A molecular marker that is specific to medicinal rhubarb based on chloroplast trnL/trnF sequences

"Da-Huang" (Radix et Rhizoma Rhei, medicinal rhubarb), a famous and important Traditional Chinese Medicine, has often been confused with the adulterant species in the same genus, Rheum. Through sequencing the trnL (UAA)/trnF (GAA) regions of chloroplast DNA of thirteen species of Rheum (three medicinal rhubarb species and ten adulterant ones), a molecular marker of the medicinal species was found. A pair of PCR primers based on the sequences, was thus designed, which amplified a highly specific DNA fragment in medicinal rhubarb exclusively, and absent in the adulterants at all under an optimized PCR condition.

Phylogenetic analyses reveal high levels of polyphyly among pleurocarpous lineages as well as novel clades

Phylogenetic analyses of the Hypnales usually show the same picture of poorly resolved trees with a large number of polyphyletic taxa and low support for the few reconstructed clades. One odd clade, however, consisting of three genera that are currently treated either within the Leskeaceae (Miyabea) or Neckeraceae (Homaliadelphus and Bissetia), was retrieved in a previously published phylogeny based on chloroplast rbcL. In order to elucidate the reliability of the observed Homaliadelphus - Miyabea - Bissetia - clade (HMB-clade) and to reveal its phylogenetic relationships a molecular study based on a representative set of hypnalean taxa was performed. Sequence data from all three genomes, namely the ITS1 and 2 (nuclear), the trnS-rps4-trnT-trnL-trnF cluster (plastid), the nad5 intron (mitochondrial), were analyzed. Although the phylogenetic reconstruction of the combined data set was not fully resolved regarding the backbone it clearly indicated the polyphyletic nature of various hypnalean families, such as the Leskeaceae, Hypnaceae, Hylocomiaceae, Neckeraceae, Leptodontaceae and Anomodontaceae with respect to the included taxa. In addition the results favor the inclusion of the Leptodontaceae and Thamnobryaceae in the Neckeraceae. The maximally supported HMB-clade consisting of the three genera Homaliadelphus (2-3 species), Miyabea (3 species) and Bissetia (1 species) is resolved sister to a so far unnamed clade comprising Taxiphyllum aomoriense, Glossadelphus ogatae and Leptopterigynandrum. The well-resolved and supported HMB-clade, here formally described as the Miyabeaceae, fam. nov. is additionally supported by morphological characters such as strongly incrassate, porose leaf cells, a relatively weak and diffuse costa and the presence of dwarf males. The latter are absent in the Neckeraceae and the Leskeaceae. It is essentially an East Asian family, with one species occurring in North America.

Evolution of the Neckeraceae (Bryophyta): resolving the backbone phylogeny

Earlier phylogenetic studies, including species belonging to the Neckeraceae, have indicated that this pleurocarpous moss family shares a strongly supported sister group relationship with the Lembophyllaceae, but the family delimitation of the former needs adjustment. To test the monophyly of the Neckeraceae, as well as to redefine the family circumscription and to pinpoint its phylogenetic position in a larger context, a phylogenetic study based on molecular data was carried out. Sequence data were compiled, combining data from all three genomes: nuclear ITS1 and 2, plastid trnS-rps4-trnT-trnL-trnF and rpl16, and mitochondrial nad5 intron. The Neckeraceae have sometimes been divided into the two families, Neckeraceae and Thamnobryaceae, a division rejected here. Both parsimony and Bayesian analyses of molecular data revealed that the family concept of the Neckeraceae needs several further adjustments, such as the exclusion of some individual species and smaller genera as well as the inclusion of the Leptodontaceae. Within the family three well-supported clades (A, B and C) can be distinguished. Members of clade A are mainly non-Asiatic and nontropical. Most species have a weak costa and immersed capsules with reduced peristomes (mainly Neckera spp.) and the teeth at the leaf margins are usually unicellular. Clade B members are also mainly non-Asiatic. They are typically fairly robust, distinctly stipilate, having a single, at least relatively strong costa, long setae (capsules exserted), and the peristomes are well developed or only somewhat reduced. Members of clade C are essentially Asiatic and tropical. The species of this clade usually have a strong costa and a long seta, the seta often being mammillose in its upper part. The peristome types in this clade are mixed, since both reduced and unreduced types are found. Several neckeraceous genera that were recognised on a morphological basis are polyphyletic (e.g. Neckera, Homalia, Thamnobryum, Porotrichum). Ancestral state reconstructions revealed that currently used diagnostic traits, such as the leaf asymmetry and costa strength are highly homoplastic. Similarly, the reconstructions revealed that the 'reduced' sporophyte features have evolved independently in each of the three clades.

Molecular phylogeny of Glyphochloa (Poaceae, Panicoideae), an endemic grass genus from the Western Ghats, India

The genus Glyphochloa (Poaceae: Panicoideae: Andropogoneae: Rottboellinae) is endemic to peninsular India and is distributed on lateritic plateaus of low and high altitude in and around Western Ghats and the Malabar Coast. The genus presumably originated and diversified in the Western Ghats. Species relationships in the genus Glyphochloa were deduced here based on molecular phylogenies inferred using nuclear ribosomal ITS sequences and plastid intergenic spacer regions (atpB-rbcL, trnT-trnL, trnL-trnF), and new observations were made of spikelet morphology, caryopsis morphology and meiotic chromosome counts. We observed two distinct clades of Glyphochloa s.l. One of these (group I') includes Ophiuros bombaiensis, and is characterized by a single-awned lower glume and a base chromosome number of 6; it grows in low elevation coastal areas. The other clade (group II') has a double-awned lower glume, a base chromosome number of 7, and is restricted to higher elevation lateritic plateaus; G. ratnagirica may belong to the group II clade, or may be a third distinct lineage in the genus. A sister-group relationship between group I and II taxa (with or without G. ratnagirica) is not well supported, although the genus is recovered as monophyletic in shortest trees inferred using ITS or concatenated plastid data. We present a key to species of Glyphochloa and make a new combination for O. bombaiensis.

药用野生稻复合体（稻属）的分子系统发育与进化研究

稻属（Oryza L.）隶属于禾本科（Gramineae）Ehrhartoideae亚科的稻族（Oryzeae），包括两个栽培种（亚洲栽培稻O. sativa和非洲栽培稻O. glaberrima）和大约20多个野生种，广布于热带亚洲、非洲、大洋洲、中美洲和南美洲。药用野生稻复合体（O. officinalis complex）是稻属中最大、也是最复杂的一个复合体，共包括9个种，含有5种染色体组类型（B、C、BC、CD 和E）。作为栽培稻品质改良的重要基因库，药用野生稻复合体在稻属中具有重要的地位。但是，相似的形态和重叠的地理分布使部分物种的分类和鉴定一直较为困难;种内染色体组构成和倍性的不同更增加了分类鉴定的复杂性。这种情况阻碍了对这些野生稻遗传优势的有效利用。另外，由于物种间断分布和缺乏明确的二倍体亲本等原因，药用野生稻复合体内的异源多倍体起源一直存在争议。本文通过细胞核乙醇脱氢酶基因（Adh）和nrDNA的内转录间隔区（ITS）限制性片段长度多态性（RFLP）分析;叶绿体matK 基因、trnL 内含子和trnL-trnF 基因间隔区、核基因Adh和GPA1以及核糖体DNA ITS片段等序列比较的方法，对药用野生稻复合体中染色体组和物种的鉴定、种间系统发育关系，以及异源多倍体CCDD物种的起源和多倍体ITS的分子进化等进行了研究。主要研究结果如下： 1． 利用核Adh 基因限制性片段长度多态性，检测了来自国际水稻研究所基因库的64份药用野生稻复合体的样品。结果证明，所有O. rhizomatis样品都是含C染色体组的二倍体，所有O. minuta样品都是含BC 染色体组的四倍体。但是，种子库中鉴定为O. officinalis、O. punctata和O. eichingeri的样品中，同时都发现了含C染色体组的二倍体和含BC染色体组的四倍体。四倍体的O. officinalis只在印度分布，而且曾被描述为另一个种O. malampuzhaensis。 四倍体的O. punctata，也被一些学者称为O. schweinfurthiana，被发现和其二倍体一样分布广泛。值得注意的是，有两个曾被作为O. officinalis 四倍体的样品实际上是含有CD染色体组的物种O. latifolia。我们的结果增进了对国际水稻研究所种子库中部分野生稻样品染色体组构成的理解, 纠正了以往对药用野生稻复合体样品的错误鉴定，为今后进一步研究和利用这部分资源提供了种质编目的重要基础。 2． 对稻属中代表不同地理分布区的、含CD染色体组的11个样品（包括77个克隆）的ITS片段进行了测序。基于这些ITS序列的限制性片段长度多态性，提出一个快速而可靠的区分稻属CD 染色体组物种的方法。这个方法的具体步骤是：（1）利用通用引物扩增ITS 片段;（2）利用限制性内切酶FokI和/或DraⅢ消化PCR扩增产物;（3）用1%的琼脂糖胶电泳并根据消化产物的片段长度多态性来区分不同物种。 3． 利用包括两个叶绿体片段（matK和 trnL-trnF）、nrDNA内转录间隔区（ITS）和三个核基因（Adh1、Adh2和GPA1）的同源序列分析，探讨了药用野生稻复合体中二倍体物种和它们所代表的染色体组之间的系统发育关系。独立和合并的基因系统发育树都显示了一致的结果，即C染色体组和B染色体组的亲缘关系要比它们和E染色体组的近。三个含C染色体组的二倍体中，O. officinalis 和O. rhizomatis表现出较近的亲缘关系。值得注意的是，在O. eichingeri种内，尽管基于多基因的数据支持来自斯里兰卡的样品和来自非洲的样品聚成一个分支，但是较低的支持率表明, 两个地区的样品之间存在着较高的遗传分化。 4． 稻属中含CD染色体组的物种特产于拉丁美洲，包括O. alta、 O. grandiglumis 和O. latifolia。由于具有相同的染色体组类型、相似的形态特征和重叠的地理分布，这3个物种间的系统发育关系一直存在争论。另外，因为美洲大陆上没有含C和D染色体组的二倍体物种存在，对这些含CD染色体组物种的可能起源也有不同的假设被提出。使这个问题更具挑战性的是，尽管开展了世界范围的收集，至今仍没有找到含D 染色体组的二倍体物种。在本研究中，代表含C、CD和E染色体组以及含G染色体组的外类群共7个物种，共15份样品的2个叶绿体片段（matK和trnL-trnF）和3个核基因（Adh1，Adh2 和 GPA1）部分片段被测序。基于简约法、距离法和最大似然法的系统发育分析都充分支持含CD染色体组的物种起源于一次杂交事件的推论，并且显示，在物种形成时，含C染色体组的物种（O. officinalis 或O. rhizomatis 而非O. eichingeri）可能承担了母本，而含E染色体组的物种（O. australiensis）则可能承担了父本。另外，CCDD物种间非常一致的系统发育关系表明，非常大的分歧存在于 O. latifolia 和其它两个种（O. alta和O. grandiglumis）之间，这个结果倾向于将后两个种处理为同种或同种下不同分类群。 5． 基于178个克隆序列比较，探讨了ITS在稻属多倍体中的致同进化及其系统学意义。研究发现稻属异源四倍体的ITS存在不同形式的进化方式：首先，非洲BBCC四倍体O. eichingeri和O. punctata 的ITS片段同时保留了双亲拷贝，而且系统发育研究表明，二倍体的O. eichingeri和O. punctata 可能是这两个四倍体的直接祖先;其次，亚洲四倍体O. malampuzhaensis和O. minuta 的ITS仅定向保留母本ITS拷贝;另外，美洲CCDD四倍体的ITS序列发生了双向致同进化，即O. alta和O. grandiglumis的ITS位点一致化成C染色体组类型，而O. latifolia一致化成 D/E 染色体组类型。我们的研究进一步表明在利用ITS片段进行系统发育分析时，特别是涉及异源多倍体时必须慎重。 6． 利用栽培稻的微卫星引物，对含B/C染色体组的6个物种，157个体的SSR位点进行扩增。结果在这些亲缘关系稍远的野生稻中得到7个SSR位点，其中5个位点表现出多态性。比较BB、CC和BBCC物种SSR位点的每位点平均等位基因数A、多态位点百分率P和期望杂合度He ，3项指标发现，四倍体物种的遗传多样性，总体上要高于二倍体物种;二倍体物种内部，O. officnalis的遗传变异最大。另外，以遗传相关性为标准，讨论了B/C染色体组物种间的系统发育关系，同时推测了现存二倍体物种和4个BBCC四倍体物种的遗传关系。

中国郁金香属(广义)的系统学研究

郁金香属（Tulipa L.）是世界著名的观赏植物，广泛分布于欧洲、亚洲的温带地区以及非洲的西北部，中亚地区是其分布和多样化中心。该属包括老鸦瓣组、长柱组、郁金香组、毛蕊组、扭药组、鸡冠组和无毛组共七个组，40至150种。老鸦瓣组是东亚特有类群。中国共有郁金香属植物16种，主要分布于西北（新疆）以及中东部地区，其中老鸦瓣组有4个种，占该组全部种类的4/5。长期以来，由于对老鸦瓣组的生物学特性及其地理分布缺乏了解，该类群的归属问题一直都是该属系统学研究中争论的焦点之一。因此，本文以分布于我国的郁金香属作为主要研究对象，通过对其形态学、胚囊发育的比较胚胎学以及分子系统学研究，对老鸦瓣组的系统位置以及上述特征在该属分类中的意义进行了探讨。主要结果如下 1)通过对该属18种植物（包括土耳其的3个种）28个形态性状数据的分支分析，表明广义郁金香属并不是一个单系类群。Tulipa sect. Amana与该属其他四个组（sect. Orithyia、sect. Eriostemones、sect. Leiostemones和sect. Tulipanum）在分支树上各成一支，它们与Lloydia属构成一个大支的三个分支。同时，sect. Amana具有与子房近等长的花柱以及2-3（-4）个苞片等与郁金香属不同的形态特征。因此，我们认为sect. Amana应从广义郁金香属中独立出来，恢复其老鸦瓣属Amana Honda作为属的分类地位。 2)发现了一个新种：Amana kuocangshanica D.Y. Tan et D. Y. Hong。该种与A. erythronioides 和A. anhuiensis近缘，区别在于鳞茎皮内侧光滑无毛，下部叶披针形，自基部向上2/3处最宽，果喙长0.64±0.08 cm。 3）对16种植物叶表皮形态观察的结果表明，老鸦瓣属4个种的叶上表皮细胞为矩形或矩圆形、下表皮为菱形或矩形，垂周壁为直线形或波形，上表皮无气孔或气孔密度较小，这些特征与狭义郁金香属的种差异显著。在狭义郁金香属中，叶表皮特征在种间差异明显，可以作为分种及种间亲缘关系探讨的依据，但在组间没有明显的差异。 4）对19种植物的花粉形态观察表明，Amana属的4种为近椭球形、舟形和肾形， 外壁纹饰网状，网脊浅皱波状，与狭义郁金香属的15种具明显不同。在狭义郁金香属中，花粉外壁纹饰虽然在种间存在一定程度的差异，但对组的划分意义不大。 5）从种皮形态及微形态特征看，在所观察的16种植物中，Amana属的种子小，呈半月形，较厚，种柄明显，胚不易见;种皮纹饰为皱波状或不规则，与狭义郁金香属存在显著的差异。狭义郁金香属的12种在种皮纹饰、网眼大小及形状、网脊宽窄等方面均存在明显的差异，但组间无明显差别，说明这些特征在种的划分上具有一定的分类学意义。 6）对16种植物的胚囊发育过程观察表明：共有6种胚囊发育类型，即Fritillaria type、Drusa type、Tulipa iliensis type、Tulipa tetraphylla type、 Adoxa type和Eriostemones type。其中Tulipa iliensis type为所发现的一种新的胚囊发育类型。Tulipa iliensis、T. heterophylla和T. heteropetala3个种具有两种胚囊类型。在郁金香属中，胚囊的发育类型具有一定的系统学意义。 7）通过对21种郁金香以及猪牙花属2种植物基于nrDNA ITS区和cpDNA trnL-F 区的序列分析，发现广义郁金香属并非一单系类群，老鸦瓣属为猪牙花属的姐妹群。在狭义郁金香属中，sect. Orithyia、sect. Tulipanum以及sect. Eriostemones得到了该分子系统学分析的支持，而sect. Leiostemones是否成立及其系统关系问题尚有待于进一步研究。

芍药属芍药组的变异与进化：形态、染色体和分子证据

芍药属Paeonia是芍药科Paeoniacea内唯一的一个属。包括大约35个种，间断性的分布于北温带地区。其内三个组分别是牡丹组(sect. Moutan)、北美芍药组(sect. Onaepia)和芍药组(sect. Paeonia)。芍药组是芍药属中最大，也是唯一具有染色体倍性变化的一个组，现有大约25个种。其中，大约半数的种是四倍体（2n＝20），主要分布于地中海地区。虽然有证据表明四倍体类群大多为异源起源，但芍药属内一致的核型、相似的形态和重叠的地理分布使得它们的起源和分类一直存在很大的争议。本研究利用了4个细胞核DNA片段（乙醇脱氢酶基因－Adh1和 Adh2;nrDNA的内转录间隔区－ITS;甘油－3磷酸乙酰转移酶基因－GPAT）和4个叶绿体DNA片段（matK基因;基因间隔区trnL-trnF、psbA-trnH和rps16－trnQ）对芍药组的网状进化进行部分重建。并在此基础上，对推测为杂交起源的P. anomala进行了形态学和细胞发生的研究。主要研究结果如下： 1． 芍药组的系统学 利用多个DNA分子标记(cpDNA: matK, rps16-trnQ; nrDNA: ITS, Adh1, Adh2)，芍药组的二倍体和四倍体类群的系统发育被部分重建。基于最大简约法、贝叶斯法和最大似然法的系统发育分析表明： (a) 除P. tenuifolia之外，所有地中海地区分布的二倍体类群构成一个单系分支。该支与亚洲分布的二倍体类群以及P. tenuifolia成并系关系。 (b) 核和叶绿体DNA系统发育树的不一致，以及ITS、Adh基因的多态性的分析，表明部分二倍体类群间和四倍体类群间都存在杂交事件。这些类群包括：中国新疆阿勒泰地区分布的二倍体种P. anomala和P. intermedia（杂种个体XJ053）;高加索地区分布的二倍体种P. tenuifolia和P. daurica（杂种个体H9933）;土耳其分布的四倍体种P. mascula和P. kesrouanensis（杂交个体在两个居群中检测到）。 (c) 不一致的核和叶绿体DNA系统发育树，以及Adh基因表现出的相同多态性模式进一步支持早先的推测，即四倍体类群P. arietina是异源四倍体。同时扩大的数据分析显示P. obovata近缘类群为其母系亲本，P. tenuifolia近缘类群为其父系亲本。此外，形态上具有一定分化的两个亚种P. arietina ssp. arietina和P. arietina ssp. parnassica是多次起源。 (d) 现今地中海分布类群的近缘种参与了四倍体种P. kesrouanensis 和P. coriacea，以及P. wittmanniana和P. mascula的物种形成。依据Adh序列种内的多态性，初步推测P. kesrouanensis 和P. coriacea可能是异源四倍体，其另一个亲本与P. arietina母系亲本近源。而P. wittmanniana和P. mascula可能是同源四倍体。 (e) P. saueri和P. peregrina的两个亲本类群分别与P. tenuifolia和现今地中海分布二倍体种的近缘类群。 (f) Adh1基因序列中近缘的重组类型暗示：四倍体种P. macrophylla和P. banatica很可能是同倍性杂种。 2． P. anomala的杂交起源和细胞发生 P. anomala新疆阿勒泰地区分布的居群核型第一次被报道。该地区分布的类群核型为2A型(核型公式：2n = 2x = 10 = 6m+2sm+2st)。减数分裂的观察统计显示：阿勒泰地区所有检测个体都是臂内倒位杂合子。基于断片大小以及不同个体染色体桥和/或断片出现率的差异，我们发现该类群臂内倒位存在多态性。荧光原位杂交（FISH）证实P. anomala共有8个18S rDNA位点，并且定位了一个倒位片段在3号染色体的短臂上。此外，高频率的棒状二价体和单价体，以及低的同源染色体的配对系数说明该类群同源染色体间存在分化。染色体结构杂合能够导致部分花粉败育，所有被检测个体的花粉败育率约为8.8 – 29.4%。 扩大的居群取样以及多基因(cpDNA: matK, psbA-trnH, rps16-trnQ, trnL-trnF; nrDNA: ITS, Adh1, Adh2, Gpat)的系统发育分析，进一步支持P. anomala杂交起源于P. veitchii 和P. lactiflora的近缘类群。cpDNA片段和核DNA片段（ITS、GPAT）基因树间的不一致，以及P. anomala Adh1和Adh2序列表现出的多态性都支持该类群杂交起源的推测。不过，表型分析显示P. anomala在形态上偏向于P. veitchii。 3． P. obovata Maxim.四倍体类群的起源 与原先基于形态性状的认识不同，P. obovata 四倍体类群并不是一个严格意义上的同源四倍体。它起源于二倍体P. obovata中国和日本分布的两个地理亚种之间的杂交。Adh2基因仅在中国分布二倍体居群的扩增失败支持这一推测。此外，Adh基因系统发育分析显示：间断性分布于中国中部和中国东北部的四倍体类群是独立起源。

东亚—北美间断分布类群的分子生物地理学研究—以莲科和菖蒲科为例

在洲际间断生物地理学研究中，东亚—北美间断分布类群的分子生物地理学研究一直是关注和研究的热点。在本论文中我们选取了水生和半水生的植物代表类群，莲科（Nelumbonaceae）和菖蒲科（Acoraceae）作为研究对象，通过来自叶绿体、线粒体和核基因组的DNA 序列分析和微卫星分析，一方面探讨莲科的系统位置、揭示其间断地理格局的形成过程、重建菖蒲科的系统发育及其地理格局的形成过程的同时，另一方面，在总结前人研究成果的基础上，总结东亚—北美间断分布的基本特点。主要成果总结如下。 1. 菖蒲科的系统发育和分子生物地理学 菖蒲科仅含一属，菖蒲属（Acorus），共5 种。其中北美菖蒲（A. americanus） 分布于北美，其余4 种（A. calamus, A. gramineus, A. tatarinowii and A. rumphianus） 分布于亚洲的东部和南部。北美菖蒲和菖蒲（A. calamus）叶片中间具有明显的中肋；其余3 种不具有明显的中肋。本论文的19 份材料包含了4 个种，（不含较狭域分布的长苞菖蒲A. rumphianus），利用4 个叶绿体基因片段（trnL-F, psbA-trnH, rps16-trnK, rbcL）和1 个核基因片段（ITS）的序列重建菖蒲属的系统发育。结果表明（1）具有中肋和不具中肋的物种各自聚为一支；（2）具有中肋的菖蒲和北美菖蒲亲缘关系最近，构成东亚—北美间断种对关系；（3）在不具有中肋的一支内部，来自台湾的材料与其它材料差异最大，其余的材料也明显的分为了两类。基于rbcL 序列，使用松散分子钟模型、贝叶斯算法估算菖蒲属起源时间约为135.17 百万年（mya），菖蒲和北美菖蒲的间断分歧时间约为3.72mya。该结果支持菖蒲属为古老的单子叶植物，但东亚—北美间断物种分化时间较年轻。我们推测间断的种对可能通过白令陆桥，从东亚扩散到了北美。 2. 莲科的系统位置和分子生物地理学 莲科仅含一属，莲属（Nelumbo），两个种莲（N. nucifera）和美洲黄莲（N. lutea），间断分布于东亚、澳大利亚北部和北美东部。莲科的系统位置在形态和分子证据不一致。本论文使用了核基因18S rDNA、26S rDNA，叶绿体基因atpB、rbcL，线粒体基因NAD1 的序列重新构建莲科的系统位置并进行了分化时间推算。结果为：（1）叶绿体和核基因构建的严格一致树的拓扑结构不一致，叶绿体数据支持莲科和山龙眼科、悬铃木科具有较近的亲缘关系，核基因数据显示莲科位于真双子叶植物的基部；（2）5 个基因片段的合并分析结果显示，莲科与山龙眼科、悬铃木科聚为一支但支持率不高；（3）基于核基因、叶绿体和5 个基因的分别合并数据，使用松散分子钟模型、贝叶斯算法估算莲科起源时间分别为，113.13 、109.38 和110.35mya ，两个间断物种的分化时间为，3.77、4.34、5.85mya；（4）根据间断的时间和两个物种的遗传差异程度，现存的两个物种应是来自于东亚或北美的冰期残遗，而不是来自于两个大陆祖先种的独立进化后裔。 3. 莲的分子谱系地理学研究 我们采集了37 份莲的材料，10 份美洲黄莲的材料，代表了两者的主要分布区。我们选取了叶绿体基因（trnL-trnF, trnS-trnG, petB-petD 和psbA-trnH），线粒体基因COX1，以及11 个微卫星位点进行莲的分子谱系地理研究。DNA 序列显示莲和美洲黄莲均具有很低的遗传多样性；微卫星数据揭示了稍高于DNA 序列的遗传多样性。两物种相比，美洲黄莲的多样性较高。基于微卫星数据的遗传结构分析表明，莲存在明显的3 个地理分化区域，这三个区域的遗传分化显著（FST=0.542），说明莲远距离群体间基因交流有限。基于DNA 序列和微卫星数据的单倍型地理分布关系，我们推测东南亚地区是莲的避难所或冰期残遗区，冰期后群体分别向西和向北扩张。 4. 东亚—北美间断分布的一般特点 （1）东亚—北美东部间断分歧时间范围较长，从始新世中期甚至更早一直持续到1mya 左右；东亚—北美西部间断类群分化时间跨度相对小，集中在中新世时期；东亚—整个北美间断分化时间与东亚—北美东部间断类群一样经历较长时间；草本类群晚于木本类群形成间断分布式样，洲际间断分化时间与类群的起源时间并无相关性。（2）东亚与北美间断分布类群的起源地因类群而异。（3） 东亚与北美间断分布类群扩散方向呈不确定性。（4）东亚与北美间断类群扩散有三条可能的路径，即大西洋陆桥、白令陆桥和南半球跨洋长距离传播。

Phylogénie et biogéographie du genre Bauhinia s.l. (Leguminosae)

Bauhinia s.l. est le plus vaste genre de la tribu des Cercideae (Ceasalpinioideae, Leguminoseae), avec plus de 300 espèces. Il présente une distribution pantropicale et une grande variabilité morphologique. Ces deux caractéristiques ont limité les études taxonomiques sur le genre complet, résultant en plusieurs études taxonomiques de certains groupes seulement. En 1987, Wunderlin et al. proposent une vaste révision taxonomique de la tribu des Cercideae, basée sur des données morphologiques, et divisent le genre Bauhinia en quatre sous-genres. En 2005, Lewis et Forest publient une nouvelle classification préliminaire basée sur des données moléculaires, mais sur un échantillonnage taxonomique restreint. Leurs conclusions remettent en question le monophylétisme du genre Bauhinia et suggèrent plutôt la reconnaissance de huit genres au sein du grade Bauhinia s.l. Afin de vérifier les hypothèses de Lewis et Forest, et obtenir une vision plus claire de l’histroire de Bauhinia s.l., nous avons séquencé deux régions chloroplastiques (trnL-trnF et matK-trnK) et deux régions nucléaires (Leafy et Legcyc) pour un vaste échantillonnage représentatif des Cercideae. Une première phylogénie de la tribu a tout d’abord été réalisée à partir des séquences de trnL-trnF seulement et a confirmé le non-monoplylétisme de Bauhinia s.l., avec l’inclusion du genre Brenierea, traditionnellement reconnu comme genre frère de Bauhinia s.l. Afin de ne pas limiter notre vision de l’histoire évolutive des Cercideae à un seul type de données moléculaires et à une seule région, une nouvelle série d’analyse a été effectuée, incluant toutes les séquences chloroplastiques et nucléaires. Une phylogénie individuelle a été reconstruite pour chacune des régions du génome, et un arbre d’espèce ainsi qu’un arbre de supermatrice ont été reconstruits. Bien que certaines contradictions apparaissent entre les phylogénies, les grandes lignes de l’histoire des Cercideae ont été résolues. Bauhinia s.l. est divisée en deux lignées : les groupes Phanera et Bauhinia. Le groupe Bauhinia est constitué des genres Bauhinia s.s., Piliostigma et Brenierea. Le groupe Phanera est constitué des genres Gigasiphon, Tylosema, Lysiphyllum, Barklya, Phanera et Schnella. Les genres Cercis, Adenolobus et Griffonia sont les groupes-frères du clade Bauhinia s.l. Au minimum un événement de duplication de Legcyc a été mis en évidence pour la totalité de la tribu des Cercideae, excepté Cercis, mais plusieurs évènements sont suggérés à la fois par Legcyc et Leafy. Finalement, la datation et la reconstruction des aires ancestrales de la tribu ont été effectuées. La tribu est datée de 49,7 Ma et est originaire des régions tempérées de l’hémisphère nord, probablement autour de la mer de Thétys. La tribu s’est ensuite dispersée vers les régions tropicales sèches de l’Afrique, où la séparation des groupes Bauhinia et Phanera a eu lieu. Ces deux groupes se sont ensuite dispersés en parallèle vers l’Asie du sud-est au début du Miocène. À la même période, une dispersion depuis l’Afrique de Bauhinia s.s. a permis la diversification des espèces américaines de ce genre, alors que le genre Schnella (seul genre américain du groupe Phanera) est passé par l’Australie afin de rejoindre le continent américain. Cette dispersion vers l’Australie sera également à l’origine des genres Lysiphyllum et Barklya

Phylogenetic relationships within the moss family Bryaceae based on chloroplast DNA evidence

The Bryaceae are a large cosmopolitan family of mosses containing genera of considerable taxonomic difficulty. Phylogenetic relationships within the family were inferred using data from chloroplast DNA sequences (rps4 and trnL-trnF region). Parsimony and maximum likelihood optimality criteria, and Bayesian phylogenetic inference procedures were employed to reconstruct relationships. The genera Bryum and Brachymenium are not monophyletic groups. A clade comprising Plagiobryum, Acidodontium, Mielichhoferia macrocarpa, Bryum sects. Bryum, Apalodictyon, Limbata, Leucodontium, Caespiticia, Capillaria (in part: sect. Capillaria), and Brachymenium sect. Dicranobryum, is well supported in all analyses and represents a major lineage within the family. Section Dicranobryum of Brachymenium is more closely related to section Bryum than to the other sections of Brachymenium, as are Mielichhoferia macrocarpa and M. himalayana. Species of Acidodontium form a clade with Anomobryum julaceum. The grouping of species with a rosulate gametophytic growth form suggests the presence of a 'rosulate' clade similar in circumscription to the genus Rosulabryum. Mielichhoferia macrocarpa and M. himalayana are transferred to Bryum as B. porsildii and B. caucasicum, respectively.

Phylogenetic relationships and infrageneric classification of Epidendrum subgenus Amphiglottium (Laeliinae, Orchidaceae)

Epidendrum L. is the largest genus of Orchidaceae in the Neotropical region; it has an impressive morphological diversification, which imposes difficulties in delimitation of both infrageneric and interspecific boundaries. In this study, we review infrageneric boundaries within the subgenus Amphiglottium and try to contribute to the understanding of morphological diversification and taxa delimitation within this group. We tested the monophyly of the subgenus Amphiglottium sect. Amphiglottium, expanding previous phylogenetic investigations and reevaluated previous infrageneric classifications proposed. Sequence data from the trnL-trnF region were analyzed with both parsimony and maximum likelihood criteria. AFLP markers were also obtained and analyzed with phylogenetic and principal coordinate analyses. Additionally, we obtained chromosome numbers for representative species within the group. The results strengthen the monophyly of the subgenus Amphiglottium but do not support the current classification system proposed by previous authors. Only section Tuberculata comprises a well-supported monophyletic group, with sections Carinata and Integra not supported. Instead of morphology, biogeographical and ecological patterns are reflected in the phylogenetic signal in this group. This study also confirms the large variability of chromosome numbers for the subgenus Amphiglottium (numbers ranging from 2n = 24 to 2n = 240), suggesting that polyploidy and hybridization are probably important mechanisms of speciation within the group.

Five vicarious genera from Gondwana: the Velloziaceae as shown by molecules and morphology

Background and Aims The amount of data collected previously for Velloziaceae neither clarified relationships within the family nor helped determine an appropriate classification, which has led to huge discordance among treatment by different authors. To achieve an acceptable phylogenetic result and understand the evolution and roles of characters in supporting groups, a total evidence analysis was developed which included approx. 20 % of the species and all recognized genera and sections of Velloziaceae, plus outgroups representatives of related families within Pandanales. Methods Analyses were undertaken with 48 species of Velloziaceae, representing all ten genera, with DNA sequences from the atpB-rbcL spacer, trnL-trnF spacer, trnL intron, trnH-psbA spacer, ITS ribosomal DNA spacers and morphology. Key Results Four groups consistently emerge from the analyses. Persistent leaves, two phloem strands, stem cortex divided in three regions and violet tepals support Acanthochlamys as sister to Velloziaceae s. s., which are supported mainly by leaves with marginal bundles, transfusion tracheids and inflorescence without axis. Within Velloziaceae s. s., an African Xerophyta + Talbotia clade is uniquely supported by basal loculicidal capsules; an American clade, Barbacenia s. l. + Barbaceniopsis + Nanuza + Vellozia, is supported by only homoplastic characters. Barbacenia s. l. (Aylthonia + Barbacenia + Burlemarxia + Pleurostima) is supported by a double sheath in leaf vascular bundles and a corona; Barbaceniopsis + Nanuza + Vellozia is not supported by an unambiguous character, but Barbaceniopsis is supported by five characters, including diclinous flowers, Nanuza + Vellozia is supported mainly by horizontal stigma lobes and stem inner cortex cells with secondary walls, and Vellozia alone is supported mainly by pollen in tetrads. Conclusions The results imply recognition of five genera (Acanthochlamys (Xerophyta (Barbacenia (Barbaceniopsis, Vellozia)))), solving the long-standing controversies among recent classifications of the family. They also suggest a Gondwanan origin for Velloziaceae, with a vicariant pattern of distribution.

Relações evolutivas entre Passiflora actinia Hooker e Passiflora elegans masters (Passifloraceae)

Em estudos prévios sobre a filogenia de Passiflora, as espécies P. actinia e P. elegans destacaram-se pela sua grande similaridade genética, apesar de sua classificação em séries taxonômicas distintas. As duas espécies apresentam distribuição geográfica muito diferente. Enquanto P. actinia é encontrada em áreas de Mata Atlântica desde o estado do Espírito Santo até o Rio Grande do Sul (RS), P. elegans está restrita ao RS e a poucas regiões limítrofes. Para melhor avaliar as relações evolutivas entre estas duas espécies foram realizadas coletas intensivas em todo o estado e desenvolvidos testes quanto às seqüências dos espaçadores intergênicos cloroplasmáticos trnL-trnF e psbA-trnH, e dos espaçadores transcritos dos genes ribossomais nucleares ITS de plantas de diferentes localidades. As análises revelaram uma baixa variabilidade intraespecífica, e evidenciaram um perfil genético próprio a cada espécie. Nas comparações interespecíficas, foram utilizadas seqüências de espécies do subgênero (Passiflora) estudadas previamente, pertencentes às séries Simplicifoliae e Lobatae, as mesmas de P. actinia e P. elegans, respectivamente. Nos três marcadores as menores distâncias genéticas encontradas foram entre estas duas espécies, sugerindo o pouco tempo de divergência entre elas. Estas comparações não mostraram diferenças marcantes nas diversidades dentro e entre as duas séries, indicando similaridade genética entre elas Apesar da intensa amostragem realizada na área limítrofe das distribuições de P. actinia e P. elegans, somente foi encontrado um híbrido entre as duas. Além do fenótipo morfológico intermediário, o híbrido pôde ser reconhecido através das suas características genéticas, o espaçador nuclear ITS apresentando padrão aditivo nos sítios variáveis destas duas espécies; as seqüências dos marcadores cloroplasmáticos foram iguais às de P. actinia, indicando que esta é a espécie doadora deste genoma. Os padrões genéticos e geográficos destas duas espécies sugerem que o processo de especiação que se desenvolveu entre as duas seja recente e tenha ocorrido em alopatria, estando provavelmente ligado aos eventos geológicos do Holoceno que influenciaram a migração da Mata Atlântica no RS. A investigação das características abióticas das regiões de ocorrência das espécies não apresentou grandes dissimilaridades, podendo indicar que a atual segregação espacial deva-se à fragmentação florestal ou que haja exclusão competitiva entre elas, pois apresentam nichos ecológicos muito semelhantes.