Multigene phylogeny of the Indo–West Pacific genus Enosteoides (Crustacea, Decapoda, Porcellanidae) with description of a new species from Australia

IF 1.6 2区生物学 Q2 ZOOLOGY

Zoosystematics and Evolution Pub Date : 2022-10-04 DOI:10.3897/zse.98.90540

A. Hiller, B. Werding

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引用次数: 1

Abstract

The porcellanid genus Enosteoides Johnson, 1970, currently containing six species, was raised in the 1970s to contain aberrant Indo–West Pacific forms of the diverse and cosmopolitan genus Porcellana Lamarck, 1801. Here, we describe the most aberrant form as Enosteoides spinosussp. nov., from the northeast and northwest coasts of Australia and present results on phylogenetic reconstructions of the genus, based on an 1,870 bp alignment of concatenated DNA sequences of three mitochondrial and one nuclear gene. The new species is peculiarly spiny and has a higher morphological affinity to the type species of the genus, E. ornatus (Stimpson, 1858), than to the other congeneric species. Our molecular results indicate that Enosteoides is not monophyletic. The new species and E. ornatus are encompassed in a clade, which does not share immediate common ancestry with the clade containing the other species of Enosteoides. This clade is more closely related to species of Porcellana and Pisidia. Relatively large interspecific genetic distances between and within the two clades, as compared to distances estimated in American pairs of species on each side of the Panama Isthmus, suggest ancient divergence, probably followed by extinction events or low speciation rate. Relatively large intraspecific distances between Australian populations of the new species of Enosteoides from geographically distant locations suggest some level of phylogeographic structure.

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印度-西太平洋Enosteoides属(甲壳纲，十足纲，porporanidae)的多基因系统发育及澳大利亚一新种的描述

Porcellana属Enosteoides Johnson, 1970年，目前包含6个物种，在20世纪70年代被提出，包含了印度-西太平洋地区的异常形式的Porcellana属，1801年。在这里，我们将最异常的形式描述为棘骨线虫。2011年11月，来自澳大利亚东北和西北海岸的研究人员，并根据三个线粒体基因和一个核基因的串联DNA序列的1870 bp序列，对该属进行了系统发育重建。该新种具有独特的刺，与该属的模式种E. ornatus (Stimpson, 1858)相比，在形态上更接近于其他同属种。我们的分子结果表明，Enosteoides不是单系的。新物种和E. ornatus被包含在一个分支中，这个分支与包含其他Enosteoides物种的分支没有直接的共同祖先。这个分支与Porcellana和Pisidia的物种关系更密切。与巴拿马地峡两侧美洲物种对的估计距离相比，这两个进化支之间和内部的种间遗传距离相对较大，这表明古代的分化可能是在灭绝事件或低物种形成率之后发生的。澳大利亚Enosteoides新种种群之间相对较大的种内距离，表明它们在地理位置上存在一定程度的系统地理结构。

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

Zoosystematics and Evolution ZOOLOGY-

CiteScore

3.50

自引率

5.00%

发文量

审稿时长

16 weeks

期刊介绍： Zoosystematics and Evolution, formerly Mitteilungen aus dem Museum für Naturkunde in Berlin, is an international, open access, peer-reviewed life science journal devoted to whole-organism biology. It publishes original research and review articles in the field of Metazoan taxonomy, biosystematics, evolution, morphology, development and biogeography at all taxonomic levels. The journal''s scope encompasses primary information from collection-related research, taxonomic descriptions and discoveries, revisions, annotated type catalogues, aspects of the history of science, and contributions on new methods and principles of systematics. Articles whose main topic is ecology, functional anatomy, physiology, or ethology are only acceptable when of systematic or evolutionary relevance and perspective.