a single genus, which would avoid the rather tenuous dependence on a single vegetative character for generic distinctions.