Inflorescence structure in species of Spartina Schreb. (Poaceae: Chloridoideae: Cynodonteae)

The typology developed by Troll was followed to describe inflorescence structures for 15 species of Spartina. In all species here studied, truncation of the terminal spikelet of the main axis and primary paracladium was observed. The truncation can also involve the short paracladia subzone so that the inflorescence is confined to just the long paracladia subzone. A great homogenization of paracladia and maximum ramification degree limited generally to the second order of branching are distinctive characteristics of the genus. Proximal paracladia with third-order branching were found in only three specimens, and in these exceptional cases, the homogenization is partial. Sometimes, in some species, a subzone of long and short paracladia can be distinguished. The absence of trophotagma paracladia in all the species studied was verified. The variation in the structure of the inflorescence among species is due to the differences in the number of short paracladia, long paracladia, total number of primary paracladia and also in the angle of divergence of the long paracladia from the main axis. The latter, in addition to variations in the intercalary growth of the internodes produces modifications in the general appearance of the inflorescences. The systematic and taxonomic value of the inflorescences in Spartina is discussed.     

The inflorescences structure of Cyperus L. section Luzuloidei Kunth (Cyperaceae)

In the present work the inflorescences of 12 species of Cyperus sect. Luzuloidei Kunth sensu Kükenthal were analyzed using the methodology and terminology of Troll's school. All the inflorescences studied are polytelic (indeterminate). The inflorescences are anthela-like or capitate, and can be terminal or pseudolateral. Below the main florescence a paracladial zone is present. In this zone three types of branching were observed, i.e. normal, accessory-axillar and prophyllar branching, whose position vary among the different species. In the paracladial zone a subzone of long paracladia and a subzone of short paracladia were observed. In the short paracladial subzone the spikelets are clustered in fascicles, which can be serial, prophyllar or mixed. Variation in length and position of pherophylls, length of prophyll, number and degree of branching were noticed. The systematic value of the inflorescences in the section Luzuloidei is discussed.     

Ligularia dalaolingensis sp. nov. (Asteraceae–Senecioneae) from central China

Ligularia dalaolingensis, a new species from Hubei and Hunan, China, is described and illustrated. It belongs to L. sect. Ligularia ser. Speciosae on the basis of its palmate leaf venation, racemose synflorescence and pappus which is slightly shorter than the tube of the tubular corolla. In the series, its closest relatives are assumed to be L. fischeri and L. stenocephala. From L. fischeri, L. dalaolingensis is readily distinguished by smaller basal leaves, shorter synflorescence, narrower involucres and fewer phyllaries and florets; from L. stenocephala, L. dalaolingensis differs by smaller basal leaves, shorter synflorescence as well as broader bracts. A diagnostic key to Chinese species of L. ser. Speciosae with broadly ovate, ovate or ovate‐lanceolate bracts is provided.     

New species of Hypolytrum Rich. (Cyperaceae) from the Neotropics

Five new species ofHypolytrum Rich. from South America are described and illustrated.Hypolytrum amorimii andH. jardimii, both of sect.Bullata T. Koyama, are species with pseudopetioles and colored leaves, and endemic to the rain forest of southeastern Brazil.Hypolytrum bahiense (sect.Hypolytrum), a species with a lax synflorescence and two, free and lightly scabridulous floral bracts, is endemic to the rain forest of southeastern Bahia, Brazil.Hypolytrum leptocalamum (sect.Hypolytrum), a species with lax synflorescence and spike ellipsoid to cylindrical, is restricted to area of tepuis in the Guayana Highland (Brazil, Guyana, and Venezuela).Hypolytrum paraense (sect.Hypolytrum), a species with three, partly connate and densely scabridulous floral bracts, is restricted to the rain forest of the Amazon Basin, in the state of Pará, Brazil.     

Saussurea xinjiangensis sp. nov. (Asteraceae,Cardueae), a new species from Xinjiang,China

Saussurea xinjiangensis Y. S. Chen, a new species from Xinjiang, China, is described and illustrated. It was first found during a field expedition by the author in 2014. It belongs to S. subgen. Saussurea sect. Laguranthera because its root and caudex split fibrously and it has numerous capitula in a corymbiform synflorescence. The new species is similar to S. mucronulata in its habit, strongly fibrous rootstock and caudex, sessile linear leaves and capitula shortly pedunculated in a corymbiform synflorescence. However, it differs from S. mucronulata by its usually branched stems (versus usually simple or apically few-branched), lower leaf blade 8–12 cm long and 0.5–1.8 cm wide (versus 3–5 cm long and 0.2–0.5 cm wide), leaves abaxially sparsely arachnoid tomentose (versus densely arachnoid tomentose), phyllary white arachnoid tomentose and green to brown (versus glabrous and blackish purple).     

Structure of the Cyperaceae Inflorescence

This work presents the basics for interpreting the adult inflorescence structure in Cyperaceae. It provides an analysis of the variations of the synflorescence and inflorescence structure in the family. Three types of synflorescence may be recognized in this family: a synflorescence with a foliate stem, a terminal inflorescence and a variable number of lateral inflorescences; a synflorescence with a foliate stem and only the terminal inflorescence; and a synflorescence with a scape and a terminal inflorescence. Variations in the structure and form of the inflorescences are related to variations in inflorescence branching, inflorescence homogenization degree, presence or absence of the distal part of the inflorescence, phyllotaxis, inflorescence position, types of bracts and leaves subtending branches, elongation of inflorescence internodes and spikelet structure. These variations are correlated with some of the developmental processes that give origin to the inflorescence.     

Architectural and physiological heterogeneity within the synflorescence of the pseudoviviparous grass Poa alpina var. vivipara L

Many biotypes of the northern-hemisphere Arctic-Alpine grass Poa alpina L. reproduce asexually via prolification of the spikelet axis to produce dehiscing shoots. Although capable of photosynthesis, the source-sink characteristics of these synflorescence systems are unknown, including the degree to which plantlets from different regions of the synflorescence are capable of providing for their own carbon requirements, or contributing to other sinks. Photosynthetic rates within the paracladial zone, as determined by infrared gas analysis (IRGA), exceeded respiratory rates by 3-4-fold. (14)CO(2) tracer studies determined that the paracladial zone was not only as efficient at fixing carbon as the youngest fully expanded leaf (per unit dry weight), but that both organs exported carbon mainly basipetally (cf. extensive acropetal export from this leaf in seminiferous grasses). Distal plantlets of the paracladial zone fixed approximately 20% more (14)CO(2) than did proximal plantlets. This was by virtue of their greater dry weight. At dehiscence, 'distal' plantlets were more likely to become established, and possessed relative growth rates more than 10 times those of 'proximal' plantlets. Paracladial heterogeneity was also apparent as an increased proportion of aborted spikelets on proximal paracladia. The possible causes of this heterogeneity are discussed.     

Ammonites of Tethyan origin from the Ryazanian of the Russian platform: Genus <Emphasis Type="Italic">Subalpinites</Emphasis> Mazenot

The ammonite genus Subalpinites is known from the Berriasian of southern and central Europe, North Africa, Mangyshlak, and Ryazanian Stage of Central Russia. New species are described: S. gruendeli sp. nov., S. faurieformis sp. nov., S. remaneiformis sp. nov. These species and also S. krischtafowitschi Mitta characterize the lower subzone of the Riasanites rjasanensis Zone in the Moscow Region. The upper subzone of this zone in the Ryazan Region contained members of Subalpinites identified in open nomenclature.     

Senecio josei and S. superparamensis spp. nov. (Asteraceae: Senecioneae) from the Andes of Ecuador

Research on the phylogeny of a distinct group of Andean Senecio, previously considered as Lasiocephalus, resulted in the discovery of two new species, which are here described and illustrated. Senecio josei Sklená?, which grows in rocky habitats in grass páramo in southern Ecuador, is characterized by linear leaves and a racemose or paniculate synflorescence. Senecio superparamensis Sklená? is characterized by grayish–white pubescence, solitary capitula and leafy stems, and inhabits superpáramos in northern and central Ecuador.     

On the inflorescence structure ofAsclepiadaceae

Inflorescence structure in the familyAsclepiadaceae, particularly in the subfamilyAsclepiadoideae, is elucidated using the methodology and terminology of the school ofW. Troll. Asclepiadaceae inflorescences are principally thyrsoid systems, with variability resulting from different degrees of reduction of dichasial paracladia to bostryces, sciadioids, and, finally, to single flowers.     

The Flowering Unit in the Synflorescences of Amaranthaceae

The structure of the synflorescence and the flowering units in Amaranthaceae are characterized. The synflorescence is polytelic. In the flowering unit we recognize the main florescence and the enrichment zone. The florescences may consist of: (1) Fully developed partial florescences bearing three or more flowers; (2) Partial florescences reduced to one or a few fertile flowers having prophylls with more or less modified axillary productions; or (3) No partial florescences but solitary flowers having prophylls with no axillary productions. We described the flowering unit in species with florescences bearing a solitary flower and the flowering unit in species with florescences bearing partial florescences. Hypothesized developmental processes are described, with a view to finding relationships among different models characterized in the family as well as defining characters for cladistic studies, which may be useful to depict all the variations observed.     

气候变化下中国主要生物燃油树种分布与变迁

生物燃油树种是发展生物质能源,实现化石能源替代战略的重要物质基础,明确当前和未来气候变化下我国生物燃油树种适生区分布,对保护和利用生物燃油树种,促进林业生物能源产业发展,保障能源安全和实现“双碳”目标具有重要意义。基于我国10个主要生物燃油树种的1037条树种分布数据和20个环境变量,利用最大熵模型(MaxEnt)预测了各树种当前和未来气候情景下(2050年和2070年的RCP4.5情景)的潜在适生区,得到了影响各树种分布贡献率最大的环境因子,并对我国各区域主要种植树种进行了区划。结果表明：(1)MaxEent模型预测效果较好,各树种模拟结果AUC值均在0.9以上。(2)影响各种分布的贡献率较高的环境因子因树种而异,最暖季度降水量和温度季节性变化标准差的相对贡献率较高。(3)10个生物燃油树种极高适生区面积范围在43.38万km²—117.74万km²之间,可根据模拟结果将树种分布划分为北部、中东部、东南部和西南部4个亚区,北部亚区主要树种为文冠果(Xanthoceras sorbifolium)和欧李(Cerasus humilis),中东...     

Probleme der Infloreszenztypologie vonW. Troll

In contrast toW. Troll's typology of inflorescences which aims at more or less rigid, well defined types, this investigation accentuates the processes that constitute the evolutionary transformations leading from one typical form to another.Troll divided the inflorescences into the two types of monotelic and polytelic synflorescences, the first with a terminal flower on the main axis, the latter with a homogeneous florescence on the indeterminate axis. Both forms are enriched by proximal branches which repeat the structure of the main axis (paracladia). The evolutionary processes leading from the more primitive monotelic type to the advanced polytelic type are truncation (loss of the terminal flower) and homogenization of the distal branches, which thus form a homogeneous florescence. A closer survey of the polytelic groups reveals the fact that, usingTroll's criteria, the same distinction can be found within these groups themselves. Loss of the terminal florescence (truncation of 2nd and higher degree) as well as homogenization of the distal paracladia may lead to florescence-like units of higher complexity. Examples can be found inAsteraceae (Figs. 1 and 2),Fabaceae (Fig. 3 a),Mimosaceae (Fig. 3 b),Acanthaceae, and also in Monocots, as exemplified by theMarantaceae (Figs. 4 and 5). The so-called racemization (inversion of efflorescences from basipetalous to acropetalous) may be mentioned as a third element of transformation, emphasizing the unity of the florescences.—In consequence, there are more organizational levels than reflected in the twoTroll types. The polytelic type comprises several degrees of truncation and homogenization, the basis for a reasonable organizational analysis should therefore be the degree of ramification of flowering branches rather than the mere question of a terminal flower on the main shoot axis (Fig. 6). On the other hand the three processes of truncation, homogenization and racemization are evolutionary transformations that may occur independently from one another, thus giving rise to a large number of variations, which can not be satisfactorily interpreted by exactly defined types. On the basis of these considerations the question of homologous parts in inflorescences is reviewed. The homology of partial florescences and paracladia is accentuated contrary toTroll's interpretation (Fig. 7). Homogenization as an evolutionary trend may transform paracladia of different degree of ramification, leading to one-flowered units on the one side and to highly complex structures as in theMarantaceae on the other.

     

Ammonites of Tethyan origin in the Ryazanian stage of the Russian platform: Genus <Emphasis Type="Italic">Riasanella</Emphasis> gen. nov.

A new ammonite genus Riasanella is described from the Ryazanian Stage of the Russian Platform (type species R. rausingi sp. nov.). The new species R. plana sp. nov., R. olorizi sp. nov., and R. riasanitoides sp. nov. are described. These species come from the lower, strongly condensed beds of the Riasanites rjasanensis Zone of the Moscow Region. The upper subzone of this zone in the Ryazan Region contains specimens of Riasanella, identified in open nomenclature. The new genus is assigned to the family Himalayitidae; one of its species is a possible ancestor of Riasanites Spath.     

Species diversity and biocenotic relationships of gamasid mites (Parasitiformes,Gamasoidea) in the nests of the field vole <Emphasis Type="Italic">Microtus agrestis</Emphasis> L. of the Karelian middle taiga subzone

The species diversity and habitat relations of gamasid mites from nests of the field vole (Microtus agrestis L.) were studied in the middle taiga subzone of the Republic of Karelia. The fauna of gamasid mites on the field vole, in its nests, and in the forest litter is very diverse, comprising 49 species with a complex taxonomic structure (22 genera, 12 families) and a variety of life strategies (necrophages, zoophages, and hematophages). The fauna of gamasid mites is most diverse in the nests of M. agrestis and includes both primitive free-living forms and specialized obligatory (epizoic) parasites. The group with the highest diversity of mite species is that from the nest of M. agrestis, with the diversity index amounting to 2.65 (30 species, 18 genera, 11 families).     

Morphological studies in the tribe Colletieae (Rhamnaceae): analysis of architecture and inflorescences.

A morphological study of vegetative and reproductive structures was carried out on the tribe Colletieae (Rhamnaceae) composed of six genera and 20 species. The plant habit variation, from trees (up to 8 m high) to prostrate shrubs and tangled bushes, suggests structural differences within the group. All the species have an architecture represented by a sequence of monopodial shoots with limited growth, linked sympodially and with acrotonic dichasial ramification. Foliage leaves are decussate and an axillary complex with two serial meristems is associated with each leaf axil. Ancillary shoots (thorn-tipped branches, short shoots, secondary branches and reproductive shoots) are present at the nodes. A single structural plan was observed throughout the tribe. Most of the variability may be ascribed to different strategies for adaptation to environmental conditions, specially xeromorphy. Reproductive structures, in terms of inflorescences, also show conspicuous variation throughout the tribe. Three different models are described; in the first two models individual flowers or 3–7 flowered cymes constitute the paracladia of either deciduous monotelic synflorescences, or of synflorescences proliferating into vegetative long shoots; in the third, uniflorous paracladia arise from perennial short-shoots. Nevertheless, a link within them can be established through steps of truncation, proliferation, reduction and acquisition of rhythmic growth.     

Carpology of the species of Ferula subgen. Merwia (Umbelliferae–Apioideae) and some taxonomic implications

The genus Ferula L., with 180–185 species, is one of the largest genera of the Umbelliferae (Apiaceae). It is distributed in the ancient Mediterranean florogenetic area extending from Macaronesia, northeast Africa and the Iberian Peninsula to middle Asia, China and western Himalaya. One hundred and seventy‐five species occur in Asia; the biodiversity centers being in central Asia, Iran and Afghanistan. The presently adopted classification of Ferula by E. P. Korovin is based on leaf, synflorescence, flower and fruit morphology, as well as some ecological considerations. Among fruit anatomical characters only the number of vittae (secretory ducts) was used to divide Ferula into six subgenera, one of which is Merwia. Fruit anatomy and morphology will be useful for a taxonomic revision of Ferula. In the present study, free‐hand and microtome sections of mericarps were studied with light microscopy, and fruit surfaces with SEM. Twenty‐two species, attributed to the subgenus Merwia as well as Ferula ghorana, were studied for the first time. The species differ from one another in the presence/absence of an indumentum, hair morphology and surface structure, position and number of vittae and vascular bundles, degree of development of marginal ribs, the presence or absence in the mesocarp of an outer collenchymatous layer and an inner mechanical layer. The studied species were divided into six carpological groups. The results suggest that the subgenus is not a natural monophyletic taxon. It is suggested that the name Merwia should be reserved for a small section which includes Ferula litwinowiana and the closest desert species, while other species of Merwia may be classified in several oligotypic sections. Ferula decurrens and F. mogoltavica have erroneously been regarded as having an affinity with F. litwinowiana.