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The Aetalionidae is a small family belonging to the treehopper superfamily Membracoidea (Hemiptera: Cicadomorpha). Although the wing‐base morphology of Cicadomorpha was examined in detail recently, the wing base of this family has not been investigated to date. We examined morphology of the wing‐base structure of Aetalionidae. Using the characters selected from the wing base, we inferred the phylogenetic placement of this family and confirmed that it belongs to the superfamily Membracoidea and is likely a sister group of the Membracidae. 相似文献
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中国角蝉总科昆虫前胸背板外长物的多样性类型及命名 总被引:1,自引:0,他引:1
中国的角蝉大多属于露盾角蝉亚科Centrotinae,其前胸背板上的外长物-突起、脊突、结等极富多样性。以前W.D.Funkhouser(1950)等对这些外长物的记述主要根据其着生的位置,延伸的方向和形状。作者认为,应首先划分着生的层次,再进一步按着生的位置、延伸的方向、开头划分类型。本文根据这些原则提出了中国角蝉前胸背板外长物多样性的类型及命名,并对每个类型作出界定。 相似文献
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基于比较形态学对曾归入圆痕叶蝉亚科铬黄圆痕叶蝉属Chromagallia的8个有效种(C. saucia (St?l), C. flavofasciata (St?l), C. longistilata (Coelho & Dutra), C. carvalhoi Gon?alves et al., C. lamasi Gon?alves et al., C. lanceolata Gon?alves et al., C. paraguayensis Gon?alves et al.和C. zanolae Gon?alves et al.)进行了订正,明确了该属的范围仅限于具有黄斑的3个种(C. flavofasciata (St?l), C. longistilata (Coelho & Dutra) 和C. rodriguesoi sp. nov.),对该属进行了重新描述,并修订了鉴别特征。此外,对模式种C. flavofasciata 进行了重新描记,首次提供了C. longistilata的雌性生殖器图,并作了描记。把曾归入铬黄圆痕叶蝉属Chromagallia具有红斑的6个种移出并新建了2个新属:Rubragallia 和Neorubragallia,其中Rubragallia 包括R. saucia (St?l) n. comb.和R. paraguayensis (Gon?alves et al.) n. comb., Neorubragallia包括N. lamasi (Gon?alves et al.) n. comb., N. lanceolata (Gon?alves et al.) n. comb., N. zanolae (Gon?alves et al.) n. comb., N. carvalhoi (Gon?alves et al.) n. comb. 和N. mervini sp. nov.。文中提供了3个属的分种检索表,并对不同种的分类地位及3个属的划分进行了讨论。 相似文献
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A phylogenetic analysis of the leafhopper genus Apogonalia was conducted based on a matrix of 40 terminal taxa and 147 morphological characters. The analysis yielded 1391 equally most‐parsimonious trees, which do not support the monophyly of Apogonalia in the strict consensus. A successive weighting procedure yielded 62 trees in which the genus appeared as a monophyletic group. The strict consensus of these 62 trees is almost entirely dichotomous, showing only two polytomies. The test of phylogenetic integrity was applied for distinct variations of three species: A. germana, A. sanguinipes, and A. histrio. Only for the first species was the conjecture that its variations belong to the same entity corroborated. The best‐supported clade within Apogonalia, which has several synapomorphies and high branch support indices, comprises nine Antillean endemic species. This distributional pattern probably was originated by vicariance in the Late Cretaceous, when the Proto‐Antillean archipelago was pushed north‐eastward by the Caribbean Plate to become the modern Greater Antilles. © 2011 The Linnean Society of London, Zoological Journal of the Linnean Society, 2011, 163 , 548–570. 相似文献
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The infraorder Cicadomorpha is a monophyletic group of the order Hemiptera, suborder Auchenorrhyncha, and is composed of three superfamilies: Cercopoidea (spittle bugs), Cicadoidea (cicadas) and Membracoidea (leafhoppers and treehoppers). Phylogenetic relationships among the superfamilies have been highly controversial morphologically and molecularly, but recent molecular phylogenetic analyses provided support for Cercopoidea + Cicadoidea. In this study, we examined morphology of the wing base structure in Cicadomorpha and tested the previous phylogenetic hypotheses using the characters selected from the wing base. As a result, a sister‐group relationship between Cicadoidea and Cercopoidea was supported by three synapomorphies (presence of a projection posterior to the anterior notal wing process, presence of a novel notal process anterior to the posterior notal wing process, presence of a novel sclerite between the distal median plate and the base of anal vein). The present study provides the first unambiguous and prominent morphological support for Cicadoidea + Cercopoidea. 相似文献
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A new species of Euragallia Oman, 1938 from Peru (Pasco Department) is described and illustrated. Euragallia batmanisp. n. can be distinguished from the other species of the genus by the very posteriorly pronounced male pygofer, with an apical hook-like projection, and by the well-developed dorsal area of the aedeagal base, resembling the open wings of a bat. With the addition of Euragallia batmani sp. n., the number of Euragallia species is increased to 21. Only one additional species of the genus is recorded from Peru (Euragallia prion Kramer, 1976). A comparison between the new species and Euragallia prion is provided. A conspicuous structure, which connects the subgenital plates to the styles, is described in detail and named. 相似文献
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Bin Yan Christopher H. Dietrich Xiaofei Yu Meng Jiao Renhuai Dai Maofa Yang 《Ecology and evolution》2022,12(6)
The subfamily Typhlocybinae is a ubiquitous, highly diverse group of mostly tiny, delicate leafhoppers. The tribal classification has long been controversial and phylogenetic methods have only recently begun to test the phylogenetic status and relationships of tribes. To shed light on the evolution of Typhlocybinae, we performed phylogenetic analyses based on 28 newly sequenced and 19 previously sequenced mitochondrial genomes representing all currently recognized tribes. The results support the monophyly of the subfamily and its sister‐group relationship to Mileewinae. The tribe Zyginellini is polyphyletic with some included genera derived independently within Typhlocybini. Ancestral character state reconstruction suggests that some morphological characters traditionally considered important for diagnosing tribes (presence/absence of ocelli, development of hind wing submarginal vein) are homoplastic. Divergence time estimates indicate that the subfamily arose during the Middle Cretaceous and that the extant tribes arose during the Late Cretaceous. Phylogenetic results support establishment of a new genus, Subtilissimia Yan & Yang gen. nov., with two new species, Subtilissimia fulva Yan & Yang sp. nov. and Subtilissimia pellicula Yan & Yang sp. nov.; but indicate that two previously recognized species of Farynala distinguished only by the direction of curvature of the processes of the aedeagus are synonyms, that is, Farynala dextra Yan & Yang, 2017 equals Farynala sinistra Yan & Yang, 2017 syn. nov. A key to tribes of Typhlocybinae is provided. 相似文献