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1.
文章基于速足目现生主要类群18S rDNA、28S rDNA和COI基因序列,采用贝叶斯法、邻接法和最大简约法,尝试构建速足目的分子系统树;结合形态特征和化石记录,主要对速足目各超科级分类阶元的系统发育关系进行探讨。结果表明,速足目现生超科Bairdiacea、Darwinulacea、Cypridacea和Cytheracea均为单系群,支持形态学上关于上述4个超科的的界定;3种基因均支持形态学上Darwinulacea和Cypridacea具有较近的亲缘关系的观点。18S rDNA序列分析在较显著水平上支持Darwinulacea和Bairdiacea为姐妹群,Darwinulacea可能从Bairdia-cea中的一支演化而来;Bairdiacea和Darwinulacea组成的分支是Cypridacea的姐妹群,支持将三者合并为Bairdio-copina亚目的观点;Cytheracea是Cypridacea(Darwinulacea Bairdiacea)的姐妹群,可提升为Cytheracopina亚目。  相似文献   

2.
介形类(Ostracoda)因其丰富的化石记录和广布的海陆现生代表类群,而被认为是进化生物学中研究生物多样性产生机制和演变历程的颇具潜力的重要模式生物。介形类在甲壳亚门中的谱系发生位置、起源及其内部各类群间的系统关系还存在诸多争议。基于其体制构造的形态学特征,介形类被归入甲壳亚门下的颚足纲(Maxillopoda),但来自18S rDNA序列数据分析却显示Maxillopoda不是单系群。基于化石记录和壳体形态特征,高肌虫(Bradoriida)长期以来被认为是介形类的一个祖先类群,但保存有软躯体的早寒武世化石的研究表明,Bradoriida不是介形类甚至可能也不属于甲壳类。不同的研究者所强调的壳体和肢体形态特征各异,导致介形类最大的现生类群速足目(Podocopida)的四个超科之间的关系也存在诸多推测。壳体和肢体特征在系统演化意义上的不兼容,需要分子生物学等证据的介入。分子、形态和化石证据的积累及各种信息整合是系统演化研究的必然趋势。  相似文献   

3.
本文报道云南宁蒗大槽子泥盆系大槽子组和碳山坪组介形类12属25种,包括8新种。其中含速足目类10属23种,另含圆足目类2属2种。速足目类10属的12已知种和6新种以及圆足目类2属的2新种,在本文中作了描述和图解。  相似文献   

4.
从细胞色素b基因序列变异分析中国鲇形目鱼类的系统发育   总被引:18,自引:0,他引:18  
采用PCR技术获得中国鲇形目鱼类11科24属27个代表种类细胞色素b基因1138bp全序列,比较分析了来自北美洲、非洲的部分鲇形目鱼类同一基因序列,并选取脂鲤目、鲤形目和鲱形目鱼类作外类群,采用Bayesian方法和最大简约法(MP)构建分子系统树。结果表明:(1)鲇形目鱼类细胞色素b基因序列中,与脂鲤目、鲤形目以及鲱形目鱼类相比存在3bp的缺失;(2)鲇形目鱼类各科代表种类形成一单系群;(3)两种建树方法均支持铫科、粒鲇科和钝头鮠科形成一单系群;而胡子鲇科、刀鲇科、海鲇科、鮰科、长臀鮠科、鲢科、鲇科、棘脂鲿科、鲿科形成一大的单系群;但鳗鲇科的系统位置两种建树方法没有取得一致结果;而其中长臀鲍科与北美的鮰科形成姐妹群,胡子鲇、鮰科、鲇科、鲿科和鮡科是较明显的单系群。  相似文献   

5.
乌科剖面位于四川布拖县乌科乡境内。在此剖面的石门坎组上碎屑岩段中产有相当丰富的介形类丽足介目,特别是球茎介科的化石。经研究、鉴定,初步划分出2个属和6个种,其中包括3个新种(Entomozoe bispinosa sp.nov.,E.suboblongasp.nov.,E.wukeensis sp.nov.),1个比较种和2个未定种。在分析上述属、种,特别是相关种的地质、地理分布特征的基础上,并参考其他门类化石(如腕足类动物群)和岩石性质,提出石门坎组上碎屑岩段可能要低于笔石M.crispus带上部,大致相当于志留纪兰多维列世特列奇期早期。Entomozoe和球茎介科的最早代表推测是产自石门坎组上碎屑岩段Entomozoe的那些分子,如E.suboblongasp.nov.,而非E.tuberosa(Jones),1861(或其亲缘种E.aff.tuberosa)(Siveter et al.,1990,2006)。文中还就上述丽足介目动物群的生态环境进行了分析,指出石门坎组上碎屑岩段可能是在陆棚浅水到相对较深水、能量较低的、温暖的开阔海环境下沉积的。  相似文献   

6.
本研究采用贝叶斯法(Bayesian-inference,BI)、最大似然法(Maximum-likelihood,ML)和最大简约法(Maximumparsimony,MP),基于18SrDNA序列对介形纲4目12超科间以及其它相关泛甲壳动物(Pancrusacea)间的系统分类关系进行了分析,其目的是探讨单独的核基因18SrDNA序列研究介形纲各阶元分类时的稳定性,及分析介形纲两大主要类群内的系统分类关系。结果发现,应用单独的核基因18SrDNA序列对介形类进行研究时,所获的三种系统树的拓扑结构在介形纲的目、亚目和超科阶元均表现稳定,表明单独的核基因18SrDNA序列在该3个阶元的分类研究中可发挥重要作用。基于此,进一步对介形类内两主要类群的系统分类研究,结果支持Martin和Davis(2001)对介形纲中壮肢亚纲(又称丽足亚纲,Myodocopa)在目、亚目和超科阶元上的分类;但尾肢亚纲(又称速足亚纲,Podocopa)中各主要类群间的系统发育关系却与Martin和Davis(2001)的分类略有不同,其中Punciidae游离于尾肢亚纲主要类群尾肢目(又称速足目,Podocopida)之外,而该结果却与Liebau(2005)对Punciidae归类一致;此外尾肢目中5个主要类群的分类关系呈现[浪花介亚目Cytherocopina+[金星介亚目Cypridocopina+简肢亚目Platycopina(小花介科Cytherellidae)+[达尔文介亚目Darwinulocopina+巴氏介亚目Bairdiocopina]]]。  相似文献   

7.
本研究从GenBank下载了31种鸡形目鸟类、2种雁形目鸟类、1种戴胜目鸟类、1种佛法僧目鸟类和1种犀鸟目鸟类的线粒体16SrRNA基因的部分序列。经比对后序列长度为1384bp,其中有400个变异位点。A+T平均含量为54.2%,C+G平均含量为45.8%。贝叶斯系统发生分析揭示出鸡形目和雁形目分别形成单系。研究表明:(1)珠鸡科是鸡形目中较为原始的一个类群;(2)传统分类中的雉亚科和鹑亚科并非分别形成单系;(3)吐绶鸡科和松鸡科与雉科的亲缘关系较近;(4)孔雀属、Francolinus和Bambusicola之间的亲缘关系较近;山鹑属与多个雉亚科的亲缘关系较近;(5)雉科内各个属的属内分化主要发生于后中新世-更新世期间。  相似文献   

8.
鸡形目鸟类系统发生研究现状   总被引:2,自引:2,他引:0  
综合形态学、行为学、分子系统发生等方面研究成果,对世界鸡形目鸟类科的系统关系以及属、种间系统发生的研究进展进行了阐述,侧重介绍与我国鸡形目鸟类相关类群的系统发生研究现状。与传统的系统关系比较,新的研究结果主要有:凤冠雉科和冢雉科不再是互为姊妹群;传统分类中的雉族和鹑族被证明并非单源而是多源的;雉族的原鸡属与鹑族的竹鸡属有很近的亲缘关系;灰山鹑、火鸡和松鸡类的系统发生关系可能很近。分子进化的研究表明雉科各属的起源主要集中在上新世。  相似文献   

9.
对蝉次目3个总科(蝉总科,沫蝉总科,角蝉总科)代表类群(12种成虫)的足、消化道和马氏管的形态结构及其分化进行了比较形态学研究,提出蝉次目昆虫消化道及马氏管整体结构可被划分为两种类型的观点(蝉总科和沫蝉总科消化道及马氏管整体结构为同一种类型,角蝉总科消化道及马氏管整体结构为另一种类型),并分别绘制了两种类型的模式结构图;基于成虫的马氏管比较形态学研究,提出蝉次目昆虫成虫马氏管可被划分为6部分的观点,并分别绘制了角蝉科、叶蝉科、蝉科和沫蝉科成虫的马氏管区域分化模式结构图。研究结果表明,蝉次目昆虫的足、消化道、马氏管的形态、功能分化与其生物学、行为生态学特性等密切相关,其形态学特征既为蝉次目各类群的单系性提供了重要支持证据,也为进一步从行为学、生态学、生物学等方面探讨蝉次目的系统演化历史提供了新的信息;研究结果支持蝉总科和沫蝉总科为姊妹群的观点,即蝉次目3个总科的系统关系为角蝉总科+(蝉总科+沫蝉总科)。  相似文献   

10.
基于12S rRNA基因的鹳形目系统发生关系   总被引:2,自引:0,他引:2  
采用分子系统学的方法探讨鹳形目5个科之间的系统发生关系.文中测出鹳形目鸟类7种mtDNA 12SrRNA基因全序列,并结合来自Genbank的鹳形目另外7个物种及原鸡的同源区序列,经Clustal W软件对位排列后共1 009位点,包含405个变异位点,其中多态性位点381个,260个简约信息位点.基于上述序列数据,以原鸡为外群,使用距离邻接法、最大简约法、最大似然法及贝叶斯法分别重建了鹳形目5科14种的系统发生树.重建的系统发生树显示,内群中的14个种聚合为4支:鹮科构成第一支,聚在系统树的基部;锤头鹳科与鲸头鹳科聚为一支;鹭科和鹳科各自聚成一支.在比较不同建树方法的结果并进行合意树分析后认为:在鹳形目的系统发生中,鹮科可能是最早分化出的一支;锤头鹳科与鲸头鹳科之间的亲缘关系最近,它们祖先与鹭科、鹳科之间的分歧在时间上可能非常接近.鹳形目5个科之间的系统关系可以表示为:(鹮科,(鹭科,鹳科,(锤头鹳科,鲸头鹳科))).  相似文献   

11.
Claude Meisch 《Hydrobiologia》2007,585(1):181-200
The posterior end of body of the extant ostracods exhibits a pair of variously shaped appendages, commonly designated as furca(e), uropods or caudal rami, used for feeding and/or locomotion. It is here shown that the so-called furca of all extant ostracods has evolved from the (probably epipodal) vibratory plates of a pair of uropods. The transformation comprised the following steps: (a) complete reduction of the uropodal protopodite and endopodite; (b) sclerotisation of the lateral walls of the vibratory plates; (c) transformation of the branchial filaments into spines and/or claws; (d) re-orientation of the plates from posterodorsal to posteroventral. These modifications are suggested to have evolved in parallel with a change in function, from respiratory to locomotory and/or feeding. The most primitive condition, reminiscent of the ancestral state of character, is seen in the Platycopida: the ‘furca’ still appears similar in shape to the vibratory plates of the pair of sixth limbs. In the Podocopida the uropodal plates have been modified into plate-like, more often into rod-shaped rami mainly used for locomotion. In both the Platycopida and Podocopida the anus has remained in its original place, posterior to the ‘furcal’ plates or rami. In the Myodocopida and Halocyprida the uropodal vibratory plates are transformed into heavily developed lamellae bearing sturdy spines. They are activated by a complex apparatus of muscles and sclerites, the development of which necessitated the displacement of the anus from the end of the body towards its present place, anterior to the ‘furca’. The furca of the Ostracoda being not a ‘true’ furca, a change in terminology is proposed: uropodal plates or lamellae in the Platycopida, Palaeocopida and Myodocopida/Halocyprida; uropodal rami in the Podocopida. The so-called furcae of the Ostracoda being homologous structures, it is concluded that all extant ostracods belong to a monophyletic lineage.  相似文献   

12.
A revised classification of the higher taxa of the Ostracoda (Crustacea)   总被引:2,自引:1,他引:1  
Alexander Liebau 《Hydrobiologia》2005,538(1-3):115-137
Focusing on palaeontological data from the literature of the last four decades, a new classification of the Ostracoda is outlined. The superorder Podocopomorpha is accepted as a mantle term for the ‘P-orders’ Palaeocopida, Punciocopida, Platycopida and Podocopida; its counterpart are the Myodocopomorpha (Cypridinida, Halocypridida and ? Leperditicopida). The Podocopida comprise the suborders Bairdiocopina, Cytherocopina, Sigilliocopina, Cypridocopina, Darwinulocopina and Healdiocopina (n.;=Metacopina s.s.). The non-calcifying ostracodomorph arthropods (Archaeocopida and Phosphatocopida) of the Early Palaeozoic, now excluded from the Ostracoda by many authors, are also considered briefly.  相似文献   

13.
Homology and homoeomorphy in ostracod limbs   总被引:1,自引:1,他引:0  
David J. Horne 《Hydrobiologia》2005,538(1-3):55-80
The functional modifications of myodocopan and podocopan ostracod limbs constitute a rich data set with which to carry out phylogenetic analyses, but efforts are hindered by lack of consensus on homologies. Homoeomorphy presents particular difficulties; for example, the furca is post-anal in Myodocopa but pre-anal in Podocopa, suggesting homoeomorphy, not homology. Homoeomorphies also exist between ostracod appendages and those of other Crustacea, for example the oral cone and styliform mandibulae of Paradoxostomatidae (Ostracoda) and Siphonostomatoida (Copepoda), both adaptations to commensal or parasitic lifestyles. Such clear manifestations of homoeomorphy, arising independently in different lineages as a result of similar functional requirements imposed on plesiomorphic appendage structures, warn of the possibility of more subtle examples which, if unrecognized, would lead to misinterpretations of character states used in phylogenetic analysis. For instance, the branchial plates found on third, fourth and fifth limbs of podocopans may not be homologous with the branchial plates on the fifth and sixth limbs of myodocopans. Limb homologies of podocopan ostracods (primarily as represented by various podocopid taxa) are investigated. Evidence is presented, based on studies of morphology and musculature, that podocopid branchial plates are exopodites (arising from the basis), while those of myodocopans are epipodites (arising from the coxa or precoxa). In Podocopida, moreover, the protopodites of post-mandibular limbs appear to be undifferentiated, comprising only a basis, while those of Myodocopa clearly exhibit a basis, coxa and often a precoxa. These differences argue against monophyly of the Ostracoda. The absence of epipodites, combined with the lack of a coxa in post-mandibular limbs, is potentially indicative of closer affinities between podocopans and Cambrian stem-group crustaceans (including Phosphatocopida) than between podocopans and myodocopans. The possible derivation of podocopid third, fourth and fifth limbs from a stem-group crustacean limb is demonstrated. The hypothesis is advanced that podocopan ostracods (represented today by Podocopida, Platycopida and Palaeocopida) are derived from much nearer the base of the crown-group Crustacea than myodocopans.  相似文献   

14.
Ventral incisures, till now not really functionally interpreted, are described in three genera of the Family Pachydomellidae (Podocopida, Ostracoda). The functional meaning of these structures (respiration and locomotion when the carapace is closed, special behavior of reproduction or brood care, etc.) and resulting taxonomic conclusions are discussed in detail. All specimens were found in basinal faciès.  相似文献   

15.
Species of Cythere (Ostracoda, Crustacea) have about one hundred normal pore systems on each valve of the carapace. These can be classified into five types on the basis of morphological features. They were examined in the light of intraspecific variation and interspecific difference. Each of the five pore systems has its own mode of ontogenetic increase in number. Comparison among fourteen Cythere species shows that the distributional patterns are completely identical in the A-3 stage, but that they are classified into four and eight groups in the A-2 and A-1 stages, respectively. In the adult stage the pattern becomes diversified among the fourteen species, though homologous relationships are still recognized between different species. The similarity and difference of the pore patterns, which are traceable until the last ontogenetic stage, can be used to determine phylogenetic relationships. These findings were applied to the reconstruction of phylogeny of the eleven living and three extinct species of Cythere. □ Crustacea. Ostracoda , Cythere, Ontogeny. Phylogeny, pore system, pore canal. speciation, laroal morphology.  相似文献   

16.
Thermopsis thermophila n. gen. n. sp., a new freshwater ostracod species is described from hot springs in Nevada, U.S.A. The animals were collected within a temperature range of 40–55°C. The new genus belongs to the Ostracoda Podocopida Cypridoidea Cyprididae Cypridopsinae.  相似文献   

17.
Phylogenetic relationships among the families of passerine birds have been the subject of many debates. These relationships have been investigated by using a number of different character sets, including morphology, proteins, DNA-DNA hybridization, and mitochondrial DNA gene sequences. Our objective was to examine the phylogenetic relationships of a set of passerine songbirds (Oscines) and to test the taxonomic relationships proposed by. We sequenced 1403 aligned bases encompassing the mitochondrial transfer-RNA-Valine and 16S ribosomal RNA genes in 27 species from 14 families (including a Suboscine outgroup). Our results differ in significant ways from the superfamily designations of Sibley and Ahlquist by questioning the monophyly of the Sylvioidea and by placing the Regulidae in the Corvoidea.  相似文献   

18.
Aphids (superfamily Aphidoidea) contain eubacterial endosymbionts localized within specialized cells (mycetocytes). The endosymbionts are essential for the survival of the aphid hosts. Sequence analyses of the 16S rRNAs from endosymbionts of 11 aphid species from seven tribes and four families have indicated that the endosymbionts are monophyletic. Furthermore, phylogenetic relationships within the symbiont clade parallel the relationships of the corresponding aphid hosts. Our findings suggest that this endocytobiotic association was established in a common ancestor of the four aphid families with subsequent diversification into the present species of aphids and their endosymbionts.  相似文献   

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