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1.
记述了中国腺水螨科Lebertiidae腺水螨属Lebertia腺水螨亚属Pilolebertia两新种拟刷毛腺水螨Lebertia(Pilole-bertia)pseudociliata sp.nov.和蓖齿毛腺水螨Lebertia( Pilolebertia)pectinata sp.nov.前者体壁具细致刻纹,E1具2毛状表皮突,P-Ⅱ腹毛长以及EpⅣ侧缘弧形等特征将之与其他种明显区分开;后者体壁具细致刻纹和具缘毛的P-Ⅱ腹毛可以将之与其他种类明显区分.文中对其腺毛和眼毛的体位特征做了详细描述.  相似文献   

2.
记述了采集自伊朗的腺水螨总科Lebertioidea 3新种:光足腺水螨Lebertia(Pseudolebertia)abseta sp.nov.,羽足尼罗螨Nilotonia(Dartia)pinnata sp.nov.,双羽激流水螨Torrenticola(Monoatractides)diploseta sp.nov.光足腺水螨Lebertia(Pseudolebertia)abseta sp.nov.P-Ⅱ羽状腹毛和无游泳毛的各足等形态特征可与其它种类明显区别;羽足尼罗螨Nilotonia(Dartia)pinnata sp.nov.鉴别性特征为O1的位置,P-Ⅱ羽状毛的数量和结构等;双羽激流水螨Torrenticola(Monoatractides)diploseta sp.nov.其P-Ⅱ具2腹毛,其中较为粗壮1毛羽状,此外P-Ⅱ和P-Ⅲ具数量不等的羽状毛等特征可与其他种类区别.同时文中对上述3新种的腺毛和眼毛的体位特征作了详细描述.  相似文献   

3.
本研究选取了水生的蝎蝽次目(半翅目:异翅亚目)10科的11种为代表种,扩增了蛋白编码基因-四个Hox基因(abd-A,Dfd,Ubx和pb)的部分片段,利用最大似然法和贝叶斯方法分析了蝎蝽次目总科或科间的系统发育关系。研究结果如下:支持蝎蝽次目、潜蝽总科(盖蝽科+潜蝽科)、蝎蝽总科(负子蝽科+蝎蝽科)、蜍蝽总科(蜍蝽科+蟾蝽科)以及固蝽总科(固蝽科+蚤蝽科)的单系性;蜍蝽总科为蝎蝽次目的基部分支;仰蝽总科只包括仰蝽科,并与(固蝽总科+潜蝽总科)形成新的姐妹群关系;蝎蝽总科与划蝽总科为姐妹群;表明Hox基因在解决异翅亚目总科间或科间的系统发育关系上,是适合的分子标记。  相似文献   

4.
记述中国水螨区系1新纪录科纹水螨科Feltriidae Viets,1926及1新纪录种褐纹水螨Feltria rubra Piersig,1898.纹水螨科仅有纹水螨属Feltria Koenike,1892,该属分5亚属,目前报道于全北区、东洋区和新热带区.褐纹水螨隶属于佯纹水螨亚属Feltriella Viets,1930,该亚属目前全世界共记述16种.褐纹水螨目前仅报道于全北区,本文为中国首次报道该种,标本采集于新疆维吾尔族自治区哈纳斯湖.文中详细记述了该种的形态特征并绘制特征图.标本保存于贵州大学昆虫研究所.  相似文献   

5.
赵亚男  李朝品 《昆虫学报》2020,63(3):354-364
【目的】测定和分析甜果螨Carpoglyphus lactis线粒体基因组全序列,并在线粒体基因组水平探讨其在真螨总目(Acariformes)中的系统发育地位,为真螨总目分类及果螨科线粒体基因组研究提供科学依据。【方法】挑取实验室饲养的甜果螨成螨,用传统的酚氯仿抽提法和试剂盒提取法提取甜果螨基因组DNA。然后采用节肢动物或螨类线粒体基因的通用引物PCR扩增出甜果螨线粒体基因cox1,cob,rrnS和nad4-nad5的部分序列;再设计种特异性引物进行Long-PCR扩增和步移法测序,测出甜果螨线粒体基因组全序列。应用SeqMan, SEQUIN 9.0和tRNAscan等生物信息学软件,对甜果螨线粒体基因组的基因结构等进行生物信息学分析。最后基于17种真螨总目螨类的蛋白质编码基因,采用最大似然法构建系统发育树。【结果】甜果螨线粒体全基因组总长为14 060 bp(GenBank登录号:MN073839),为典型的闭合双链DNA分子,共由37个基因组成,包括13个蛋白质编码基因(PCGs)、22个tRNA基因和2个rRNA基因;甜果螨线粒体基因组还包括1个大的非编码区(large non-coding region, LNR)。系统发育分析结果显示,甜果螨Carpoglyphus lactis属于无气门亚目粉螨总科(Acaroidae),与椭圆食粉螨Aleuroglyphus ovatus构成一支。粉螨总科(Acaroidae)和薄口螨总科(Histiostomatoidae)聚成一簇,与痒螨股(Psoroptidia)构成姐妹群。【结论】本研究首次获得并分析了甜果螨线粒体基因组全序列。甜果螨与椭圆食粉螨的亲缘关系较近。  相似文献   

6.
贵州软滑水螨属二新种记述:(蜱螨亚纲:软滑水螨科)   总被引:1,自引:0,他引:1  
本文描述软滑水螨科Pionidae二新种。新种多盘软滑水螨Pipma polyacetabula sp.nov.以其两性具极多殖吸盘(雄螨68—72个,雌螨45—50个)为其显著特征。新种宽殖软滑水螨P.platyura sp.nov.两性殖吸盘数目较多(雄螨35—42个,雌螨约48个),两性殖吸盘板宽近与Ⅳ足基节板等宽。两新种间以雄性殖吸盘数差异显著;两新种亦以殖吸盘数与本属已知种有显著差异而易于鉴别。  相似文献   

7.
记述了采自贵州茂兰急流水螨科Torrenticolidae中国新纪录亚科龟水螨亚科Testudacarinae 1新种:双瘤须龟水螨Testudacarus binodipalpis sp.nov..新种与美洲龟水螨Testudacarus americanus Marshall很相似,但是新种P-Ⅳ具2瘤突;P-Ⅱ和P-Ⅲ各有1羽状毛;背突和腹突尖端圆滑;E4具1个三角形基座,所有这些特征可以将之与美洲龟水螨明显区分开来.文中对其腺毛和眼毛的体位特征作了详细描述.  相似文献   

8.
在室内以六点始叶螨Eotetranychus sexmaculatus(Riley)为猎物观察了拟小食螨瓢虫Stethorusparapauperculus Pang的发育历期、捕食量、捕食作用及干扰效应。研究结果表明:拟小食螨瓢虫取食六点始叶螨时完成一个世代需23.2 d,幼虫1~4龄的捕食量分别为9.5、14.5、19.5、64.2头六点始叶螨成螨;成虫期对六点始叶螨成螨的捕食量高达880.4头,拟小食螨瓢虫对六点始叶螨的捕食作用符合HollingⅡ方程,拟合的模型方程为Na=1.3843 N/(1+0.0231N),日均最大捕食量为43.29头;拟小食螨瓢虫的捕食率与个体间的干扰效应用Hassell-Varley(1959)模型拟合为E=0.4690P-0.5470。  相似文献   

9.
论水螨腺毛形态学与螨类体躯进化(蜱螨亚纲:水螨群)   总被引:3,自引:1,他引:2  
金道超  李隆术 《昆虫学报》1997,40(3):231-246
基于对中国水螨区系120余种的研究和有关文献,本文提出了水螨腺毛分布体位的原始模式;据腺毛腺体及围腺片等结构特征,将水螨腺毛分为四个结构类型:皱喙螨型、盾水螨型、水螨型和腺水螨型;腺毛结构特征表明,其发生与起源和体躯形态进化相关;全面评述了节肢动物和螨类体躯及体节进化的现有理论、分析讨论了关于螨类祖先体躯模式的Grandiean-Coineau氏学说(十六节说)和Bader氏学说(十二节说),由此并结合作者研究提出了螨类(水螨),原始祖先体躯模式的新假说(十八节说)。  相似文献   

10.
外群用于给树附根和推断祖先性状状态。通常,来自内群的姐妹群中的多个分类单元被共同选择作为外群。为了在经验上验证这一方法, 我们采用了3种外群选择策略: 姐妹群中的单一分类单元, 姐妹群中的多个分类单元和连续姐妹群中的多个分类单元。以隧蜂科(膜翅目: 蜜蜂总科)的系统发育重建为例, 我们评估了这3种策略对树拓扑结构的影响, 包括最大似然树、 最大简约树和贝叶斯树。初步结果表明: 相比其他两种策略, 采用姐妹群中的多个分类单元作为外群更有利于系统发育重建得到现已被广泛认可的隧蜂科系统发育关系; 相比最大似然法和贝叶斯法, 虽然隧蜂科系统发育关系没有被很好地解决, 但最大简约法在不同外群选择策略下得到了较为一致的拓扑结构  相似文献   

11.
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   

12.
Cui AM  Huang Y 《遗传》2012,34(5):597-608
为了构建稳健的直翅目主要类群间的系统发生关系并探讨16S rRNA基因序列在构建直翅目昆虫不同分类阶元系统发生关系时的可行性、功效以及性能,文章测定了直翅目4总科9科18种昆虫的16S rRNA基因全序列,联合已知该基因全序列的其他40种昆虫,构建了直翅目主要类群之间的系统发生关系,并分析了16SrRNA基因全序列的系统发生性能和功效。结果表明,直翅目昆虫的16S rRNA基因全长平均为1 310 bp;除生活方式特化的蚤蝼总科和蝼蛄总科的地位无法确定外,直翅目其他主要类群系统发生关系比较稳定;蝗总科下除了斑翅蝗科和槌角蝗科外,剑角蝗科、斑腿蝗科、网翅蝗科都不是单系群,且用不同的方法构建的系统发生树中聚类情况完全一致,各科间遗传距离差异不大,建议将其合为一科;锥头蝗科、瘤锥蝗科和癞蝗科间的遗传距离差异也不大;在构建系统发生树时,16S rRNA基因环区的信息量要比茎区的大;16S rRNA基因可以构建可靠的直翅目属与种水平和目与亚目高级阶元的系统发生关系,但对科和总科阶元缺乏足够的分辨力。  相似文献   

13.
Although the taxonomy of the ca 18 000 species of butterflies and skippers is well known, the family-level relationships are still debated. Here, we present, to our knowledge, the most comprehensive phylogenetic analysis of the superfamilies Papilionoidea, Hesperioidea and Hedyloidea to date based on morphological and molecular data. We reconstructed their phylogenetic relationships using parsimony and Bayesian approaches. We estimated times and rates of diversification along lineages in order to reconstruct their evolutionary history. Our results suggest that the butterflies, as traditionally understood, are paraphyletic, with Papilionidae being the sister-group to Hesperioidea, Hedyloidea and all other butterflies. Hence, the families in the current three superfamilies should be placed in a single superfamily Papilionoidea. In addition, we find that Hedylidae is sister to Hesperiidae, and this novel relationship is supported by two morphological characters. The families diverged in the Early Cretaceous but diversified after the Cretaceous-Palaeogene event. The diversification of butterflies is characterized by a slow speciation rate in the lineage leading to Baronia brevicornis, a period of stasis by the skippers after divergence and a burst of diversification in the lineages leading to Nymphalidae, Riodinidae and Lycaenidae.  相似文献   

14.
15.
The phylogenetic relationships of the family Congiopodidae are inferred based on morphological characters. The monophyly of this family is supported by 13 unambiguous apomorphic characters, including four autapomorphies among the superfamily Scorpaenoidea. The Congiopodidae shares 26 apomorphic characters with other scorpaenoid taxa, and these characters are considered to also support the monophyly of the family. Upon completion of the phylogenetic analysis using the characters in 39 transformation series, it was assumed that the family is unambiguously supported by five characters (and also by three and one characters when ACCTRAN and DELTRAN are used, respectively) and is branched into two major clades, including Congiopodus and Alertichthys plus Zanclorhynchus, respectively. Based on the phylogenetic relationships, a new classification, recognizing two subfamilies (Congiopodinae and Zanclorhynchinae) in the family Congiopodidae, is proposed. The genus Perryena, that was recently inferred being closely related to the Tetrarogidae (although many authors included it in the Congiopodidae), is provisionally placed into the Congiopodidae as incertae sedis.  相似文献   

16.
The Ctenohystrica is one of the three major lineages of rodents and contains diverse forms related to gundis, porcupines, and guinea pigs. Phylogenetic analyses of this group using mitochondrial and nuclear gene sequences confirm the monophyly of the infraorder Hystricognathi and most of its recognized subclades, including both the Neotropical caviomorphs and the African phiomorphs, which are recovered as sister groups. Molecular timetrees calibrated with 22 securely placed fossils indicate that hystricognath superfamilies originated in the Eocene and Oligocene and most families had appeared by the end of the Oligocene, ~23 Mya. Divergences leading to hystricognath genera took place in the Miocene and Pliocene, with a single exception. The naked mole‐rat (Heterocephalus) diverged from other African mole‐rats (Bathyergidae) in the early Oligocene (~31.2 Mya), when the four caviomorph superfamilies (Erethizonoidea and Cavioidea at 32.4 Mya, Chinchilloidea and Octodontoidea at 32.8 Mya) were first appearing in South America. The extended independent evolution of Heterocephalus suggested by this analysis prompted a closer examination of mole‐rat characters. Heterocephalus indeed shares many characters with bathyergids, befitting their joint membership in the parvorder Bathyergomorphi and superfamily Bathyergoidea as well as their shared exploitation of subterranean lifestyles. However, a diverse array of cranial, dental, postcranial, external, and ecological characters distinguishes Heterocephalus from other African mole‐rats. These differences equal or exceed those used to diagnose caviomorph families and justify recognizing the naked mole‐rat in its own family, Heterocephalidae Landry, 1957. This taxonomic arrangement poses questions for the inter‐relationships of fossil and extant mole‐rats and brings time equivalence to the ranks assigned to the major clades of hystricognaths. © 2014 The Linnean Society of London  相似文献   

17.
Although phylogenetic studies are increasingly utilizing multi-locus datasets, a review of GenBank data for the Gastropoda indicates a strong bias towards a few short gene fragments (most commonly COI, LSU rRNA, and SSU rRNA). This is particularly the case for the Rissooidea, one of the largest and most taxonomically difficult gastropod superfamilies. Here we analyze fragments of these three genes from 90 species to determine whether they can well resolve higher relationships within this superfamily, whether structurally aligned sequence datasets increase phylogenetic signal, and whether the inclusion of highly variable regions introduces noise. We also used the resulting phylogenetic data in combination with morphological/anatomical evidence to re-evaluate the taxonomic status of ‘hydrobioid’ family-level groups.Our results indicate that all three of the alignment strategies that were used resulted in phylogenies having similar signal levels. However, there was a slight advantage to using structural alignment for inferring family-level relationships. Moreover, the set of ‘standard’ gastropod genes supported recognition of many previously recognized families and provides new insight into the systematics of several problematic groups. However, some family-group taxa were unresolved and the relationships among families were also poorly supported, suggesting a need for more extensive sampling and inclusion of additional genes.  相似文献   

18.
Transport proteins function in the translocation of ions, solutes and macromolecules across cellular and organellar membranes. These integral membrane proteins fall into >600 families as tabulated in the Transporter Classification Database (www.tcdb.org). Recent studies, some of which are reported here, define distant phylogenetic relationships between families with the creation of superfamilies. Several of these are analyzed using a novel set of programs designed to allow reliable prediction of phylogenetic trees when sequence divergence is too great to allow the use of multiple alignments. These new programs, called SuperfamilyTree1 and 2 (SFT1 and 2), allow display of protein and family relationships, respectively, based on thousands of comparative BLAST scores rather than multiple alignments. Superfamilies analyzed include: (1) Aerolysins, (2) RTX Toxins, (3) Defensins, (4) Ion Transporters, (5) Bile/Arsenite/Riboflavin Transporters, (6) Cation:Proton Antiporters, and (7) the Glucose/Fructose/Lactose superfamily within the prokaryotic phosphoenol pyruvate-dependent Phosphotransferase System. In addition to defining the phylogenetic relationships of the proteins and families within these seven superfamilies, evidence is provided showing that the SFT programs outperform programs that are based on multiple alignments whenever sequence divergence of superfamily members is extensive. The SFT programs should be applicable to virtually any superfamily of proteins or nucleic acids.  相似文献   

19.
Sixty-five families of glycosyltransferases (EC 2.4.x.y) have been recognized on the basis of high-sequence similarity to a founding member with experimentally demonstrated enzymatic activity. Although distant sequence relationships between some of these families have been reported, the natural history of glycosyltransferases is poorly understood. We used iterative searches of sequence databases, motif extraction, structural comparison, and analysis of completely sequenced genomes to track the origins of modern-type glycosyltransferases. We show that >75% of recognized glycosyltransferase families belong to one of only three monophyletic superfamilies of proteins, namely, (1) a recently described GPGTF/GT-B superfamily; (2) a nucleoside-diphosphosugar transferase (GT-A) superfamily, which is characterized by a DxD sequence signature and also includes nucleotidyltransferases; and (3) a GT-C superfamily of integral membrane glycosyltransferases with a modified DxD signature in the first extracellular loop. Several developmental regulators in Metazoans, including Fringe and Egghead homologs, belong to the second superfamily. Interestingly, Tout-velu/Exostosin family of developmental proteins found in all multicellular eukaryotes, contains separate domains belonging to the first and the second superfamilies, explaining multiple glycosyltransferase activities in one protein.  相似文献   

20.
The superfamily Gelechioidea (Lepidoptera: Obtectomera) has a high species diversity. It consists of more than 18,400 described species and has a global distribution. Among it, large numbers of species were reported to be economically important to people's production and life. However, relationships among families or subfamilies in Gelechioidea have been exceptionally difficult to resolve using morphology or single gene genealogies. Multiple gene genealogies had been used in the molecular phylogenetic studies on Gelechioidea during the past years, but their phylogenetic relationships remain to be controversial mainly due to their limited taxa sampling relative to such high species diversity. In this paper, 89 ingroup species representing 55 genera are sequenced and added to the data downloaded from GenBank, and six species representing four closely related superfamilies are chosen as outgroup. The molecular phylogeny of Gelechioidea is reconstructed based on the concatenated data set composed of one mitochondrial marker (COI) and seven nuclear markers (CAD, EF-1ɑ, GAPDH, IDH, MDH, RpS5, wingless). The phylogenetic results, taking into consideration of the comparative morphological study, show that the clade of Gelechioidea is strongly supported and separated from other superfamilies, which further proves its monophyly. Five families are newly defined: Autostichidae sensu nov., Depressariidae sensu nov., Peleopodidae sensu nov., Ashinagidae sensu nov. and Epimarptidae sensu nov. Meanwhile, a monophyletic “SSABM” clade considered to be closely related is proposed for the first time, consisting of Stathmopodidae, Scythrididae, Ashinagidae, Blastobasidae and Momphidae. Moreover, geometric morphometric analyses using merged landmark data set from fore and hind wings of 118 representative species are conducted. The phenetic tree shows that the monophyly and phylogenetic relationships correspond with the results of molecular phylogeny largely, which well proves its importance and potential application in both phylogenetic reconstruction and species identification.  相似文献   

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