Phylogeny of Agavaceae based on ITS rDNA sequence variation

Several systems of classification have been proposed for the family Agavaceae. A distinctive bimodal karyotype and similarities of fruits and seeds strongly support close relationships among Yucca, Hesperaloë, Beschorneria, Furcraea, Agave, Manfreda, Polianthes, Prochnyanthes, and perhaps Hosta. However, Dasylirion, Beaucamea, Nolina, Calibanus, Dracaena, and Sansevieria differ in so many cytological and morphological features that many have concluded they should be excluded from Agavaceae and separated into two families, Nolinaceae and Dracaenaceae. Chloroplast DNA restriction site data support these separations and indicate that Nolinaceae and Dracaenaceae are very close to Convallariaceae (Maianthemum, Convallaria, Aspidistra, Liriope, etc.). In this paper we report the results of an ITS rDNA sequencing study of 40 taxa in Agavaceae sensu lato and related groups in the order Asparagales. Sequence alignments were optimized using the Consistency Index, Retention Index, and Rescaled Consistency Index to find the alignment that exhibited the least amount of homoplasy. The results of our study are congruent with the conclusions drawn from cytological, immunological, cpDNA, and rbcL studies, which support a narrow interpretation of Agavaceae and a close relationship among Convallariaceae, Dracaenaceae, and Nolinaceae. In addition, the ITS sequence data provide evidence for some interesting relationships within these families.     

Leaf anatomy of the genus Psoralea sensu stricto (Psoraleeae, Papilionoideae, Leguminosae)

Leaf anatomy is described from 17 species of Psoralea sensu stricto which includes four species of the genus Hallia Thunberg. Species of the two genera share many characters including the presence of rod-shaped crystals, similar stipule structure and a possible continuum in secretory cavity anatomy ranging from a small and non-trabeculate to a large and trabci ulate form. Hallia species are distinguished b the presence of large tannin cells in the bundle sheaths and a narrow lcngllv.width ratio of palisade cells. In the light of other floral evidence this is considered insufficient to separate the two genera, a view confirmed by cluster analysis. Thus, Salter's proposal of 1939 for their amalgamation is supported. Leaf anatomy of herbaceous species is compared with that of seedlings of Psoralea sp. to assess the possibility that the herbaceous species may have arisen through neoteny from species that are trees or shrubs. Comparative venation studies between stipules and scale leaves suggest that the scale leaf form arose from pinnate-leaved ancestors by leaf reduction.     

Comparative leaf anatomy of the Penaeaceae and its ecological Implications

The leaf anatomy of species representing all seven genera of the Penaeaceae was studied by light and scanning electron microscopy. Due to variability and inconsistency, leaf anatomical characters are not regarded as particularly useful for systematics within or among genera in this family. Across the family, a number of taxa exhibit a trend towards amphistomatous, isobilateral leaves, generally associated with increased leaf thickness and amount of palisade mesophyll. This trend is not apparent in closely related families, e.g. Alzateaceae, Cryp-teroniaceae, Oliniaceae and Rhynchocalycaceae. Most species are found in comparatively mesic habitats and it is difficult to postulate primary xeromorphic trends in leaf anatomy. The sclerophylly encountered across the family as a whole is likely to be related to paucity of soil nutrients rather than a response to water stress.     

Anatomía comparativa de la lámina foliar y sistemática en la subtribu neotropical Mauritiinae (Arecaceae,Calamoideae)

This represents the first comparative study of the leaf anatomy within the subtribe Mauritiinae (Arecaceae) and includes all three genera and most of the recognized species. The leaf blade anatomy clearly defines these neotropical palms and allows the identification of two groups: Lepidocaryum can be separated by its homogeneous mesophyll, while the group formed by Mauritia y Mauritiella has the shared presence of a diferentiated mesophyll into palisade and spongy parenchyma. Our study supports the topologies of the most recent molecular phylogenies that include these three genera; however we did not identify characters that are sufficiently variable for species identification.     

CHROMOSOME NUMBERS AND SOME MORPHOLOGICAL ATTRIBUTES OF VARIOUS SOUTH AFRICAN GRASSES

de Wet , J. M. J. (Div. Botany, Pretoria, So. Africa.) Chromosome numbers and some morphological attributes of various South African Grasses. Amer. Jour. Bot. 47(1): 44—49. Illus. 1960.– Chromosome numbers are reported for 68 species and varieties of grasses belonging to 40 genera. These include first reports for the genera Megastachya, Lintonia, Plagiochloa, Ctenium, Oropetium and Beckeropsis. Cytological data were correlated with observations from leaf and embryo anatomy. A common ancestor is postulated for the tribes Oryzeae, Ehrharteae and Centotheceae. The genera Lasiochloa, Plagiochloa and Urochlaena appear to belong neither with the tribe Festuceae nor with the Eragrosteae but probably are closer related to the Danthonieae. Lintonia. Entoplocamia, Tetrachne and Fingerhuthia are characterized by the chloridoid-eragrostoid type of cytology and leaf anatomy but the bambusoid type of embryo anatomy. For these reasons they appear to represent relics of the original Eragostoid and Chloridoid stock. The South African representatives of the genus Crinipes differ from the tropical species in respect to leaf anatomy. The tropical species are typically of the arundinoid type, whereas the South African species appear to be related to the Danthonieae.     

Colleter types in Rubiaceae, especially in relation to the bacterial leaf nodule symbiosis

Vegetative buds were removed from herbarium specimens, and a small number of living plants, of 116 species of 111 genera of Rubiaceae and processed for light-microscopic examination of colleter form and anatomy. The results were combined with those of earlier studies. Most colleters in this family are of the 'standard type' described by others. Colleters are, however, lacking in eight genera. dendroid colleters occur in six genera. Two other genera have an intermediate type of colleter. Three genera have bacterial leaf nodules; dendroid colleters are not restricted to these genera, but their pattern of occurrence suggests a causal relationship between bacterial infection and evolution of dendroid colleters. Coupled with the geographic distribution of nodulared species within these genera, this pattern indicates that Pavetta became infected very early in its evolutionary history, Psychotria relatively later, and Neorosea most recently.     

Leaf anatomy and relationships of Dietes (Iridaceae)

The leaf anatomy of Dietes is described, including all 6 species. Characters support the morphological evidence that Dietes is a distinct genus and related to other Iridoideae. Certain features, notably the epidermal structure and sheath vasculature, distinguish it from other Iridaceous genera, although the sheath vasculature indicates a relationship with some New World Iridoideae. The leaf margin type is similar to that of other Old World Iridoideae. Many leaf anatomical characters in Dietes are associated with xeromorphy. Leaf anatomy supports the division of Dietes into 2 subgenera.     

元宝山冷杉群落学特点的研究

元宝山冷杉群落3000m^2样方统计到107种,隶属52科,81属。种类组成中,单种科、少种属占的比例相当大,含单种的科有27科,占51．9％。单种的属有63属,占77．8％;含两种的属为12属,占14．8％,两者共占92．6％。乔木层种类除了南方铁杉外,其它优势种类都为稳定型种群。乔木层的优势区系成分相当稳定,表明该群落为一种顶极群落。71个种子植物属只有11个分布区类型和8个变型,仅占所有变型的26．7％,地理成分不复杂,其中热带分布27属,占39．7％,温带分布38属,占55．9％。热带分布以泛热带和热带亚洲为主,温带分布与东亚、东亚和北美洲间断分布密切相关。乔木层16个优势种中,属中亚热带地理分布类型的有13种,占81．3％,其中重要值排列前4位的种类均为中亚热带类型,所以元宝山冷杉群落为亚热带性质。元宝山冷杉不同群丛元宝山冷杉种群结构的差异反映了群落的演替过程。107种组成种类中,常绿成分占62．6％,落叶成分占37．4％,其中矮高位芽植物最多,占20．6％,叶级以小型叶为主,占57．9％,叶型以单叶比例最大,占81．6％。各样地的物种多样性水平均较高,表明元宝山冷杉群落是一个处于稳定地位的顶极群落。     

金粟兰科的起源,演化及其分布

本文利用形态解剖,孢粉学及化石资料,讨论了金粟兰科的系统;并对其起源,演化和现代分布格局形成等问题做了合理推测,主要结果如下：（１）Ｓａｒｃａｎｄｒａ和Ｃｈｌｏｒａｎｔｈｕｓ的亲缘关系最接近,而Ａｓｃａｒｉｎａ和Ｈｅｄｙｏｓｍｕｍ的系统位置最靠近。Ｓａｒｃａｎｄｒａ是金粟兰科中最原始的属,而Ｈｅｄｙｏｓｍｕｍ则是最进化的属。（２）金粟兰科可能于白垩纪最早期起源于木质部无导管的,具简单两性虫媒花的祖     

Comparative Observation on Leaf Anatomy and Pollen of Vernicia Lour. and Aleurites J. R. et G. Forst.

The folial anatomy and pollen of one species of Aleurites and two species of Vernicia were studied. The former genus is characterized by the presence of echinolophate sculpture of pollen and a single outer stomatal ledge, curved cuticular ridges of peristomatal rim as well as large nodular ornamentation on the surface of epidermis beneath which there is no hypodermis. The latter one is characterized by the verruca-murate sculpture of pollen and the cuticular striate ornamentation on leaf surface of epidermis beneath which there is one layer of hypodermis, although they both have paracytic stomata and the Crotonic type of pollen. The genus Vernicia has not been accepted for a long time, but these micromorphological characters show as additional evidence that recent separation of the two genera by Airy Shaw (1966)^[6] is reasonable. Both genera possess very similar xeromorphic feature designated here as orbicular lustrous spot.     

Comparative study of leaf anatomy of Malaysian species of Chionanthus and Olea (Oleaceae) with special reference to foliar sclereids

The foliar anatomy of 15 Malaysian species of Chionanthus and 3 species of Olea is described and compared with particular reference to sclereids. The anatomy of the two genera is similar except that Chionanthus shows a wider range in sclereid form, eight kinds ofsclereid are recorded. Filiform sclereids are present in all Olea species and most Chionanthus species examined, additional kinds ofsclereid found in these Chionanthus species include astrosclereids, dendrosclereids, osteosclereids and polymorphic sclereids, with brachysclereids of several forms in the petiole. Quantity of sclereids is not related to coriaceousness, which is determined by leaf thickness. Anatomical characters do not support any major grouping of species within Chionanthus and provide further evidence that the sections, Eulinocitra and Ceranthus , are untenable. The distinction between the lepidote scales of Olea and the peltate hairs common to all oleaceous genera is discussed.     

Remarkable leaf anatomical variations in Neurachne and its allies (Poaceae) in relation to G3 and G4 photosynthesis

The leaf blade anatomy of all species of Neurachne, Paraneurachne and Thyridolepis has been examined, with special reference to features reliably indicative of photosynthetic pathway. Neurachne alopecuroidea, N. queenslandica and N. tenuifolia exhibit C₃ anatomy, as do all three Thyridolepis species. Paraneurachne muelleri, N. munroi and N. minor all have C₄ anatomy, of the rare ' Alloteropsis-type'. However, all the species exhibit unusual anatomical features, and N. lanigera cannot be confidently assigned as C₃ or C, on anatomical grounds alone. Taxonomic considerations confirm that the three genera are closely related to one another in the context of the eu-panicoid assemblage as a whole, and that the genus Neurachne itself, although it exhibits variation in photosynthetic pathway, is not amenable to further taxonomic subdivision.     

中国柽柳科植物叶解剖特征与分类关系的探讨

对分布于新疆的柽柳科植物叶的结构进行了比较观察,结果表明：水柏枝属叶为一般背腹叶,具湿中性特征;红砂属植物的叶横切面呈扁圆形,栅栏组织呈现状排列于表皮之下;柽柳属的叶与一般的背腹叶不同,栅栏组织位于远轴面,海绵组织位于近轴面。同时对叶的解剖结构与分类关系进行探讨,认为柽柳科植物的某些叶特征稳定且具类群特异性,在确定亲缘关系和分类方面具有重要意义。最后列出了柽柳科分属和柽柳属分种检索表。     

赤(瓜包)亚族植物叶片中脉的比较解剖

本文对赤(瓜包)属(Thladiantha Bunge)、白兼果属(Baijiana A.M.Lu et J.Q.Li)和苦瓜属(Momordica L.)共11种植物叶片中脉进行了比较解剖学研究。除苦瓜属一种外,其余10种的叶片中脉解剖学资料均为首次报道。分析结果表明:叶片中脉维管束的数目以及排列方式具有分类学意义,而种间和种内维管束数目的减少,在一定程度上反映出植物迁移和演化的方向。     

Leaf anatomy and systematics of Homeriinae (Iridaceae)

Leaf anatomy is described in a range of species of the Old World subtribe Homeriinae, including species from all of the eight genera: Barnardiella, Galaxia, Gynandriris, Hexaglottis, Homeria, Moraea, Rheome and Roggeveldia. Homeriinae have bifacial leaves, otherwise unusual among Iridaceae, and an apomorphy for this group. Leaf anatomy also shows some unusual features, notably an 'extra' row of (inverted) vascular bundles in some specieS. A cladistic analysis using a broad range of data demonstrates that Moraea, the largest genus of the subtribe, is paraphyletic. The smaller genera are consistently clustered within Moraea. Subgenus Moraea is heterogeneous and requires redefinition. Although there are insufficient existing data for satisfactory resolution of the relationships of Homeriinae, information from leaf anatomy provides some useful indicators.     

中国芸香科植物叶分泌囊比较解剖学研究

利用整体透明、石腊和薄切片方法对芸香科22属,40种和2变种植物叶分泌囊的形态结构和分 布进行了比较研究。成熟分泌囊都由鞘细胞和一层上皮细胞围绕圆形腔隙构成,上皮细胞扁平,细胞壁 薄、完整,故分泌囊属裂生方式发生。鞘细胞1～5层,不同种类的层数有变化,个别种缺乏。内层鞘细 胞为扁平的薄壁细胞,外层的细胞壁较厚。分泌囊的形态结构、着生位置和分布密度等在不同属或不同 种间存在一定差异。根据分泌囊在叶中的分布位置和形态结构特点,可将其划分为:叶缘齿缝分泌囊, 叶肉分泌囊和两者混合型。叶肉分泌囊又可分海绵组织分泌囊和栅栏组织分泌囊。在此基础上对该科各类型分泌囊的形态演化关系以及各亚科或各属间的亲缘关系进行了探讨。     

An anatomically preserved arborescent lycopsid, Sublepidodendron songziense (Sublepidodendraceae), from the Late Devonian of Hubei, China

Sublepidodendron is a common megafossil plant in the Late Devonian of China, but historically the generic delimitation based on leaf bases masked its true systematic position. A reinvestigation of S. songziense from the Late Devonian Hsiehchingssu Formation, Hubei, China, provides new insights into its internal anatomy and reproductive morphology. This arborescent lycopsid is characterized by small, vertically elongated leaf bases arranged in spirals, presence of false leaf scars, possibly bearing separate cones, and association with a stigmarian rhizomorph. The potential for organic connections of these detached organ genera has been noted for other Sublepidodendron species. The anatomy of S. songziense axes from two levels reveals that the thinner axis may bear an ectophloic siphonostele with a filamentous pith and an outer cortex. The thicker axis has a siphonostele with a branch gap, two-zoned pith with secondary thickenings, multiseriate rays across secondary xylem, a thick periderm, and primary and secondary tracheid walls characterized by "Williamson's striations." Similarities to synapomorphies of Diaphorodendraceae and Lepidodendraceae suggest that S. songziense bears a closer affinity to Lepidodendrales rather than Protolepidodendrales, as formerly thought. Widespread occurrence of Sublepidodendron implies that phylogenetically advanced arborescent lycopsids must have diverged by the Late Devonian.     

Root anatomy of palms III. Ceroxyloideae,Nypoideae, Phytelephantoideae

Summary The root-anatomy of representatives of nine genera of Ceroxyloideae of the eleven genera accepted by UHL & DRANSFIELD (1987), of Nypa, the onliest genus of Nypoideae, and of all three genera of Phytelephantoideae have been studied. In Coryphoideae and Calamoideae every genus can be distinguished by the anatomy of the roots, whereas within one genus the species do not differ but slightly. This is true for the newly examined genera too and contributes both to define and identify the genera and towards an improved understanding of the relationship between genera and subfamilies. The genera of Ceroxyloideae are obviously related, they form a natural group, and even the somewhat isolated Pseudophoenix is well at home here. Both Nypa and Phytelephantoideae do not exhibit any affinities with other palms studied up to now.     

Leaf anatomy of Bruniaceae: ecological, systematic and phylogenetic aspects

CARLQUIST, S., 1991. Leaf anatomy of Bruniaceae: ecological, systematic and phylogenetic aspects. Quantitative and qualitative data are given for 60 species of the 12 genera of Bruniaceae; most data are based on liquid-preserved material. Leaves of Bruniaceae are basically linear (broader forms are probably derived) with an apicula that contains phellogen activity. Most bruniaceous leaves have some degree of isolateral construction, with transition to normal bifacial construction in a few species, but more commonly transition to 'inverse' bifacial structure (stomata on adaxial face, palisade on abaxial face). The latter type is correlated with the tendency for leaves to be appressed to stems. Tannins and very likely other dark-staining materials are very characteristic of mesophyll cells. Six genera have a large strand of fibres on the midvein and rhomboidal crystals in bundle sheath cells. The other six genera have few or no fibres on veins and have druses in mesophyll cells (but not in bundle sheath cells). These distinctions may relate to intrafamilial taxonomy, but they also support the primitive position usually accorded to Audouinia, Thamnea and Tittmannia. A key to genera based on leaf antomy is offered. Details of epidermal cell shape, cuticular relief and trichome form and structure based on scanning electron microscopy are given. Leaf anatomy, combined with other features, favours a relationship between Bruniaceae and Grubbiaceae in particular and in broader contexts allies Bruniaceae to rosalean and possibly hamamelidalean families.