The Rediscovery of a Relict Unlocks the First Global Phylogeny of Whip Spiders (Amblypygi).

IF 6.1 1区 生物学 Q1 EVOLUTIONARY BIOLOGY
Gustavo S de Miranda, Siddharth S Kulkarni, Jéssica Tagliatela, Caitlin M Baker, Alessandro P L Giupponi, Facundo M Labarque, Efrat Gavish-Regev, Michael G Rix, Leonardo S Carvalho, Lívia Maria Fusari, Mark S Harvey, Hannah M Wood, Prashant P Sharma
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引用次数: 0

Abstract

Asymmetrical rates of cladogenesis and extinction abound in the tree of life, resulting in numerous minute clades that are dwarfed by larger sister groups. Such taxa are commonly regarded as phylogenetic relicts or "living fossils" when they exhibit an ancient first appearance in the fossil record and prolonged external morphological stasis, particularly in comparison to their more diversified sister groups. Due to their special status, various phylogenetic relicts tend to be well-studied and prioritized for conservation. A notable exception to this trend is found within Amblypygi ("whip spiders"), a visually striking order of functionally hexapodous arachnids that are notable for their antenniform first walking leg pair (the eponymous "whips"). Paleoamblypygi, the putative sister group to the remaining Amblypygi, is known from Late Carboniferous and Eocene deposits but is survived by a single living species, Paracharon caecusHansen (1921), that was last collected in 1899. Due to the absence of genomic sequence-grade tissue for this vital taxon, there is no global molecular phylogeny for Amblypygi to date, nor a fossil-calibrated estimation of divergences within the group. Here, we report a previously unknown species of Paleoamblypygi from a cave site in Colombia. Capitalizing upon this discovery, we generated the first molecular phylogeny of Amblypygi, integrating ultraconserved element sequencing with legacy Sanger datasets and including described extant genera. To quantify the impact of sampling Paleoamblypygi on divergence time estimation, we performed in silico experiments with pruning of Paracharon. We demonstrate that the omission of relicts has a significant impact on the accuracy of node dating approaches that outweighs the impact of excluding ingroup fossils, which bears upon the ancestral range reconstruction for the group. Our results underscore the imperative for biodiversity discovery efforts in elucidating the phylogenetic relationships of "dark taxa," and especially phylogenetic relicts in tropical and subtropical habitats. The lack of reciprocal monophyly for Charontidae and Charinidae leads us to subsume them into one family, Charontidae, new synonymy.

重新发现的一个遗迹解开了鞭蜘蛛(Amblypygi)的第一个全球系统发育过程。
在生命之树上,不对称的类群发生率和灭绝率比比皆是,这就造成了许多微小类群在较大的姊妹类群面前相形见绌。这类类群通常被视为系统发育遗迹或 "活化石",因为它们首次出现在化石记录中的时间较早,而且外部形态长期处于停滞状态,特别是与其更多样化的姊妹类群相比。由于它们的特殊地位,各种系统发育遗物往往会得到很好的研究和优先保护。在这一趋势中,Amblypygi("鞭蛛")是一个明显的例外,这是一种具有视觉冲击力的功能性六足蛛形纲,以其触角状的第一对步行腿(同名的 "鞭")而闻名。古amblypygi 是其余 Amblypygi 的姊妹类群,已知于晚石炭世和始新世的沉积物中,但目前仅存 Paracharon caecus Hansen(1921 年)这一个物种,该物种最后一次被采集是在 1899 年。由于缺乏这一重要类群的基因组序列级组织,迄今为止还没有Amblypygi的全球分子系统发生,也没有对该类群内部的分化进行化石校准估算。在这里,我们报告了哥伦比亚一个洞穴遗址中发现的一个以前未知的古囊蝶类物种。利用这一发现,我们整合了超保留元素测序与传统的 Sanger 数据集,并将已描述的现生属纳入其中,首次建立了 Amblypygi 的分子系统发育。为了量化古囊虫采样对分化时间估计的影响,我们对 Paracharon 进行了剪枝硅学实验。我们证明,遗物的遗漏对节点测年方法的准确性有重大影响,其影响超过了排除内群化石的影响,这对该类群祖先分布范围的重建产生了影响。我们的研究结果突出表明,生物多样性发现工作必须阐明 "暗类群 "的系统发育关系,特别是热带和亚热带栖息地的系统发育遗物。夏龙科和夏麟科缺乏互为单系的关系,因此我们将它们归入一个科,即夏龙科(Charontidae),这是新的异名。
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
Systematic Biology
Systematic Biology 生物-进化生物学
CiteScore
13.00
自引率
7.70%
发文量
70
审稿时长
6-12 weeks
期刊介绍: Systematic Biology is the bimonthly journal of the Society of Systematic Biologists. Papers for the journal are original contributions to the theory, principles, and methods of systematics as well as phylogeny, evolution, morphology, biogeography, paleontology, genetics, and the classification of all living things. A Points of View section offers a forum for discussion, while book reviews and announcements of general interest are also featured.
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