Morphology-based Phylogenetic Analysis of Membracoidea (Hemiptera: Cicadomorpha) With Placement of Fossil Taxa and Description of a New Subfamily

IF 3.2 1区 农林科学 Q1 ENTOMOLOGY
C. Dietrich, D. Dmitriev, D. Takiya, M. Thomas, M. Webb, J. Zahniser, Yalin Zhang
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引用次数: 4

Abstract

Recently discovered amber-preserved fossil Cicadellidae exhibit combinations of morphological traits not observed in the modern fauna and have the potential to shed new light on the evolution of this highly diverse family. To place the fossils explicitly within a phylogenetic context, representatives of five extinct genera from Cretaceous Myanmar amber, and one from Eocene Baltic amber were incorporated into a matrix comprising 229 discrete morphological characters and representatives of all modern subfamilies. Phylogenetic analyses yielded well resolved and largely congruent estimates that support the monophyly of most previously recognized cicadellid subfamilies and indicate that the treehoppers are derived from a lineage of Cicadellidae. Instability in the morphology-based phylogenies is mainly confined to deep internal splits that received low branch support in one or more analyses and also were not consistently resolved by recent phylogenomic analyses. Placement of fossil taxa is mostly stable across analyses. Three new Cretaceous leafhopper genera, Burmotettix gen. nov., Kachinella gen nov., and Viraktamathus gen. nov., consistently form a monophyletic group distinct from extant leafhopper subfamilies and are placed in Burmotettiginae subfam. nov. Extinct Cretaceous fossils previously placed in Ledrinae and Signoretiinae are recovered as sister to modern representatives of these groups. Eomegophthalmus Dietrich and Gonçalves from Baltic amber consistently groups with a lineage comprising treehoppers, Megophthalminae, Ulopinae, and Eurymelinae but its position is unstable. Overall, the morphology-based phylogenetic estimates agree with recent phylogenies based on molecular data alone suggesting that morphological traits recently used to diagnose subfamilies are generally informative of phylogenetic relationships within this group.
基于形态学的膜总科系统发育分析(半翅目:蝉科)及其化石分类群的定位和一个新亚科的描述
最近发现的琥珀保存的蝉科化石展示了在现代动物群中未观察到的形态特征组合,并有可能为这个高度多样化的家族的进化提供新的线索。为了明确地将化石置于系统发育背景中,我们将白垩纪缅甸琥珀的5个已灭绝属的代表和始新世波罗的海琥珀的1个代表合并到一个包含229个离散形态特征和所有现代亚科代表的矩阵中。系统发育分析得到了一致的结果,支持了大多数先前确认的蝉亚科的单系性,并表明树跳虫来自蝉科的一个谱系。基于形态的系统发生的不稳定性主要局限于深层内部分裂,在一个或多个分析中得到低分支支持,并且最近的系统基因组分析也没有一致地解决。在整个分析中,化石分类群的位置基本上是稳定的。白垩纪三个新的叶蝉属(Burmotettix gen. nov.)、Kachinella gen. nov.和Viraktamathus gen. nov.)一致形成了一个与现存叶蝉亚科不同的单系类群,并被归入Burmotettiginae亚科。11 .在Ledrinae和Signoretiinae中发现的灭绝的白垩纪化石是这些类群的现代代表的姐妹。来自波罗的海琥珀的Eomegophthalmus Dietrich和gonalves始终与树跳、大眼跳科、乌洛皮纳科和Eurymelinae组成的谱系类群,但其位置不稳定。总的来说,基于形态学的系统发育估计与最近仅基于分子数据的系统发育一致,这表明最近用于诊断亚家族的形态学特征通常可以提供该群体内系统发育关系的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
5.30
自引率
8.80%
发文量
34
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