新书介绍

<正> 《中国海菜花属的系统植物学与物种生物学研究》一书,是作者在武汉大学生物系孙祥钟教授指导下所作的博士论文,最近由武汉大学出版社出版发行。这部专著展示了作者从当今植物分类学的两个发展方向——系统植物学与物种生物学——对中国海菜花属植物的研究成果。前半部分属系统植物学范畴。作者以居群概念,利用栽培观察、同工酶电泳、野外居群考察和形态研究等诸方面得到的证据,在数值分类和分支分类研究的基础上,以综合分类学的观点解决了中国海菜花属植物的分类和系统发育问题。     

中国海菜花属植物三种同工酶的酶谱式样及其系统学含义

本文研究了代表中国海菜花属全部已知分类群的18个野生居群的过氧化物酶同工酶(POX),和其中7个居群的细胞色素氧化酶同工酶(COX),3个居群的酯酶同工酶酶谱式样及其系统学含义。结果表明:所有分类群的POX酶谱和龙舌草的COX酶谱均具多形现象,暗示编码有关同工酶的基因在种内居群间存在差异;3种同工酶都具分类价值,其分类结果与形态学分类结果一致支持将出水水菜花归并到水菜花中,取消海菜花的两个变种——路南海菜花和通海海菜花,而仅保留变种波叶海菜花。此外,本文初步揭示了POX酶谱式样与繁育系统的相关性。     

中国慈姑属系统发育的研究

本文研究了中国慈姑属植物间的系统发育关系。选取了12个与该属系统发育有较重要关系的特征,将8个已知分类群与外类群刺果泽泻属进行了比较。应用数量分支分析的Farris-Wagner方法,建立了中国慈姑属系统发育分支图。讨论了各分类群间的系统发育关系、该属起源和数量分支分析方法等问题。     

中国紫金牛属的分支分类学研究

基于60个形态学性状,对中国广义报春花科（Primulaceae s.l.）紫金牛属（Ardisia）90个分类群的系统发育关系运用分支分析方法进行了分析。采用最简约性分析得到了100个同等简约树。50%多数规则一致树的分支结构与以前建立的紫金牛亚属划分系统基本一致。外类群酸藤子属、铁仔属、密花树属聚在分支树的最基部,紫金牛属为一单系类群。形态分支树的一致性指数和保持性指数和各分支内部支持率均较低,只在种与变种或亚种之间获得较高的支持率。高木亚属、腋序亚属、短序亚属、顶序亚属处于分支树较为基部的位置,推测这四个亚属的类群在紫金牛属中较为原始;圆齿亚属和锯齿亚属共同组成一大支,二者亲缘关系紧密,推测这两个亚属为该属中最为进化的类群。结合形态学对属内系统发育关系进行了讨论和推测了一些性状的演化趋势,以期为分类修订提供依据。     

雪雀属系统发育关系的研究（雀形目：文鸟科)

雷雀属Montifringilla7种36个形态特征作为分类单元,进行支序分析。以麻雀属Passer、石雀属Petronia部分种类作为比较外群,讨论雪雀属的分类地位及其与近缘属麻雀属、石雀属系统发育关系;分析了雪雀属内种间的系统发育。支序分析的结果表明雪雀属为单系群,建议将雪雀属划分成两个亚属,讨论了雪雀属种类在进货上的位置,在3个近缘属的系统发育关系中,麻雀属类群较原始,雪雀属类群较进化,石雀属在进货中介于二之间。     

国产木兰科含笑亚族植物的叶结构及其分类学意义

为了探讨含笑亚族Micheliinae植物属间关系以及含笑属Michella属下等级的划分和一些种的分类学地位,利用放大镜和体视镜对国产含笑亚族植物3属共28个分类群的叶结构特征进行了观察与研究。结果表明：含笑属、合果木属Paramichelia和观光木属Tsoongiodendron植物的脉序类型、一级脉、二级脉及其间脉和三级脉等特征表现出较高的一致性,三属间无明显的划分界限;但是,盲脉及其分支、网眼的发育和大小、叶缘末级脉等叶结构特征存在种间差异。在含笑属中,树状盲脉首次被观察到。用UPGMA对所研究28个分类群、木兰属Magnolia两个亚属各2种和鹅掌楸Liriodendron chinense的叶结构特征和形态学特征共46个性状进行聚类分析。分析结果表明：（1）合果木Pbaillonii和观光木T.odorum与含笑属的种聚为一支,因此,支持将合果木属和观光木属归并入含笑属;（2）这些特征为含笑属内组的划分提供了分类学意义;（3）基于叶结构特征、形态学特征、地理分布、聚类分析,对含笑属内一些种类的分类地位进行了讨论。     

安徽黄精属(Polygonatum)植物的分支分析

以形态学为依据 ,结合细胞分类学、叶表皮和花粉形态的研究成果 ,用分支分析的方法探讨了安徽产黄精属 11种植物的种间演化关系。在分支分析中 ,选择万寿竹属、舞鹤草属和竹根七属作为复合外类群。根据复合外类群比较原则和一般演化规律 ,确定性状极性。结果表明 :( 1)琅琊黄精与长苞黄精为姊妹群 ,并与其余 9种黄精明显分为 2大支 ;( 2 )另一支 9种黄精中 ,玉竹、长梗黄精和金塞黄精亲缘关系密切并与其余 6种再分为 2支 ;( 3)剩下 6种黄精中 ,距药黄精和多花黄精 2种互生叶黄精极为密切并与 4种轮生叶黄精分为 2组 ;( 4 ) 4种轮生叶黄精中 ,黄精、轮叶黄精和安徽黄精亲缘关系最为密切     

柳属的分支系统学分析

基于61个广义的形态学性状,以杨属为外类群对柳属进行了分支系统学分析.经简约性分析,得到了21个同等简约的分支树,其严格一致树支持柳属为一个自然的分类群,但不支持将钻天柳属和心叶柳属从柳属中划分出去独立成属,也不支持对柳属进行属级水平上的细分,后两个结果得到孢粉学和分子系统学研究的支持.柳亚属为一个单系分支,皱纹柳亚属和黄花柳亚属也形成了一个单系分支.根据本研究的结果,建议将柳属划分为钻天柳亚属、柳亚属及黄花柳亚属3个亚属.由于较低的靴带支持率,其系统发育关系难于探讨.鉴于分支分析的一致性指数、保持性指数、各分支内部的支持率均不高,柳属的属下分类系统的划分有待进一步的研究.     

以礼草属系统发育的分析

基于分支系统学的原理和方法。对禾本科以礼草属进行了系统发育分析,以礼草属是个单系在群,它的３２个外部性状选作极性分析。鹅观草属中的肃草作为外类群,采用ＰＡＵＰ程序对矩阵进行运算,获得了１个最简约的谱系分支图。在分支图上,以民礼草属２６个种可以归为３个组,但不适合于划分系,３个组中各组包含的种数分别与传统分类的３个组基本吻合,从而支持了传统分类的结果。同时,分支图还展示了各个类群间的亲缘演化关系,其     

基于线粒体COⅠ基因的凤蝶亚科部分物种系统发育关系

通过对凤蝶亚科Papilioninae11属27种的线粒体细胞色素c氧化酶Ⅰ基因(COⅠ)序列测定,以阿波罗绢蝶Parnassius apollo为外群,分别采用邻接法(NJ)、最大简约法(MP)和最大似然法(ML)构建凤蝶亚科的系统发育树,初步探讨了其系统发育关系。结果显示,凤蝶亚科11属27个物种分为4个主要的分支,分别是裳凤蝶族Troidini、凤蝶族Papilionini、燕凤蝶族Lampropterini和喙凤蝶族Teinopalpini,与传统分类学观点一致。其中,燕凤蝶族构成凤蝶亚科系统发育树基部的一个独立分支,且为单系发生。凤蝶属Papilio中美凤蝶亚属Menelaides和翠凤蝶亚属Princeps首先相聚,华凤蝶亚属Sinoprinceps和凤蝶亚属Papilio亲缘关系较近,随后两分支再聚为一支,构成凤蝶属。本研究结果从分子水平验证了凤蝶亚科传统的形态分类地位,并为澄清凤蝶亚科物种间系统发育关系提供了基础资料。     

基于流式细胞术的海菜花属植物基因组大小测定

利用改良的裂解液P1,以中国古代莲(Nelumbo nucifera Gaertn.Fruct.et Semin)为外标,采用流式细胞术(FCM)对海菜花属(Ottelia Pers.)6个代表性物种及3个存疑类群的基因组大小(C值)进行测定,并对海菜花属系统发育关系进行评估。结果显示:所测定的材料中,水菜花(Ottelia cordata(Wall.)Dandy)C值最小(6.759 pg),灌阳水车前(O.guanyangensis Z.Z.Li,S.Wu&Q.F.Wang)C值最大(12.929 pg);对基因组大小与该属系统发育树进行比较分析,结果发现该属植物基因组大小与系统发育关系具有一致性;对海菜花属3个存疑类群进行分子系统学研究,结果发现存疑类群与嵩明海菜花(Ottelia acuminata var.songmingensis Z.T.Jiang,H.Li&Z.L.Dao)及灌阳水车前的关系最近,而与水菜花的关系较远,这与基因组大小变异相一致。根据基因组大小进一步推测3个存疑类群很可能为二倍体。本研究结果可为海菜花属植物的系统学研究提供新资料,同时为该属植物基因组学研究提供基础数据。     

SYSTEMATIC EVALUATION OF THE GENUS HILDENBRANDIA (RHODOPHYTA): A SYNTHESIS OF TECHNIQUES

The evolutionary relationships among members of the red algal genus Hildenbrandia have not been well understood for several reasons. For example, the genus contains both marine and freshwater representatives, all of which are non-calcified and crustose, and few have definitive morphological characters for classification. Hildenbrandia is also assumed to be completely asexual (reproduction by tetrasporangia in marine forms and by gemmae in freshwater populations), and characters of the female gametangial system and post-fertilization structures are not available for comparative studies. Currently there are 14 marine and five freshwater species and infraspecific taxa recognized within the genus. We used phylogenetic analyses (parsimony, distance and maximum likelihood) of DNA sequences of commonly employed genes ( rbc L and 18S rRNA) to examine the evolutionary relationships among representatives of many of these taxa. In addition, we employed morphometrics (principal co-ordinates and cluster analyses) of several measured characters of these same representatives, as well as all available type specimens, to determine the number of morphologically-delimited entities within the genus. Thus far our results indicate that some characters traditionally used to distinguish species of Hildenbrandia , such as tetrasporangial division pattern, may not be useful in some cases, and a revision of the taxonomy of the genus will be necessary. Although the marine and freshwater species of Hildenbrandia appear to be well separated in our molecular analyses of European specimens, this trend was not observed for North American specimens. High sequence divergence values were calculated for both the rbc L and 18S rRNA genes of Hildenbrandia , compared to other red algal genera.     

Molecular phylogenetic study of the basidiomycetous anamorphic yeast genusTrichosporon and related taxa based on small subunit ribosomal DNA sequences

Small subunit ribosomal DNA sequences of all species of the basidiomycetous anamorphic yeast genusTrichosporon were determined, and phylogenetic trees were constructed by the neighbor-joining and maximum likelihood methods. The sequence data showed that, with the exception ofT. pullulans, the genus is monophyletic, although its members have two different major ubiquinones, Q9 and Q10. The genus can be divided phylogenetically into three major clusters. Species with Q10 as the major ubiquinone constitute a single cluster, while those with Q9 form two clusters.Trichosporon pullulans was phylogenetically distinct from other taxa of the genus. It is located in a cluster containingCystofilobasidium capitatum, Mrakía frigida, Xanthophyllomyces dendrorhous and three species ofUdeniomyces. This result sugests thatT. pullulans does not belong to the genusTrichosporon.     

Convergent evolution and paraphyly of the hawk-eagles of the genus Spizaetus (Aves, Accipitridae) – phylogenetic analyses based on mitochondrial markers

The phylogenetic relationships within the New and Old World hawk-eagle assemblage (genus Spizaetus ; Aves: Accipitridae) were studied using mitochondrial DNA sequences ( cytochrome b , control region). Eighty-four specimens representing all Spizaetus species and almost all currently distinguished subspecies as well as 11 other booted and non-booted 'eagle' genera from the Neotropics, Africa, Eurasia, South Asia and Australasia ( Oroaetus , Harpia , Morphnus , Lophaetus , Stephanoaetus , Hieraaetus , Aquila , Ictinaetus , Spilornis , Pithecophaga , Harpyopsis ) were investigated. Although the basal branching could not be resolved, our investigations clearly indicate that hawk-eagles represent a paraphyletic assemblage and thus their external similarities have to be ascribed to convergent evolution. The New World taxa of Spizaetus cluster together, but the South American species Oroaetus isidori appears embedded within this clade. The taxa from Southeast to East Asia form a clearly separated monophyletic group. It is further divided into two subgroups, which are also characterized by distinct juvenile plumage patterns. Spizaetus africanus , the only African representative of the genus, is found in a mixed cluster consisting of members of the genera Aquila and Hieraaetus . These findings are in accordance with previous studies of other authors based on various molecular markers and different sets of taxa, but disagree with current taxonomy. Therefore, we suggest assigning the species of the genus Spizaetus to three different genera: (1) Spizaetus (including Oroaetus isidori ) in Central and South America and (2) Nisaetus for the Southeast to East Asian group. (3) The African taxon ( Spizaetus africanus ) is discussed to be included into the genus Aquila. Furthermore, we propose to use the former genus name Lophotriorchis Sharpe, 1874, for the monotypic species Hieraaetus kienerii , which has an isolated phylogenetic position.     

GENETIC POLYMORPHISM IN THE MORPHOLOGICALLY REDUCED DWARF MISTLETOES (ARCEUTHOBIUM,VISCACEAE): AN ELECTROPHORETIC STUDY

Arceuthobium is a well defined genus of obligate parasites of conifers. Assessment of taxonomic and phylogenetic relationships in this group is difficult owing to morphological reductions and complex host relationships. In the present study, genetic relationships within and among 19 taxa were examined using starch gel electrophoresis of triploid seed endosperm tissue. Allelic frequency data for eleven polymorphic loci were derived from analysis of 40 natural populations collected from the U.S. and Mexico. The genus showed remarkably high levels of genetic diversity: averaged across the 19 taxa, 66.7% of the loci were polymorphic with an average of 2.23 alleles per locus. This level of polymorphism is approximately double the average value reported for many dicotyledons and stands in contrast to the overall uniform morphology of these parasites. Unweighted pair group cluster analysis (UPGMA) of genetic similarity measures was conducted for all sampled populations and the results compared to a phenetic system of classification for the genus. Similarities between the two studies include the recognition of two subgenera based upon the segregation of the verticillately branched Arceuthobium americanum from the remainder of the taxa examined. Analysis of isozyme data supported a grouping of six taxa: A. vaginatum ssp. cryptopodum, A. vaginatum ssp. durangense, A. gillii, A. rubrum, A. divaricatum, and A. douglasii. The placement of the latter three taxa in other groups by phenetic criteria provides evidence for molecular divergence not seen using morphological features. The Campylopodum group of taxa comprised eleven members that were linked at similarity values of 80% or greater. Populations were not unambiguously grouped according to species as defined by the phenetic study or at similarity levels comparable to other well defined species in this study. This group is either not reproductively isolated or molecular differentiation is cryptic due to rapid adaptive radiation onto numerous host tree species.     

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.     

Integrative taxonomy approach for analysing evolutionary history of the tribe Euseiini Chant & McMurtry (Acari: Phytoseiidae)

Phylogenetic relationships within the mite Family Phytoseiidae are little known. The presently accepted classification is based on the opinion of specialists, but not on cladistics analysis. The present paper focuses on the tribe Euseiini, containing 271 species, three subtribes and 10 genera. It aims to determine phylogenetic relationships between these taxa and test their monophyly. Molecular analysis combining six markers has been carried out for taxa we succeeded in collecting. Morphological, biogeographic and ecological data have been analysed to determine how these factors can explain the evolutionary relationships emphasized on the phylogenetic tree. Those analyses have been carried out for the taxa available for the molecular study, but also for all species of the tribe. The tribe Euseiini and the two subtribes considered are monophyletic (at least considering the available taxa), supporting the present hypothesis on Phytoseiidae classification. However, the genus Iphiseius seems to not be valid and its unique species is included in the genus Euseius. Clades that were observed within the genus Euseius do not match with recent work on species groups within this genus. It seems that some morphological features such as an insemination apparatus shape and seta length on the dorsal shield constitute some elements explaining the clusters within the genus Euseius. Biogeographic and ecological data analysis led us to hypothesize a west Gondwanian origin of the tribe Euseiini (Africa and Neotropical areas) on Rosids plants (especially of the Orders Malpiphiales and Fabales: subclass Fabidae). Further analyses are still required to (i) take into account more taxa (especially rare ones and species from the Ethiopian part), (ii) to consider more accurate morphological features through more powerful microscopic apparatus, and (iii) to associate a phylogenetic and evolutionary scenario to life traits (pollen feeders).     

基于线粒体基因cyt b的鹟亚科部分鸟类系统发育

采用分子系统学方法对鹟亚科(Muscicapinae)6属31种鸟类的cytb基因序列992bp进行系统发生分析。以荒漠伯劳(Lanius isabellinus)和发冠卷尾(Dicrurus hottentottus)为外群,采用贝叶斯法(Bayesian,BI)、最大似然法(Maximum-likelihood,ML)和最大简约法(Maximumparsimony,MP)分别构建鹟亚科的系统发育树。结果支持:寿带属(Terpsiphone)、扇尾鹟属(Rhipidura)与方尾鹟属(Culicicapa)可从鹟亚科中移出,其中寿带属归入王鹟科(Monarchidae),扇尾鹟属与方尾属归入扇尾鹟科(Rhipiduridae);鹟属(Muscicapa)、仙鹟属(Niltava)为单系发生,并聚为姐妹群,亲缘关系较近;姬鹟属(Ficedula)并非单系发生,白眉姬鹟(Ficedulazanthopygia)在3种系统发生树中的位置差别较大,研究结果未能确定其分类地位;铜蓝(Muscicapa thalassina)与白腹蓝(Cyanoptila cyanomelana)亲缘关系较近,前者应从属中移出,后者应从姬属移出,共同归入仙属或列为仙属的姐妹属。上述结论解决了亚科部分有争议属、种间的进化关系,为亚科分类系统提供了DNA水平证据。     

A phylogenetic study of ubiquinone-7 species of the genus Candida based on 18S ribosomal DNA sequence divergence

To clarify phylogenetic relationships among ubiquinone 7 (Q7)-forming species of the genus Candida, we analyzed the nearly complete sequences of 18S ribosomal RNA genes (18S rDNAs) from fifty strains (including 46 type strains) of Candida species, and from 8 type strains of species/varieties of the genera Issatchenkia, Pichia and Saturnispora. Q7-forming Candida species were divided into three major groups (Group I, II, and III) and were phylogenetically distant from a group that includes the type species of the genus Candida. Group I included four clusters with basal branches that were weakly supported. The first cluster comprised C. vartiovaarae, C. maritima, C. utilis, C. freyschussii, C. odintsovae, C. melinii, C. quercuum, Williopsis saturnus var. saturnus, and W. mucosa. The second cluster comprised C. norvegica, C. montana, C. stellimalicola, C. solani, C. berthetii, and C. dendrica. Williopsis pratensis, W. californica, Pichia opuntiae and 2 related species, P. amethionina (two varieties), and P. caribaea were also included in this cluster. The third cluster comprised C. pelliculosa (anamorph of P. anomala), C. nitrativorans, and C. silvicultrix. The fourth cluster comprised C. wickerhamii and C. peltata, which were placed in the P. holstii - C. ernobii clade with Q8-containing species. Group II comprised C. pignaliae, C. nemodendra, C. methanolovescens, C. maris, C. sonorensis, C. pini, C. llanquihuensis, C. cariosilignicola, C. ovalis, C. succiphila (including its two synonyms), C. methanosorbosa, C. nitratophila, C. nanaspora, C. boidinii (including its two synonyms), W. salicorniae, and P. methanolica. Group III was composed of four clusters with strong bootstrap support. The first cluster comprised C. valida (anamorph of P. membranifaciens), C. ethanolica, C. pseudolambica, C. citrea, C. inconspicua, C. norvegensis, C. rugopelliculosa, and C. lambica. Three species and two varieties of the genus Issatchenkia were also included in this cluster. The second cluster comprised C. diversa, C. silvae, 4 Saturnispora species, and P. besseyi. The third comprised C. sorboxylosa, and the fourth comprised C. vini. Based on this 18S rDNA sequence analysis, it is evident that Q7-forming Candida species and the genera Pichia and Williopsis are polyphyletic. The genus Issatchenkia is suggested to be congeneric with the genus Pichia. The genus Saturnispora is phylogenetically definable.