Webs of intrigue: museum genomics elucidate relationships of the marronoid spider clade (Araneae)

IF 3.2 1区 农林科学 Q1 ENTOMOLOGY
Jacob A Gorneau, Sarah C Crews, Franklyn Cala-Riquelme, Katherine O Montana, Joseph C Spagna, Francesco Ballarin, Lina M Almeida-Silva, Lauren A Esposito
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引用次数: 0

Abstract

Abstract Relationships among spider families that lack support through other lines of evidence (e.g., morphology) have recently been uncovered through molecular phylogenetics. One such group is the “marronoid” clade, which contains about 3,400 described species in 9 families. Marronoids run the gamut of life history strategies, with social species, species producing a variety of silk types, and species occurring in a range of extreme environments. Despite recognition of the ecological variability in the group, there remains uncertainty about family- level relationships, leaving diverse ecologies without an evolutionary context. The phylogenies produced to date have relatively low nodal support, there are few defined morphological synapomorphies, and the internal relationships of many families remain unclear. We use 93 exemplars from all marronoid families and ultraconserved element loci captured in silico from a combination of 48 novel low-coverage whole genomes and genomic data from the Sequence Read Archive (SRA) to produce a 50% occupancy matrix of 1,277 loci from a set of ultraconserved element probes. These loci were used to infer a phylogeny of the marronoid clade and to evaluate the familial relationships within the clade, and were combined with single-locus (Sanger) legacy data to further increase taxonomic sampling. Our results indicate a clearly defined and well-supported marronoid clade and provide evidence for both monophyly and paraphyly within the currently defined families of the clade. We propose taxonomic changes in accordance with the resulting phylogenetic hypothesis, including elevating Cicurinidae (restored status) and Macrobunidae (new rank).
阴谋网:博物馆基因组学阐明了蜘蛛进化支(蜘蛛目)的关系
蜘蛛家族之间的关系缺乏其他证据(如形态学)的支持,最近通过分子系统发育被发现。其中一组是“marronoid”分支,它包含9科约3400个已描述的物种。Marronoids涵盖了生命史策略的范围,包括社会性物种,产生各种丝类型的物种,以及发生在一系列极端环境中的物种。尽管认识到群体中的生态变异性,但家庭层面的关系仍然存在不确定性,使多样化的生态没有进化背景。迄今为止所产生的系统发育具有相对较低的节点支持,很少有明确的形态突触,许多科的内部关系尚不清楚。我们使用了来自所有marronoid家族的93个样本和从48个新的低覆盖率全基因组和序列读取档案(SRA)的基因组数据中捕获的超保守元件位点,从一组超保守元件探针中产生了1,277个位点的50%占用矩阵。这些基因座被用来推断marronoid分支的系统发育和评估分支内的家族关系,并与单位点(Sanger)遗传数据相结合,以进一步增加分类抽样。我们的研究结果表明了一个明确定义和良好支持的marronoid分支,并为该分支目前定义的科内的单系和类系提供了证据。我们根据系统发育假说提出了分类上的变化,包括提升环蝇科(恢复状态)和巨蝽科(新等级)。
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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