Cladistic analysis of Enkianthus with notes on the early diversification of the Ericaceae

The genus Enkianthus (Ericaceae) has been subject to a cladistic analysis of morphological, anatomical, embryological, and cytological data, using two species of Clethra as outgroup. In order to evaluate the monophyly of Enkianthus , the genera Epigaea and Phyllodoce from the subfamily Rhododendroideae, and the genus Andromeda from the subfamily Vaccinioideae were also included in an initial analysis which yielded 20 equally parsimonious cladograms. The results indicated that Enkianthus is monophyletic, and a subsequent analysis with only the outgroup taxa and 14 species of Enkianthus yielded two equally parsimonious cladograms with a more resolved topology. In order to obtain strictly monophyletic taxa, the current subgeneric classification of Enkianthus is revised, recognizing four sections: Enkianthus (9 spp.), Andromedina (2 spp.), Meisteria (2 spp.), and Enkiantella (4 spp.). The paper provides a key, illustrations of representative taxa, a cladogram, and strict consensus trees.     

中国柳属多雄蕊类群的分支系统学研究

应用杨属(Populus)和钻天柳属(Chosenia)分别作为不同的外类群,对中国柳属多雄蕊类群构建了两个分支图。结果表明,钻天柳属、大叶柳和四子柳组(Sect.Tetraspermae)都是较原始的类群。支持建立Toisusu Kimura属。根据分支图和染色体数目资料,多雄蕊类群可划分五个类组。支持方振富教授关于"南方型"和"北方型"的划分以及在东亚有从南方向北方演化的趋势,特别对于中国特有组紫柳组(Sect.Wilsonianae).Sect.Salix和Sect.Subalbae两组的分化应予以承认。     

A Classification Synopsis of the Genus Dryopteris from Yunnan

The genus Dryopteris of the Dryopteridaceae is one of the largest genera in pteridophytes, which contains about 300 species and is distributed throughout the world. There are about 200 species of this genus in China, of which at least 88 are present in Yunnan. In this paper, the author presents a classification synopsis of the genus Dryopteris. Subg. I Pycnopteris (T. Moore )Ching 1 species Subg. II. Dryopteris Sect. 1. Hirtipedes Fraser-Jenkins 19 species Sect. 2. Pandae Fraser-Jenkins 1 species Sect. 3. Fibrillosae Ching 18 species Sect. 4. Chrysocomae S. G. Lu 7 species Sect. 5. Caespitosae S.G.Lu 5 species Sect. 6. Pallidae Fraser- Jenkins 10 species Sect. 7. Marginatae Fraser-Jenkins 7 species Sect. 8. Splendentes Fraser- Jenkins 2 species Sect. 9. Purpurascentes Fraser- Jenkins 1 species Sect. 10. Nephrocystis H. I tô 3 species Subg. llI. Erythrovariae (H. I tô ) Fraser-Jenkins, emend. S.G. Lu Sect. 11. Erythrovariae 11 species Sect. 12. Variae Fraser- Jenkins 3 species A key to these groups is given and all the species are enumerated in the pres- ent paper.     

槭树科花粉形态及其系统学意义

报道了槭树科(Aceraceae)槭属21组33种和金钱槭属2种植物的花粉形态。本科花粉近球形至长球形,极面观为三裂圆形。从花粉萌发孔类型看,金钱槭属Dipteronia具三孔沟,槭属（Acer)除4组具三孔沟外,其余均为三沟。从花粉外壁纹饰看,金钱槭属2个种和槭属的大多数种为条纹状,罕为细条纹－拟网状和皱波状。通过花粉形态分析,并结合其它方向的证据,我们认为：（1）Sect.Palmata,Sect.Spicata和Sect.Microcarpa可能是槭属中与金钱槭属关系最密切的类群;（2）A.distalum和A.nipponicum代表了近缘的两个单种组;（3）A.pseudoplatanus不同于Sect.Acer的其它4个种而与A.saccharum可能存在更为密切的关系;（4）Sect.Carpinifolia(细条纹－拟网状外壁纹饰）和Sect.Negundo(皱波状外壁纹饰）则可能代表了槭属中最特化的类群;（5）按槭树科花粉三孔沟到三沟的演化规律,Dipteronia较Acer原始。     

猪毛菜属(Salsola L.)的系统与地理分布

本文论述了猪毛菜属系统分类的简史。依据该属的系统分类新资料,对我国猪毛菜属的分组系统作了进一步整理,将国产猪毛菜属植物归为6组5亚组。文中还讨论了该属的起源发生、迁移、分化以及地理分布等问题。     

A Study on the Synstematics of the Genus Lepisorus (Poiypodiaceae)

Based on characters, such as scales on rhizomes, paraphyses in sori, leaves, rhizomes and stipes, the genus Lepisorus is divided into 6 sections. They are Sect. Lepisorus, Sect. Pleioomma S. L. Yu, Sect. Sclerophyllon S. L. Yu, Sect. Macrophyllon S. L. Yu, Sect. Pachyphyllon S. L. Yu and Sect. Hymenophyton Ching.     

基于trnK基因的葱属植物分子系统研究

在形态和细胞分类研究的基础上选择产于中国的9组47种葱属植物(含外类群5种),运用PCR方法扩增叶绿体trnK基因,选择26种限制性内切酶对PCR扩增片段进行了RFLP分析.结果表明:trnK基因的PCR产物在各分类群间几乎不存在长度变异,约为2 520 bp,PCR扩增片段酶切后,共得到247个变异位点,其中信息位点201个.运用PAU P 4.0 B 10.0和M EGA 3.1软件进行分析,构建葱属系统发育的D o llo和W agner最简约(M P)树及邻接(N J)树.分析表明:(1)宽叶组类群组成比较自然的单系群,洋葱组和葱组也各自形成独立分枝,表明这3个组的划分是比较自然的.多籽组和合被组在本次分析中形成1个单系群,表明这2个组具有较密切的亲缘关系.而粗根组、根茎组和单生组的划分是不自然的,需进一步研究后作适当的调整.粗根组的类群在trnK基因的RFLP分析中,得到很好的分辨,可按其染色体基数分为3个大的类群.(2)中国葱属植物可以划分为6个亚属的新等级,在各亚属下可以再分组.(3)本文还对葱属的种间亲缘、进化关系等问题进行了讨论.     

瓦韦属植物的系统学研究

根据瓦韦属植物根状茎上的鳞片及隔丝的形状、结构、颜色,参考叶片的形状、质地及根状茎、叶柄的横切面等特征,把瓦韦属植物划分为6个组,分别为瓦韦组Sect．Lepisorus、扭瓦韦组Sect．Pleioomma S．L. Yu、革质叶组Sect．Sclerophyllon S．L. Yu、大叶瓦韦组Sect．MacrophyllonS．L.Yu、纸质叶组Sect．Pachyphyllon S．L.Yu和薄叶组Sect．Hymenophyton Ching。     

Phylogeny of Chinese Allium (Liliaceae) using PCR-RFLP analysis

Eighteen representative species were selected from all the nine sections of Chinese Allium on the basis of the classification of morphology and cytotaxonomy. The trnK and rpL16 gene fragments of chloroplast DNA were amplified from 18 species by PCR method. The two cpDNA fragments were digested by 26 restriction enzymes, and 303 polymorphic restriction sites were found, of which 163 were informative. The restriction site data were analyzed with PAUP (version 3.1.1) and MEGA (version 1.01) as well as PHYLIP. As a result, the genus Allium could be classified into six subgenera. The recognition of Sect. Anguinum in the Flora of China is reasonable, Sect. Rhizirideum, Sect. Haplostemon and Sect. Cepa are not monophyletic. The infrageneric system of this genus was also discussed.     

基于形态性状的淫羊藿属（小檗科）的分支分析

小檗科（Berberidaceae）淫羊藿属（Epimedium Linn.）植物全世界约有55种,中国分布有44种,其余种类则分布于东亚、克什米尔、北非和高加索等地。该属植物具有复杂的形态学变异（例如：单叶、一回三出复叶、二回三出复叶,花茎具两叶、三叶或一叶,花瓣无距、有距、距多样式等）,导致仅依靠直观判断不能对该属系统进行划分。李超等[1]采用数量分类法对该属55种植物的分类结果多数与Stearn[2]25-26和王悦云等[3]的研究结果一致,但部分种类的分类仍存异议,例如：Sect.     

Phylogeny of Chinese Allium (Liliaceae) using PCR-RFLP analysis

Eighteen representative species were selected from all the nine sections of Chinese Allium on the basis of the classification of morphology and cytotaxonomy. The trnK and rpL16 gene fragments of chloroplast DNA were amplified from 18 species by PCR method. The two cpDNA fragments were digested by 26 restriction enzymes, and 303 polymorphic restriction sites were found, of which 163 were informative. The restriction site data were analyzed with PAUP (version 3.1.1) and MEGA (version 1.01) as well as PHYLIP. As a result, the genus Allium could be classified into six subgenera. The recognition of Sect. Anguinum in the Flora of China is reasonable, Sect. Rhizirideum, Sect. Haplostemon and Sect. Cepa are not monophyletic. The infrageneric system of this genus was also discussed.     

龙胆属的系统发育分析

本文运用支序分类的原理和方法,对龙胆科龙胆属的属下等级进行了重新归类和系统发育分析。龙胆属是一个单系群,以3项近裔共性为归类依据。性状分析作了性状同源性分析和性状极性分析。性状极化主要以外类群比较、性状相关性及染色体资料为依据,其它方法,如生物重演律原则、地理递进原则以及孢粉形态等也被结合使用。分析结果,双蝴蝶属和蔓龙胆属被选择为外类群,71个性状被选择作为建立数据矩阵的基本资料。使用PAUP程序对矩阵进行了运算,得到4个最简约的谱系分支图,它们均具一致性系数0.637,支序长度为160步,f-比值范围为0.179～0.189,其中具最低f-比值的图被选作为类群归类和讨论亲缘关系的基础。在支序图上龙胆属归为15个组;其中5个组又划分为系,共包括23个系,其余组为单型组,故共有33个属下类群。一个严格的一致性谱系分支图总结了所有的一致点,从而支持了支序分析的结果。     

论世界蒿属植物区系

本文从多学科, 包括形态、地理分布、孢粉、古植物、谱系分支分析及化学成分等学科的研究, 论述了世界蒿属植物的系统分类及其种属地理、历史地理和区系地理.     

A Conspectus of the Genus Bergenia Moench

In this paper the classification of the genus Bergenia Moench is provided, its geographic distribution analysed, and the phylogeny also traced. Based on an analysis of morphological characters such as leaves, ocreas, branches of inflorescences, Pedicels, hypanthium, sepals, and glandular indumentum, thi genus is divided into 3 sections: 1. Sect. Scopulosae J. T. Pan, sect. nov., 2. Sect. Bergnia, 3. Sect. Ciliatae (A. Boriss.) J. T. Pan, stat. nov. The Sect. Scopulosae J. T. Pan may be considered as the primitive one, while Sect. Ciliatae (A. Boriss.) J. T. Pan may be regarded as the advanced one, with Sect. Bergenia in between. So far, the genus Bergenia Moench comprises 9 species in the total. Southeast Asia and North Asia (south and east Siberia, USSR) each have only 1 species, West Asia (Afghanistan) has 2, Central Asia (Kirghizia-Tajikistan-Uzbekstan area, USSR) 3, South Asia 4 (Nepal has 4, India, Pakistan and Kashmir area each has 3, Bhutan and Sikkim each has 2), East Asia 6. In East Asia, Mongolia and Korea each have only 1 species, but China has 6 (including endemic species 2 and new species 1). Sichuan Province and Xizang Autonomous Region each have 3, Yunnan Province 2, Shaanxi Province (Qinling Mountains) and Uygur Autonomous Region of Xinjiang each have only 1. Thus the distribution centre of this genus should be in the region covering Sichuan, Yunnan and Xizang. Moreover, it is noteworthy that Bergenia scopulosa T. P. Wang in Sect. Scopulosae seems to have retained primitive characters, for example, non-ciliate leaves and ocreas, glabrous pedicels, hypanthium and sepals, and this primitive species is found in Qinling Mountains and Sichuan. According to the distribution of the primitive species, the author suggests that the centre of origin of this genus be in the region covering Qinling Mountains and Sichuan.     

中国龙胆属植物研究(四)

龙胆属Gentiana (Tourn) L.是Tourneferot (1700)为纪念传说中的Illyria国王Gentius而建立的,对它作了描述,绘有墨线图。林奈在"植物属志"(1737),"植物种志"(1753)承认了该属,并重新进行了描述,记载23种。     

A Revision of Genus Yinshania (Cruciferae)

The genus Yinshania was established by Ma Yu-chuan and Zhao Yi-zhi in 1979, when only one species, Y. albiflora Ma et Y. Z. Zhao, was discribed from Nei Monggol. In the present paper the genus Yinshania is revised and four new species, two new varieties and four new combinetions are reported. There are so far eight species and two varieties in total in this genus. Important morphological characters of the genus are analysed, which shows that the lateral nectariferous glands positioned at lateral base of the brevistamens are triangularovoid; there are dense minute pustules on the surface of valves, which is easily neglected because the pustules disappear or shrinked when dry; simple or furcate hairs are present in the most species, seldom absent; the shape of pollen grains is relatively steady, elliptic or long-elliptic, with the polar view trifidcircular, the equatorial view elliptic or long elliptic, the aperture 3-colpate, exine reticular. The type of genus Yinshania is changed. Cochlearia acutangula O. E. Schulz was published in 1929, but Y. albiflora Ma et Y. Z. Zhao in 1979. They are the same species and a new combinetion, Y. acutangula (O. E. Schulz) Y. H. Zhang, is made. Thus, the type of genus Yinshania should be changed to Y. acutangula (O. E. Schulz) Y. H. Zhang. Besides, He Ye-qi 6121 (paratype, PE), which is different from Y. acutangula var. albiflora, is separated from it and transferred the typical variety, Y. acutangula. According to the characters of fruit shape the genus Yinshania is divided into two sections, namely, Sect. Microcarpa and Sect. Yinshania, and then Sect. Yinshania is subdivided into two series. Sect. 1. Microcarpa. Silicles widely ovoid or subglobose, 1-2.2 mm long, 0.8-2.2 mm wide, the ratio of length and width about 1.1. Sect. 2. Yinshania. Silicles oblong, oblong-ovoid or long-lanceolate, ellipsoidal, 1.5-4.5 mm long, 0.3-1.5 mm wide, the ratio of length and width about 2.5-3.3. Ser. 1. Henryanae. Raches flexuose; plants densely hairy; leaves 3-5-foliolate, seldom pinnatipartite or pinnatisect. Ser. 2. Yinshania. Raches non flexuose; plants sparsely hairy; leaves pinnatisect or pinnatipartite. The genus Yinshania is a genus endemic to China, with their range from eastern Xizang to western Hubei from northern Guizhou to central Nei Monggol. The taxa are mostly of a small area. Sect. Microcarpa is concentrated in Sichuan and southern Gansu; Sect. Yinshania is spread from Xizang and Sichuan, nouthwards to Gansu, Ningxia, Shanxi, Hebei and Nei Monggol (Ser. Yinshania); and from Sichuan south-eastwards to Guizhou and Hebei (Ser. Henryanae). There are five species in Sichuan. The present paper conjectures that the distribution centre of the genus is in the Hengduan Mountains and its adjacent areas.     

中国产瓦韦属植物叶柄与根状茎的比较解剖研究

详细观察了已发表的60种瓦韦属植物叶柄和根状茎的横切面。瓦韦属植物叶柄维管束条数最多7条,最少2条,其中2个较粗,其余较细,排成一字型、三角型、四角型、半轮型等。根状茎上的维管束条数最少5条,最多16条,属于网状中柱,维管束不规则环形排列,夏绿种类厚壁组织较少或没有,常绿种类厚壁组织较多。叶柄与根状茎的研究对瓦韦属组的划分和种的确立有重要的参考价值。参考这些特征,瓦韦属相应地划分成六个组,即:大叶瓦韦组、扭瓦韦组、瓦韦组、革质叶瓦韦组、纸质叶瓦韦组、网眼瓦韦组。一些种类相应地进行了合并。     

A Study on Dichocarpum (Ranunculaceae)

The genus Dichocarpum was established by W. T. Wang and Hsiao in 1964, who divided the genus into 2 sections: Sect. Dichocarpum including 10 species distributed on the mainland of E. Asia, and Sect. Hutchinsonia including 9 species native to Japan. M. Tamura and L. A. Lauener made a revision of the genus in 1968, who divided the genus into 4 sections, three for the species of the mainland of E. Asia, including 3 series and 10 species, and the other for the species of Japan, including 2 subsections, 3 series and 9 species. In the present paper, the genus is divided into 2 sections and 6 series, including 15 species and 3 varieties, and a putative phylogeny of the genus is proposed. The genus may be close to the genus Asteropyrum, and these two genera are rather specialized in Thalictroides (Ranunculaceae), because they have three very similar characters: the petal with a long claw, the stephanocolpate pollen and the chromosome morphology. The genus has 2n=24, 35(36?), which indicates that its basic number is X=6, and the species on the mainland of E. Asia (Sect. Dichocarpum) may well be paleotetraploids, whereas those in Japan (sect. Hutchinsonia) are paleohexaploids. Most of the advanced species are distributed in Japan and the most primitive ones in China and the Himalayas, the distribution pattern seggests that the Japanese members of this genus might have immigrated from China in the Tertiary, and differentiated and evolved there. The putative phylogeny of the genus is shown in Fig. 2 (at series level)     

中国栎属(壳斗科)基于叶表皮及叶结构特征的分支分析

以三棱栎为外类群,基于叶表皮及叶结构特征对中国栎属进行初步的分支分析,结果显示了栎属内稳定的“支”结构及其种间关系。栎亚属可划分为5个组,分别为巴东栎组,高山栎组,Jiang子栎组,麻栎组和槲栎组,Jiang子栎组是栎亚属常绿栎类与落叶栎类之间的过渡类群;高山栎组应为栎亚属常绿栎类中的特化类群,而非最原始类群,5个组中,仅巴东栎组不是单系类群,而是一个多系类群,青冈亚属较栎亚属早分支,可划分为3大类;无毛类,简单被毛类和复杂被毛类;无毛类最原始,复杂被毛类与栎亚属关系最近,因此,叶表皮及叶结构特征对解决栎亚属组间亲缘关系有重要的分类学意义。