基于trnL-F序列探讨杠板归Polygonum perfoliatum的系统位置

杠板归(Polygonum perfoliatum L.)的系统位置一直存在争议,文中以塔黄为外类群,采用最大简约法对杠板归及其近缘类群的trnL-F序列进行了系统发育分析,结果表明:(1)杠板归和刺蓼为姊妹群,自展分析的支持率为99%,分子证据支持杠板归归入刺蓼组,而没有必要单立组或属.(2)刺蓼组、春蓼组和头状蓼组植物聚在一起,自展支持率为100%,说明它们之间有很近的亲缘关系.     

基于trnL-F序列探讨杠板归Polygonum perfoliatum的系统位置

杠板归(Polygonum perfoliatum L.)的系统位置一直存在争议,文中以塔黄为外类群,采用最大简约法对杠板归及其近缘类群的trnL-F序列进行了系统发育分析,结果表明:(1)杠板归和刺蓼为姊妹群,自展分析的支持率为99%,分子证据支持杠板归归入刺蓼组,而没有必要单立组或属.(2)刺蓼组、春蓼组和头状蓼组植物聚在一起,自展支持率为100%,说明它们之间有很近的亲缘关系.     

基于trnL-F序列探讨杠板归Polygonum perfoliatum的系统位置

杠板归（Polygonum perfoliatum L．）的系统位置一直存在争议,文中以塔黄为外类群,采用最大简约法对杠板归及其近缘类群的trnL-F序列进行了系统发育分析,结果表明：（1）杠板归和刺蓼为姊妹群,自展分析的支持率为99％,分子证据支持杠板归归人刺蓼组,而没有必要单立组或属。（2）刺蓼组、春蓼组和头状蓼组植物聚在一起,自展支持率为100％,说明它们之间有很近的亲缘关系。     

中国蓼属分叉蓼组和冰岛蓼属植物叶下表皮微形态研究

采用光学显微镜对中国蓼属分叉蓼组(Polygonum section Aconogonon)和冰岛蓼属(Koenigia)的21种植物的叶下表皮微形态进行了观察研究。结果表明,其叶下表皮微形态特征可分为三种类型：（1）气孔器类型为无规则型,表皮细胞多边形,垂周壁为波状;（2）气孔器类型为无规则型兼有非典型不等型,表皮细胞为多边形或不规则形,垂周壁为平直弓形或波状;（3）气孔器类型为不等细胞型,表皮细胞多边形,垂周壁为平直弓形。分叉蓼组（西伯利亚蓼除外）植物的叶表皮气孔器类型具有高度一致性,说明该组是一个自然类群。本文研究结果不支持将大铜钱叶蓼(Polygonum forrestii Diels)、铜钱叶蓼(P. nummularifolium Meissner)划归于冰岛蓼属的处理意见;支持将西伯利亚蓼(P. sibiricum Laxm.)独立成属,即西伯利亚蓼属(Knorringia Tzvel.)的观点;同时也支持仍将多穗蓼(P. polystachyum Wall.ex Meissner)和松林蓼(P. pinetorum Hemsl.)归在分叉蓼组的处理意见。     

中国蓼属春蓼组植物果实形态及果皮微形态的研究

应用解剖镜和扫描电镜对中国产蓼属春蓼组（Polygonum sect. Persicaria）19种3变种植物的果实形态和果皮微形态特征进行了观察和研究。结果表明,蓼属春蓼组植物的果实形态为卵形或椭圆状卵形,具三棱、双凹或双凸,顶端渐狭,有喙或无喙;果皮微形态可分为7种类型： 洼点、浅洼点,脑纹状纹饰,拟脑纹状纹饰,网状纹饰,不规则褶皱,不规则小疣状颗粒以及密浅网状纹饰。观察结果支持将绵毛酸模叶蓼（P. lapathifolium L. var. salicifolium Sibth.）合并到酸模叶蓼（P. lapathifolium L.）,做为酸模叶蓼的异名处理;支持将长鬃蓼（P. longisetum De Br.）作为丛枝蓼（P. posumbu Buch. Ham. ex D.Don）的变种处理的意见;认为密毛酸模叶蓼（P. lapathifolium L. var. lanatum (Roxb.) Stew.）应恢复种级,圆基长鬃蓼（P. longisetum De Br. var. rotunatum A.J.Li）应升为种级;支持平武蓼（Polygonum pingwuense F. Z. Li et Y. T. Hou et S. J. Fan, sp. nov.）新种的成立。     

基于ITS序列探讨金线草的系统学位置

金线草的系统位置一直存在争议,该试验以Triplaris weigeltiana为外类群,采用最大简约法对金线草及其近缘类群的ITS序列进行了系统发育分析.结果表明:(1)金线草和蓼属的春蓼组、刺蓼组形成三个并列的分支,因此,金线草没有必要独立成属,分子证据支持金线草成立为组;(2)金线草和春蓼组、刺蓼组植物聚在一起,...     

基于核糖体DNA内转录间隔区ITS序列的广义蓼属及近缘属分子系统学研究

通过对广义蓼属及近缘属共32个代表种内转录间隔区ITS序列的分子系统学分析,尝试研究备受争议的广义蓼属及近缘属的物种族、属、组级的划分问题,结果显示,广义蓼属在系统发育树上并不能形成一个单系类群,这些物种共聚为3大支,分别对应春蓼族、蓼族及荞麦族,其中荞麦属与翅果蓼属形成了一支独立于春蓼族及蓼族之外的类群。在春蓼族中,冰岛蓼属与分叉蓼组形成一个单系类群。     

基于核糖体DNA内转录间隔区ITS序列的广义蓼属及近缘属分子系统学研究(英文)

通过对广义蓼属及近缘属共32个代表种内转录间隔区ITS序列的分子系统学分析,尝试研究备受争议的广义蓼属及近缘属的物种族、属、组级的划分问题,结果显示,广义蓼属在系统发育树上并不能形成一个单系类群,这些物种共聚为3大支,分别对应春蓼族、蓼族及荞麦族,其中荞麦属与翅果蓼属形成了一支独立于春蓼族及蓼族之外的类群。在春蓼族中,冰岛蓼属与分叉蓼组形成一个单系类群。     

基于trnL-F序列推测冰岛蓼属的系统发育

冰岛蓼属的界定一直存在争议,本实验以塔黄为外类群,采用最大简约法对冰岛蓼属及其近缘类群的trnL-F序列进行了系统发育分析,结果表明:(1) 冰岛蓼(Koenigia islandica)和大铜钱叶蓼(Polygonum forrestii)为姊妹群,自展分析的支持率为100%,因此,大铜钱叶蓼应归于冰岛蓼属;(2) 冰岛蓼和分叉蓼组植物聚在一起,自展支持率为99%,说明它们之间有很近的亲缘关系.     

两栖蓼的分子系统学研究

两栖蓼是一种水陆两栖植物,植株在不同生态环境下外部形态差异较大,同时两栖蓼的系统位置存在争议,被归入春蓼组(sect.Persicaria)或提升为两栖蓼组(sect.Amphibium)。该文选取两栖蓼及春蓼组植物12种,以及刺蓼组、头状蓼组、神血宁组、拳参组、萹蓄组和外类群掌叶大黄共23种植物进行研究。植物总DNA的提取采用改进的CTAB法,所测序列以及从Genbank数据库下载的序列,以掌叶大黄为外类群,采用最大简约法和贝叶斯法对核糖体ITS序列和叶绿体trn L-F序列进行了系统发育分析。ITS序列对位排列的长度为735 bp,包括489个可变位点,272个位点是信息位点。简约法得到9个简约树,步长为1 084,CI指数为0.680,RI指数为0.614。trn L-F序列对位排列的长度为1 121 bp,包括427个可变位点,239个位点是信息位点。简约法寻找到9个简约树,步长为551(CI=0.911,RI=0.910)。贝叶斯法和简约法得到的树基本一致。分子序列分析结果显示,trn L-F序列树类似于ITS序列树。ITS序列构建的发育树上,两栖蓼与刺蓼组植物、春蓼组其他植物形成3个并列的分支;在trn L-F序列树上,两栖蓼则与其他春蓼组植物形成两个并列的分支。由此可见,两栖蓼与春蓼组其他植物的亲缘关系较远,成一独立的分支。两个分子证据支持将两栖蓼提升为两栖蓼组的处理意见。此外,两栖蓼的花粉具散沟,与典型的春蓼组的具散孔花粉不一致。再加上两栖蓼水陆两栖的特性,因此支持把两栖蓼提升为两栖蓼组的观点。两栖蓼组的界定为多年生草本,水陆两栖,根状茎横生,生于水中茎漂浮,叶长圆形或椭圆形,生于陆地茎直立,叶披针形或长圆状披针形,托叶鞘为筒状、薄膜质,总状花序穗状,瘦果近圆形,花粉具散沟。     

The genus Koenigia L. emend. Hedberg (Polygonaceae)

Pollen morphological studies revealed the occurrence of the characteristic spinulose pollen type of Koenigia not only in the three species earlier recognized in the genus (A" islandka, K. nepalensis and K. pilosd) but also in three additional species earlier treated under Polygonum , viz. K delicatula (Meisn.) Hara, K. forrestii (Diels) Mesicek & Soják, and A" nummularifolia (Meisn.) Mesicek & Soják. Further studies of flower morphology, fruit and petiole anatomy, basic chromosome number, etc., revealed additional similarities between those species, which led to a taxonomic revision of the genus Koenigia. This genus seems to be most closely related to Persicaria Mill, sections Cephalophilon (Meisn.) Gross and Echinocaulon (Meisn.) Gross, with Koenigia delicatula as a connecting link. There arc also interesting similarities with the genus Aconogonon (Meisn.) Rchb. Koenigia exemplifies the derivation from montane ancestors of a high mountain-dwelling genus displaying adaptive radiation to fit diverse alpine niches. Five species out of six are confined to high mountain areas in southeastern Asia, primarily in the Himalayas, whereas the sixth has spread to Arctic and alpine areas in the northern hemisphere and even penetrated to southern South America. The latter species shows progressive reduction in size in combination with adaptation to a very short summer under severe climatic conditions.     

Generic limits in Polygonurn and related genera (Polygonaceae) on the basis of floral characters

In order to investigate the taxonomic value of a number of characters in the elucidation of relationships within the collective genus Polygonum L., and segregate genera Atraphaxis L., Calligonum L., Pteropyrum Jaub. & Spach., Oxygonum Burch., Fagopyrum Mill., Harpagocarpus Hutch. & Dandy and Polygonella Michx., 83 species of the tribe Polygoneae emend. Jaretzky were studied. The following floral characters were examined: stamen number, insertion and external morphology; structure and morphology of the floral nectaries; vasculature and surface morphology of the tepals.
Problems in floral morphology in Polygonaceae are discussed, together with relationships within the Family. The tribal division proposed by Haraldson (1978) is supported, but a new and different delimitation of genera is proposed. The present data support a division of Polygonum L. sensu lato and its related taxa into two tribes: Polygoneae (containing Polygonum L. sensu stricto, Fallopia Adans., Oxygonum Burch., Pteropyrum Jaub. & Sparh., Atraphaxis L. and Calligonum L.), and Persicarieae (containing Fagopyrum Mill., Harpagocarpus Hutch. & Dandy, Persicaria Mill. and Koenigia L.). The genus Reynoutria Houtt. is included as a section of Fallopia Adans.; Bislorta Mill., Aconogonon Reichenb. and Tovara Adans. are included within Persicaria Mill.
A number of new combinations are proposed in Persicaria and Fallopia .     

蓼属头状蓼组rDNA-ITS的序列扩增及分析

以贵州境内蓼属头状蓼组6种(含1变种)植物为材料,对其rDNA的内转录间隔区(ITS)序列进行PCR扩增,得到6种植物的ITS序列,分别为:赤胫散2个居群(Polygonum runcinatum var.sinense,GenBank登录号FJ606887、FJ648802),平卧蓼(P.strindbergii,GenBank登录号FJ648803 ),尼泊尔蓼(P.nepalense,GenBank登录号FJ648804),羽叶蓼(P.runcinatum,GenBank登录号FJ648805),火炭母(P.chinense,GenBank登录号FJ648806)和头花蓼(P.capitatum,GenBank登录号FJ648807).其中赤胫散与平卧蓼的ITS序列为首次报道.序列分析结果表明,蓼属头状蓼组6种植物ITS序列总长度为661～666 bp,ITS1区序列长度为243～246 bp,5.8 S rDNA区序列长度165 bp,ITS2区序列长度253～258 bp,6种植物的差异主要集中在ITS1和ITS2区.聚类分析显示,6种头状蓼组植物具有共同起源,结果支持赤胫散从羽叶蓼变种上升为独立物种.     

Taxonomic notes on Polygonaceae from southern tropical Afkica

As part of taxonomic studies of the family Polygonacrae For the Flora Zambesiaca project, two new species from southrrn tropical Africa are described: Persicaria nogueirae S. Ortiz & Paiva, from Zambia and Angola, and Oxygonum annuum S. Ortiz & Paiva, from Zambia. In addition, two new combinations are proposed: Polygonum glomertum Dammer is transferred to the genus Persicaria as Persicaria glomerata (Dammrr) S. Ortiz & Paiva, and Persicaria attemtata (R. Br.) Soják subsp. africana K.L. Wilson is renamed Persicaria madagascariensis (Meisn.) S. Ortiz & Paiva.