基于染色体计数和ITS序列初步探讨横断山区柴胡属植物(伞形科)的系统发育

横断山区是中国柴胡属Bupleurum植物的分布中心。本文对横断山区6个种2变种进行了染色体记数报道,其中4个种2变种是首次报道。对横断山区的10个种4个变种、中国北方（河北和黑龙江）的3个种的nrDNA ITS进行测序,同时从GenBank里面下载同属的来自非洲和地中海西部的16个nrDNA ITS序列数据,结合染色体数目变化结果,初步探讨了横断山区柴胡属植物的系统发育。结果表明横断山区可能是现代柴胡属植物的频度中心和多样分布中心之一。它们的祖先种可能是非洲北部的木本柴胡属植物B.fruticosum,或者是地中海西部的柴胡属植物,推测是通过中东和高加索扩散而形成的,其中与非洲南部特有种B.mundtii的亲缘关系也较近;染色体基数演化趋势是：8是较原始基数,6和7是次生基数,其染色体异基数变异和多倍化可能是物种形成、进化以及向外扩散的主要方式;在ITS系统发育树中,中国柴胡属植物染色体基数为8的种类聚为一支,染色体基数为6和7的种类聚为了一支,不支持舒璞等（1998）关于中国柴胡属的属下分类系统。结合已有的形态学、细胞学、孢粉学证据和ITS系统发育树,建议窄竹叶柴胡B.marginatum var.stenophyllum独立成种。     

紫乌头复合体nrDNA的ITS序列与系统发育分析

对乌头属 Aconitum L. 27个类群的nrDNA ITS序列进行了简约法与邻接法分析,两种方法得到的系统发育树基本一致。乌头亚属subgen. Aconitum 的蔓乌头系 ser. Volubilia 不是一个单系类群,显柱乌头系 ser. Stylosa 与兴安乌头系ser. Ambigua 各自作为单系类群也没有得到支持。特产于云南西北部横断山区的一些种之间存在非常近的系统发育关系,说明这些种可能是近期物种形成的产物。紫乌头 A. delavayi 复合体的不同类群在系统发育树上位     

Cytological study of Tibetia (Fabaceae) in the Hengduan Mountains region, China

The Hengduan Mountains comprise one of the world's most important hot spots of biodiversity. Tibetia (Ali) H.P. Tsui (Fabaceae), which has four or five species in two sections, is one of the genera endemic to the region. This paper describes for the first time the karyotype of three of those species. The chromosome counts of all three are 2n = 16. The karyotypes of the species examined contain chromosomes of variable karyotypic symmetry with centromeres at median and submedian positions that correlate with the morphological characteristics of the species. Karyotypic variation at the diploid level appears to be the predominant feature of chromosome evolution in the genus and may provide a clue to the study of evolutionary patterns of plants in this region. Received: June 12, 2001 / Accepted: September 12, 2001     

Polyploid speciation inHedera (Araliaceae): Phylogenetic and biogeographic insights based on chromosome counts and ITS sequences

Variation in chromosome number and internal transcribed sequences (ITS) of nrDNA is used to infer phylogenetic relationships of a wide range ofHedera species. Polyploidy was found to be frequent inHedera, with diploid, tetraploid, hexaploid and octoploid populations being detected. Nucleotide additivity occurs in the ITS sequences of one tetraploid (H. hibernica) and two hexaploid species (H. maderensis, H. pastuchovii), suggesting that all three species originated by allopolyploidisation. ITS sequence polymorphism and nucleotide characters may indicate the presence of an ancient genome persistent only in some allopolyploid species. Phylogenetic analyses of ITS sequence data reveal two lineages ofHedera: one containing all sequences belonging to extant diploids plus the tetraploidH. algeriensis, and a second that includes this ancient ITS type and others exclusive to several polyploid species. The origin of the polyploids is evaluated on the basis of morphology, chromosome counts, ITS sequence polymorphism, and phylogenetic analyses. Reconstruction of reticulate evolution inHedera agrees with two allopolyploid areas on both sides of the Mediterranean basin. Morphological, molecular and cytological evidence also suggests an active dispersal ofHedera populations that may account for three independent introductions in Macaronesia.     

Chromosome counts and karyotypes in Chaetoseris and Stenoseris (Asteraceae-Cichorieae) from the Hengduan Mountains of SW China

Chaetoseris and Stenoseris are two morphologically close genera from the tribe Cichorieae of the sunflower family and they are endemic in alpine eastern Himalayas to the Hengduan Mountains of SW China.Mitotic chromosome numbers and karyotypes are reported for 12 populations representing eight species of Chaetoseris and two species of Stenoseris from the Hengduan Mountains region.Eight species are new and the other two provide confirmation of previous reference.All Chaetoseris and Stenoseris taxa are diploidy with 2n ＝ 16 and their basic number is tentatively suggested as x ＝ 8.Karyotypes of Chaetoseris and Stenoseris are similar to each other with 2A and 2B for the former and 2A for the latter.Cytological data of chromosomal numbers and karyotypes support a close relationship of the two genera.Currently no polyploids are found for these two genera and it seems that polyploidization has played a minor role in their evolutionary speciation in the Hengduan Mountains region.     

用叶绿体ndhF和核核糖体ITS序列推断李属(蔷薇科)的系统发育

Sequences of the chloroplast ndhF gene and the nuclear ribosomal ITS regions are employed to reconstruct the phylogeny of Prunus (Rosaceae), and evaluate the classification schemes of this genus. The two data sets are congruent in that the genera Prunus s.l. and Maddenia form a monophyletic group, with Maddenia nested within Prunus. However, the ndhF data set is incongruent with the ITS data supporting two major groups within Prunus one consisting of subgenera Laurocerasus (including Pygeum) and Padus as well as the genus Maddenia and another of subgenera Amygdalus, Cerasus, and Prunus. The ITS data, on the other hand, support a clade composed of subgenera Amygdalus and Prunus and Prunus sect. Microcerasus in addition to a paraphyletic grade of subgenera Laurocerasus and Padus (and the genus Maddenia) taxa. In general, the subgeneric classifications of Prunus s.l. are not supported. The ITS and ndhF phylogenies differ mainly in interspecific relationships and the relative position of the Padus/Laurocerasus group. Both ITS and ndhF data sets suggest that the formerly recognized genus Pygeum is polyphyletic and that the distinction of the subgenera Padus and Laurocerasus is not supported. The biogeographic interactions of the temperate and tropical members in the Padus/Laurocera- sus/Maddenia alliance including Pygeum are shown to be highly dynamic and complex.     

Chromosome counts and karyotypes in Chaetoseris and Stenoseris (Asteraceae‐Cichorieae) from the Hengduan Mountains of SW China

Abstract Chaetoseris and Stenoseris are two morphologically close genera from the tribe Cichorieae of the sunflower family and they are endemic in alpine eastern Himalayas to the Hengduan Mountains of SW China. Mitotic chromosome numbers and karyotypes are reported for 12 populations representing eight species of Chaetoseris and two species of Stenoseris from the Hengduan Mountains region. Eight species are new and the other two provide confirmation of previous reference. All Chaetoseris and Stenoseris taxa are diploidy with 2n= 16 and their basic number is tentatively suggested as x= 8. Karyotypes of Chaetoseris and Stenoseris are similar to each other with 2A and 2B for the former and 2A for the latter. Cytological data of chromosomal numbers and karyotypes support a close relationship of the two genera. Currently no polyploids are found for these two genera and it seems that polyploidization has played a minor role in their evolutionary speciation in the Hengduan Mountains region.     

横断山区高等真菌物种多样性研究进展

中国西南横断山地区地形复杂、山陡谷深、生境多样,是真菌栖息、繁衍和分化的理想地区。国内外真菌学家们对该区的真菌早就给予过关注和研究,曾报道了该区真菌4000余种,约占我国已知真菌总种数的40%。然而,总的说来,人们对该区真菌物种多样性的了解还知之甚少。近十余年来,我们对该地区的真菌中的高等真菌部分进行了十余次野外考察和采集,共获得标本7000余份、分子材料4200余份、真菌及其生境照片1万余张,这是研究和认识该区真菌多样性不可或缺的第一手科学资料。通过对该区有关标本的研究,正式发表了2新属及50余新种;但还有大量新物种和一些新属有待进一步研究和描述。加强真菌多样性的研究,不仅具有重要的科学意义,同时为经济发展服务也具有重要的现实意义。     

Allozyme variation and population differentiation of the Aconitum delavayi complex (Ranunculaceae) in the Hengduan Mountains of China

The Aconitum delavayi complex is a group of four climbing species with trisect-leaves occurring in the Hengduan Mountains. The species of this complex are highly localized on very narrow regions with quite small population sizes. Because of rapid environmental changes recently in the Hengduan Mountains, this complex shows complicated morphological variability, which makes it difficult to delimit species. In the present study, 10 enzyme systems coding for 14 putative loci were employed to detect the interspecific and intraspecific genetic variation of the complex. In addition to low genetic diversity within all eight populations surveyed, the results indicate that A. episcopale is a distinct species because of high genetic identities among its three populations. Very low genetic divergence among populations of A. stapfianum and A. delavayi suggests that the two species should be treated as a single one.     

Phylogenetic analysis of the genus Hexachlamys (Myrtaceae) based on plastid and nuclear DNA sequences and their taxonomic implications

Myrtaceae are one of the most species‐rich families of flowering plants in the Neotropics. They include several complex genera and species; Hexachlamys is one of the complex genera. It has not been recognized as a distinct genus and has been included in Eugenia, based on morphological grounds. Therefore, molecular systematic studies may be useful to understand and to help to solve these relationships. Here, we performed a molecular phylogenetic analysis using plastid and nuclear data in order to check the inclusion of Hexachlamys in Eugenia. Plastid (accD, rpoB, rpoC1, trnH‐psbA) and nuclear (ITS2) sequence data were analysed using Bayesian and maximum parsimony methods. The trees constructed using ITS2 and trnH‐psbA were the best able to resolve the relationships between species and genera, revealing the non‐monophyly of Hexachlamys. The molecular phylogenetic analyses were in agreement with previous morphological revisions that have included Hexachlamys in Eugenia. These results reinforce the importance of uniting knowledge and strategies to understand better issues of delimitation of genera and species in groups of plants with taxonomic problems. © 2013 The Linnean Society of London, Botanical Journal of the Linnean Society, 2013, 172 , 532–543.     

Phylogenetic relationships in Bupleurum (apiaceae) based on nuclear ribosomal DNA its sequence data

BACKGROUND AND AIMS: The genus Bupleurum has long been recognized as a natural group, but its infrageneric classification is controversial and has not yet been studied in the light of sequence data. METHODS: Phylogenetic relationships among 32 species (35 taxa) of the genus Bupleurum were investigated by comparative sequencing of the ITS region of the 18-26S nuclear ribosomal DNA repeat. Exemplar taxa from all currently accepted sections and subsections of the genus were included, along with outgroups from four other early branching Apioideae genera (Anginon, Heteromorpha, Physospermum and Pleurospermum). RESULTS: Phylogenies generated by maximum parsimony, maximum likelihood, and neighbour-joining methods show similar topologies, demonstrating monophyly of Bupleurum and the division of the genus into two major clades. This division is also supported by analysis of the 5.8S coding sequence alone. The first branching clade is formed by all the species of the genus with pinnate-reticulate veined leaves and B. rigidum with a unique type of leaf venation. The other major clade includes the remaining species studied, all of which have more or less parallel-veined leaves. CONCLUSIONS: These phylogenetic results do not agree with any previous classifications of the genus. Molecular data also suggest that the endemic Macaronesian species B. salicifolium is a neoendemic, as the sequence divergence between the populations in Madeira and Canary Islands, and closer mainland relatives in north-west Africa is small. All endemic north-west African taxa are included in a single unresolved but well-supported clade, and the low nucleotide variation of ITS suggests a recent radiation within this group. The only southern hemisphere species, B. mundii (southern Africa), is shown to be a neoendemic, apparently closely related to B. falcatum, a Eurasian species.     

The infrageneric taxonomy of Chaerophyllum (Apiaceae) revisited: new evidence from nuclear ribosomal DNA ITS sequences and fruit anatomy

Evolutionary relationships among 65 Chaerophyllum spp. were inferred from nuclear ribosomal DNA internal transcribed spacer (ITS) sequence variation. Thirty‐one species, represented by 158 mericarp samples, were analysed for fruit anatomical character variation, employing phylogenetic and phenetic methods to explore their congruence with infrageneric divisions based on molecular data. Phylogenetic trees inferred from molecular data using maximum likelihood (ML) and Bayesian inference (BI) methods corroborated the division of the genus into four sections: Chaerophyllum, Dasypetalon, Physocaulis and Chrysocarpum. From among the newly sequenced species, the Greek endemic C. heldreichii was grouped with section Chaerophyllum, whereas the highly variable Asian C. reflexum–C. villosum complex formed an early‐branching paraphyletic assemblage in section Chrysocarpum. The recently described C. karsianum has an identical ITS sequence to C. bulbosum, whereas C. aksekiense was clearly separated from the morphologically similar C. macrospermum. Our study confirmed the postulated synonymy of several species on the basis of morphology, but also demonstrated distant relationships between some morphologically similar species. With the exception of the monotypic section Physocaulis, we were unable to find carpological traits matching sectional divisions. We hypothesize that fruit characters evolved rapidly as a result of diversification of members of the genus in different habitats. © 2015 The Linnean Society of London, Botanical Journal of the Linnean Society, 2015, 178 , 298–313.     

Phylogenetic relationships of Old World Brassicaceae from Iran based on nuclear ribosomal DNA sequences

Phylogenetic analysis of 155 nuclear rDNA ITS sequences among them 19 Iranian endemic genera were used to elucidate phylogenetic relationships of Old World Brassicaceae from Iran in the context of the most recent tribal system suggested by Al-Shehbaz et al. [Al-Shehbaz, I.A., Beilstein, M.A, Kellogg, E.A., 2006. Systematics and phylogeny of the Brassicaceae (Cruciferae): an overview. Plant Syst. Evol. 259, 89–120]. Iranian endemic taxa are assigned to 16 clades, 15 of these correspond to recognized tribes. Our data support the recent tribal recognition of Calepina and relatives and further indicate that the Orychophragmus clade (with Conringia planisiliqua and Orychophragmus) may be recognized as a new tribe. Our data also support the inclusion of 13 genera not previously studied, or with unresolved positions in previous phylogenetic analyses in 10 tribes with the tribal assignment given in parentheses: Acanthocardamum (Aethionemeae), Alyssopsis (Camelineae), Anastatica (Malcolmieae), Asperuginoides (Cochlearieae), Camelinopsis (Thlaspideae), Didymophysa (Thlaspideae), Dielsiocharisi (Camelineae), Lachnoloma (Anchonieae), Micrantha (Anchonieae), Noccidium (Camelineae), Octoceras (Euclidieae), Pseudofortuynia (Sisymbrieae) and Streptoloma (Euclidieae). ITS data and morphological characters further indicate that the remaining five genera, i.e., Acanthocardamum, Olimarabidopsis, Brossardia, Noccidium and Zuvanda may be subsumed under Aethionema, Alyssopsis, Noccaea, Capsella and Conringia, respectively. Alyssum, Chorispora, Fibigia and Goldbachia are paraphyletic and Conringia, Malcolmia, Matthiola are polyphyletic taxa.