千足虫科Xystodesmidae的系统发育系统学

IF 3.2 1区 农林科学 Q1 ENTOMOLOGY Insect Systematics and Diversity Pub Date : 2021-03-01 DOI:10.1093/isd/ixab003
J. Means, Derek A. Hennen, Tsutomu Tanabe, P. Marek
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引用次数: 13

摘要

摘要千足虫科包括486种,主要分布在北美和东亚的温带落叶林中。该科的物种多样性在美国东部的阿巴拉契亚山脉最大,共有188种。尽管该类群包括一些著名的类群,如生物发光的类群和其他表现出米勒拟态的类群,产生高达600毫克的氰化物,但该类群的基本α分类法却非常不完整,仅在阿巴拉契亚山脉就有50多个物种未被描述。为了为解决令人信服的进化问题和描述物种多样性奠定坚实的系统发育基础,我们收集了迄今为止双足目中最大的物种系统发育(就物种采样而言)。我们对Xystodesmidae科的49个属(57个属中)和247个物种进行了采样,从历史类型地区收集了新鲜材料,并在未探索的地区发现了新物种。在这里,我们使用六个基因(四个线粒体和两个核)对该科进行了系统发育,并包括以前研究中遗漏的关键分类群,包括Nannaria、Erdelyia、东亚分类群和10个新种。我们发现,11个部落中有6个是单系的,该家族与Euryuridae和Eurymerodesmidae是异系的。先前的超特异性分类在一定程度上与系统发育不一致,趋同进化导致了人工属的提出。亚种分类同样与系统发育不一致,亚种始终不是同种的姐妹。系统发育被用作更新科的分类、诊断单系群和为物种假说提供信息的基础。
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Phylogenetic Systematics of the Millipede Family Xystodesmidae
Abstract The millipede family Xystodesmidae includes 486 species distributed primarily in temperate deciduous forests in North America and East Asia. Species diversity of the family is greatest in the Appalachian Mountains of the eastern United States, with 188 species. Although the group includes notable taxa such as those that are bioluminescent and others that display Müllerian mimicry, producing up to 600 mg of cyanide, basic alpha-taxonomy of the group is woefully incomplete and more than 50 species remain undescribed in the Appalachian Mountains alone. In order to establish a robust phylogenetic foundation for addressing compelling evolutionary questions and describing species diversity, we assembled the largest species phylogeny (in terms of species sampling) to date in the Diplopoda. We sampled 49 genera (out of 57) and 247 of the species in the family Xystodesmidae, recollecting fresh material from historical type localities and discovering new species in unexplored regions. Here, we present a phylogeny of the family using six genes (four mitochondrial and two nuclear) and include pivotal taxa omitted from previous studies including Nannaria, Erdelyia, taxa from East Asia, and 10 new species. We show that 6 of the 11 tribes are monophyletic, and that the family is paraphyletic with respect to the Euryuridae and Eurymerodesmidae. Prior supraspecific classification is in part inconsistent with the phylogeny and convergent evolution has caused artificial genera to be proposed. Subspecific classification is likewise incongruent with phylogeny and subspecies are consistently not sister to conspecifics. The phylogeny is used as a basis to update the classification of the family, diagnose monophyletic groups, and to inform species hypotheses.
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来源期刊
CiteScore
5.30
自引率
8.80%
发文量
34
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