地黄属(Rehmannia)和崖白菜属(Triaenophora)植物的叶表皮形态特征

利用扫描电子显微镜对车前科(P lantaginaceae)地黄属(Rehmannia)和崖白菜属(Triaenophora)8种植物成熟叶片的背面进行了观察。地黄属和崖白菜属的气孔都突出于叶表面,气孔类型均为无规则型;毛被有2种类型,即单列多细胞疏柔毛+单列多细胞腺毛和单列多细胞棉毛+单列多细胞腺毛。气孔和毛被在种间无明显的差异,不能作为分种依据,但毛被在属间具有明显的差异,具有一定的属间分类意义。     

中国蒿属植物比较形态和解剖学研究——(Ⅰ)叶表皮结构

本文通过光学显微镜和扫描电镜,观察国产菊科蒿属2亚属7组30种代表植物成熟叶片的表皮细胞、气孔器、表皮毛的特征和气孔形状、气孔外拱盖及拱盖内缘、角质膜和蜡质纹饰。其中表皮细胞多角(边)形,大小不等,垂周壁平直、弓形,或者表皮细胞形状不规则,大小不等,垂周壁波浪状或波纹状。下表皮均有气孔器,上表皮有或无气孔器,气孔器类型有无规则型。无规则四细胞型、不等细胞型、十字型、横列型和平列型。大多数种类具多细胞单列毛。多细胞双列毛和腺毛仅发现在腺毛蒿组。这些微形态特征在组间存在着某些差异,具有一定的分类学和生态学意义。     

华北地区繁缕属（Stellaria L.）植物叶表皮微形态特征研究

采用光学显微镜,对华北地区分布的繁缕属植物16种2变种,其它4属4种植物的叶表皮微形态进行了观察。结果表明：繁缕属植物叶片的下表皮均存在气孔器,而上表皮仅少数种类缺乏气孔器。气孔器类型比较多样,有不等细胞型、无规则型、无规则四细胞型;表皮细胞主要为不规则型,垂周壁从平直、弓形、浅波状、波状、到深波状;上表皮气孔指数在5.23~31.65之间;下表皮气孔指数在10.02~29.44。叶表皮被毛或无,毛被分为星状毛、腺柔毛、柔毛、绢毛。该研究说明叶表皮的微形态特征在种间差异明显,可以为分种及属间亲缘关系的探讨提供依据,但是对组的划分存在一定的局限性。     

栎属青冈亚属（壳斗科）的叶表皮研究

利用光镜和扫描电镜观察了栎属青冈亚属Quercus subgen. Cyclobalanopsis 48种植物的叶表皮,尤以对叶下表皮的毛被特征观察较为仔细。共观察到8种不同类型的叶表皮毛：单列毛、单毛、乳突、星状毛、溶和星状毛、具柄束毛、多出毛和水母状毛。其中乳突在青冈亚属中较常见,而在壳斗科其他属中仅在石栎属 Lithocarpus 少数种类中有报道;水母状毛首次在壳斗科中发现。毛被可能遵循以下的演化规律：乳突→单毛→星状毛;星状毛依照从简单→复杂的演化途径,分化出各种形态各异和结构复杂的毛系。初步讨论了毛被以及叶表皮其他特征(如毛基细胞和表皮细胞的形态、气孔的类型和密度等)的分类和系统学意义。     

地黄属和崖白菜属的数量分类

选择地黄属Rehmannia和崖白菜属Triaenophora的8种植物55个形态学、细胞学、花粉学等性状指标, 根据种间欧氏距离, 利用NTSYS-pc Version 2.10e 软件中的UPGMA聚类分析方法和主成分分析方法, 首次对这两个属进行数值分类学研究。结果表明: 地黄属与崖白菜属是两个自然类群, 除地黄属内的高地黄与裂叶地黄在UPGMA聚类中不能分开外, 其他物种都能很好地分开。数量分类支持最近新发表的神农架崖白菜新种。     

9种榆科植物叶表皮结构特征研究

利用叶表皮离析法观察了榆科6属9种植物叶片的表皮结构。结果表明,榆科植物叶片气孔器仅分布在远轴面,不规则型,不具副卫细胞;叶片毛状体主要有腺毛和非腺毛两种类型,腺毛由基细胞、柄细胞和膨大的顶细胞构成,非腺毛均由单细胞发育而来,基部具或不具钟乳体,多数非腺毛顶部发育成长锥状,少数非腺毛顶部极短呈喙状。根据气孔器的类型和分布位置,尤其是表皮毛的基本结构和发育类型等特征,不支持将广义榆科分为两个独立科的观点。但榆科这9种植物叶表皮特征具有属间或种间差异,有一定的分类学价值。     

鸢尾属（Iris）植物叶片表皮微形态特征的研究

对12种鸢尾叶片的表皮特征进行了观察和研究,结果表明野鸢尾、单花鸢尾、北陵鸢尾3种鸢尾各自的上下表皮细胞的形状及气孔密度等有明显区别,而其余9种鸢尾叶片各自上下表皮形态均无明显差异。12种鸢尾的气孔类型均属于横列型,且气孔均是随机分布,气孔保卫细胞的长轴与叶脉平行,叶脉处无气孔分布。不同种鸢尾之间叶片表皮特征具有显著差异,可为鸢尾属植物的分类提供依据。     

安徽景天属（Sedum）植物叶表皮研究

利用光学显微镜和扫描电子显微镜观察安徽省１２种景天属（Ｓｅｄｕｍ）植物的叶表皮,统计并测量报气孔类型,气孔大小,气孔密度及气孔指数等,描述了表皮角质膜,蜡质纹饰及气孔外拱盖的有关特征。结果表明：景天属植物叶表皮气孔器为不等细胞型。气孔器类型,表皮细胞形状及垂周壁式样,角质膜,蜡质纹饰等,种间无差异或极小,而气孔大小,气孔器分布特征,气孔密度,表皮毛等种间差异较大,建议在种间区分上将差异大的特征作为     

委陵菜属锥状花柱组植物叶表皮微形态特征的研究

利用光学显微镜和扫描电子显微镜,观察了新疆委陵菜属（Potentilla L.）锥状花柱组（Sect.Conostylae(Wolf)Yü et Li）15种委陵菜植物叶表皮的微形态特征。对其叶表皮毛的类型、表皮细胞的形状及大小、气孔器的分布、气孔器类型、气孔形状、气孔大小、气孔密度、气孔指数、气孔外拱盖形态及其纹饰等指标进行分析：有几种植物叶的上表皮无气孔,而下表皮均有气孔器的分布,形状为长椭圆形、椭圆形、宽椭圆形和近圆形;气孔器的类型多为短平列四细胞型、无规则四细胞型、无规则型、围绕型和辐射型;表皮毛的类型为针状毛、带状柔毛和腺毛;表皮细胞分为不规则形和多边形;表皮毛特征、叶片表皮细胞的形状、垂周壁式样、气孔器的形状类型、气孔密度指数及蜡质纹饰等存在差异,可作为亚属间及种间分类的依据。     

黑龙江悬钩子属植物叶表皮形态结构的研究

利用扫描电子显微镜对黑龙江悬钩子属植物的叶表皮形态结构进行比较研究。结果显示:(1)悬钩子属植物叶的上表皮细胞呈多边形,垂周壁平直,或无规则形,垂周壁浅波纹;下表皮细胞无规则形,垂周壁浅波纹或深波纹。(2)表皮毛类型有单细胞直立不分支、卷曲不分支,头状腺毛和盾状腺毛四种类型。(3)气孔器均分布于下表皮,且气孔器类型为无规则形;气孔外拱盖单层、内缘平滑或不规则波状。研究表明,黑龙江悬钩子属植物的叶表皮微形态学特征表现出一定差异性,对种间的划分和鉴定具有一定的分类学意义。     

Familial placement and relations of Rehmannia and Triaenophora (Scrophulariaceae s.l.) inferred from five gene regions

Accurate classification systems based on evolution are imperative for biological investigations. The recent explosion of molecular phylogenetics has resulted in a much improved classification of angiosperms. More than five phylogenetic lineages have been recognized from Scrophulariaceae sensu lato since the family was determined to be polyphyletic; however, questions remain about the genera that have not been assigned to one of the segregate families of Scrophulariaceae s.l. Rehmannia Liboschitz and Triaenophora Solereder are such genera with uncertain familial placement. There also is debate whether Triaenophora should be segregated from Rehmannia. To evaluate the phylogenetic relations between Rehmannia and Triaenophora, to find their closest relatives, and to verify their familial placement, we conducted phylogenetic analyses of the sequences of one nuclear DNA (ITS) region and four chloroplast DNA gene regions (trnL-F, rps16, rbcL, and rps2) individually and combined. The analyses showed that Rehmannia and Triaenophora are each strongly supported as monophyletic and together are sister to Orobanchaceae. This relation was corroborated by phytochemical and morphological data. Based on these data, we suggest that Rehmannia and Triaenophora represent the second nonparasitic branch sister to the remainder of Orobanchaceae (including Lindenbergia).     

Trichome complement of Turnera and Piriqueta (Turneraceae)

The indumentum of Piriqueta and Turnera is made up of nine different types of trichomes, which broadly can be divided into glandular and non-glandular. Taking into account foot shape, head size and pedicle size, five variants of glandular trichomes are recognized: microcrapitate, stipitate-capitate, sessile-capitate and setiform. The non-glandular trichomes can be simple (unicellular or pluricellular-uniseriate), stellate or porrect-stellate. The setiform glandular hairs are present in most species of Piriqueta . Simple unicellular hairs are the most widespread type, frequently being found in combination with other trichomes. Stellate trichomes show a restricted distribution in both genera. Within Piriqueta , section Africana has only simple trichomes, whereas section Piriqueta has also porrect-stellate trichomes; groups of species can be set up according to the presence and type of glandular trichomes. Within Turnera the stipitate-capitate trichomes are exclusive to series Papilliferae ; sessile-capitate trichomes are found in series Microphyllae , Annulares and in some species of Salicifoliae ; clavate trichomes are found only in series Turnera ; setiform glandular hairs are exclusive to T. collotricha , whereas the microcapitate trichomes are widely distributed.  © 2004 The Linnean Society of London, Botanical Journal of the Linnean Society , 2004, 144 , 85–97.     

Leaf micromorphology and taxonomy of North African species of Sideritis L. (Lamiaceae)

REJDALI M., 1991. Leaf micromorphology and taxonomy of North African species of Sideritis L. (Lamiaceae). This study reports on the structure of trichomes, epidermal cells, stomata and venation patterns. The trichomes are either glandular or eglandular. The latter are unicellular or multicellular, soft or rigid pointed hairs. The glandular hairs are short or long stalked, the latter are generally flattened and may be sessile. The epidermal cells are variously shaped with sinuous or straight walls usually randomly orientated. Stomata are either anomocytic or diacytic and evenly distributed throughout the epidermis without any definite pattern of orientation. Venation is of the semicraspedodermous type.     

Phytochemistry and molecular systematics of Triaenophora rupestris and Oreosolen wattii (Scrophulariaceae)

The relationships between the genera Triaenophora, Oreosolen and Rehmannia were investigated. All three genera were previously included in tribe Veroniceae which was part of Scrophulariaceae but which is now included in Plantaginaceae. With regard to the content of iridoid glucosides, Triaenophora rupestris and the much-investigated Rehmannia were almost identical in containing catalpol, ajugol and 6-feruloylajugol. Oreosolen wattii was rather different in having compounds typical for the tribe Scrophularieae (Scrophulariaceae), namely aucubin, harpagide, harpagoside as well as two diesters of rhamnopyranosylcatalpol, one of which, here named oreosolenoside, had not previously been described in the literature. These results are consistent with recent analyses based on DNA sequencing and a phylogenetic tree illustrating the taxonomic relationships is presented.     

Trichome morphology provides phylogenetically informative characters for Tremandra, Platytheca and Tetratheca (former Tremandraceae)

Summary Trichomes of Tremandra R.Br. ex DC., Platytheca Steetz and Tetratheca Sm. (Elaeocarpaceae, former Tremandraceae), together with two outgroup species of Elaeocarpus L., are illustrated using scanning electron microscopy, and their distribution on various plant organs is documented. Various trichomes types were identified that relate taxa: simple hairs, stellate hairs, short glandular trichomes, long glandular trichomes, and three forms of tubercules. Both outgroup and ingroup taxa have simple hairs. Stellate hairs are confirmed as unique to Tremandra. Prominent and sculptured multicelled tubercules, some bearing a stout hair, are characteristic of Platytheca. Smaller multicelled tubercules occur in both Platytheca and Tetratheca, except for the Western Australian taxon Te. filiformis Benth. (possibly plesiomorphic). Unicellular tubercules (papilla) characterise two species of Tetratheca. Short glandular trichomes, usually found on the ovary, also occur in both of these genera but not in all species (possibly secondary losses), while long glandular trichomes, usually on stems and leaves, occur only in some groups of Tetratheca. Within Tetratheca, Western Australian taxa that have five-merous flowers fall into three ‘groups’: seven species (together with one from South Australia) that have short glandular trichomes but no long glandular trichomes; six species that have long glandular trichomes but no short glandular trichomes; and four species that have both trichome types. All other species of Tetratheca have four-merous flowers and form two ‘groups’: 12 eastern species (including one from South Australia) that have both short glandular trichomes and long glandular trichomes; 4 western species and six eastern species that lack short glandular trichomes. On the basis of these characters, a phylogenetic hypothesis for the three genera is presented.     

Lectotypification of Rehmannia rupestris Hemsley (=Triaenophorarupestris (Hemsley) Solereder) (Scrophularaceae)

Rehmannia rupestris Hemsley (= Triaenophora rupestris (Hemsley) Solereder), described from three specimens, is lectotypified in this study.     

地黄属和崖白菜属等位酶的变异研究

利用超薄平板微型聚丙烯酰胺凝胶的等电聚焦电泳技术,对玄参科Scrophulariaceae地黄属Rehmannia 6种植物和崖白菜属Triaenophora 2种植物共52份材料进行了7个酶系统的等位酶分析。在7个酶系中共检测到18个清晰位点和45个等位基因,多态位点为17个;并将遗传学数据用软件Biosys-1进行分析,结果表明:同种内个体间表现出较大的遗传同质性,而不同种的个体则表现出明显的趋异性。除高地黄R.elata和裂叶地黄R.piasezkii外,其余6种植物之间遗传分化较明显,8个种按聚类结果分为两支,崖白菜属的崖白菜T.rupestris和神农架崖白菜T.shennongjiaensis聚为一支,位于分支树的基部;地黄属的地黄R.glutinosa、茄叶地黄R.solanifolia、天目地黄R.chingii、湖北地黄R.henryi、高地黄和裂叶地黄为另一支。在地黄属中,高地黄和裂叶地黄之间的亲缘关系最近,地黄和裂叶地黄关系最远。本研究结果不支持把高地黄和裂叶地黄作为两个独立的种。地黄属与崖白菜属在遗传上具有较高水平的相似性,它们在生活史和形态学上仍然保留有许多共同的特征,说明它们之间分化的时间可能不长。     

Ficus carica L. leaf anatomy: Trichomes and solid inclusions

Ficus carica L., a typical plant of the Mediterranean environment, presents leaves covered by an extensive indumentum, and a mesophyll full of solid inclusions. The morphology and ultrastructure of the trichomes, calcium carbonate cystoliths and silicified structures of leaves of F. carica cv Dottato were investigated with light, confocal, scanning electron microscopy, and energy-dispersive X-ray spectroscopy. At the same time, histochemical reactions were also employed to analyse the indumentum composed by glandular and non-glandular trichomes by applying chemical reagents and fluorescence microscopy. Non-glandular and glandular trichomes, capitate, are described. Non-glandular trichomes are unicellular simple, spine-like and present different morphology and sizes. The capitate glandular trichomes are present on leaf adaxial and abaxial surface and consist of one-celled stalk and 3/4 cells spherical head. Histochemical characterisation of leaf hairs revealed the presence of flavonoids, while glandular trichome head cells showed a complex mixture of alkaloids, essential oil and flavonoids. Cu and Al were found in the constitutive structures, spike and dome, of the cystoliths. Several epidermal cells and non-glandular trichomes were silicified. Leaf hairs, trichomes secretions, solid inclusions and silicification of F. carica leaf have significant roles to play in relation to leaf protection from external factors, including high-intensity radiation, herbivores or pathogens.