Phylogenomic Variation at the Population-Species Interface and Assessment of Gigantism in a Model Wolf Spider Genus (Lycosidae, Schizocosa)

IF 3.2 1区 农林科学 Q1 ENTOMOLOGY Insect Systematics and Diversity Pub Date : 2021-09-01 DOI:10.1093/isd/ixab016
James Starrett, Ashley Bui, Rowan H. McGinley, E. Hebets, J. Bond
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引用次数: 2

Abstract

Animal body size has important evolutionary implications. The wolf spider genus Schizocosa Chamberlin, 1904 has developed as a model for studies on courtship, with visual and vibratory signals receiving attention; however, body size has never been carefully evaluated. Although species of Schizocosa can be distinguished from their close relatives by differences in genitalic structures, male ornamentation, and behavior, some species are morphologically similar, making diagnosis, and identification difficult. Evaluation of species boundaries using genetic data across Schizocosa is limited. The similar species S. maxima Dondale & Redner, 1978 and S. mccooki (Montgomery, 1904) are separated predominantly on the basis of size differences, with S. maxima being larger. We evaluate the evolution of size in these two Schizocosa species distributed in western North America, where gigantism of S. maxima is hypothesized to occur, particularly in California. We sampled subgenomic data (RADseq) and inferred the phylogeny of S. mccooki, S. maxima, and relatives. We apply a variational autoencoder machine learning approach to visualize population structuring within widespread S. mccooki and evaluate size within the context of a comparative phylogenetic framework to test the hypotheses related to genetic clustering of populations and gigantism. Our data show S. mccooki populations are not genealogically exclusive with respect to S. maxima. Likewise, S. maxima individuals are not recovered as a lineage and do not form an isolated genetic cluster, suggesting that the observed differences in size cannot be used to accurately delimit species. The cause of gigantism in S. maxima remains unexplained, but provides a framework for future studies of size variation and speciation.
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一种模式狼蛛属(裂蛛科,狼蛛科)种群-种界面的系统基因组变异及巨人症的评估
动物的体型具有重要的进化意义。狼蛛属Schizocosa Chamberlin, 1904已发展成为求偶研究的模型,其视觉和振动信号受到关注;然而,体型从未被仔细评估过。虽然裂果科植物的种类可以通过生殖器结构、雄性纹饰和行为的差异与它们的近亲区分开来,但有些物种在形态上是相似的,这给诊断和鉴定带来了困难。利用Schizocosa的遗传数据评估物种边界是有限的。相似物种S. maxima Dondale & Redner, 1978和S. mccooki (Montgomery, 1904)主要根据大小差异进行区分,S. maxima体型较大。我们评估了分布在北美西部的这两种Schizocosa物种的大小进化,在那里假设出现了S. maxima的巨人症,特别是在加利福尼亚州。我们对亚基因组数据(RADseq)进行采样,推断S. mccooki、S. maxima及其亲缘种的系统发育。我们应用变分自编码器机器学习方法来可视化分布广泛的S. mccooki的种群结构,并在比较系统发育框架的背景下评估大小,以测试与种群遗传聚类和巨人症相关的假设。我们的数据表明,麦库基S. mccooki种群在系谱上并不排斥S. maxima。同样,S. maxima的个体也没有作为一个谱系被恢复,也没有形成一个孤立的遗传集群,这表明观察到的大小差异不能用来准确地划分物种。巨蜥巨人症的原因仍未得到解释,但为未来研究体型变化和物种形成提供了一个框架。
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来源期刊
CiteScore
5.30
自引率
8.80%
发文量
34
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