Niche modelling and comparative morphology untangle taxonomy of the Dysschema eurocilia clade (Lepidoptera: Erebidae) and reveal a relictual Pleistocene Arc distribution

IF 1.8 3区环境科学与生态学 Q2 BIODIVERSITY CONSERVATION

Systematics and Biodiversity Pub Date : 2022-06-28 DOI:10.1080/14772000.2022.2072968

S. S. Moraes, P. E. Gueratto, Jessie Pereira Dos Santos, M. H. Santos, A. Freitas, M. Duarte

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引用次数: 1

Abstract

Dysschema is the largest genus in Pericopina, with 69 species. The highly polymorphic species D. eurocilia (Cramer, 1777) was recently united in a clade with three other species: D. aorsa (Boisduval, 1870) stat. rev., D. bivittata (Walker, 1854) stat. rev. and D. molesta (Hering, 1925) stat. rev. Typological taxonomic treatment and lack of understanding of geographic distributions contributed to a proliferation of publications and disputed validity of names. We analysed the genital morphology and wing patterns for the four putative species in the ‘D. eurocilia clade’ and estimated the ecological niche using Ecological Niche Modelling (ENM) to clarify taxonomic scenarios, delimit species and infer speciation mechanisms. We also used ENM to understand the distributions of phenotypes of D. eurocilia. The morphological data and ENM suggested an alternative hypothesis to previous taxonomic works on species within the ‘D. eurocilia clade’. The ENM also revealed distribution patterns supporting the northern Andes as a geographic barrier between Central and South America, while the interconnected Andean valleys might represent areas of sympatry. Additionally, the predicted distribution showed that certain phenotypes in D. eurocilia have distribution through the South American diagonal of open formations, which might represent a relictual distribution known as the Pleistocene Arc.

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生态位建模和比较形态学解开了Dyschema eurocilia分支的分类（鳞翅目：Erebidae），揭示了更新世弧的残余分布

Dysschema属是Pericopina中最大的属，有69种。高度多态性的物种D. eurocilia (Cramer, 1777)最近与其他三个物种:D. aorsa (Boisduval, 1870) stat. rev.， D. bivittata (Walker, 1854) stat. rev.和D. molesta (Hering, 1925) stat. rev.合并为一个分支。类型学分类处理和对地理分布的缺乏理解导致了出版物的增加和名称有效性的争议。我们分析了四种被推测为“D”的物种的生殖形态和翅膀模式。并利用生态位模型(ecological niche modeling, ENM)估算生态位，以澄清分类情景、划分物种和推断物种形成机制。我们还使用ENM来了解D. eurocilia的表型分布。形态学数据和ENM提出了一种不同于以往的物种分类学研究的假设。eurocilia进化枝”。ENM还揭示了支持北安第斯山脉作为中美洲和南美洲之间的地理屏障的分布模式，而相互连接的安第斯山谷可能代表了同属区域。此外，预测的分布表明，某些表型在南美开放地层的对角线上分布，这可能代表了一种被称为更新世弧的宗教分布。

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来源期刊

Systematics and Biodiversity 环境科学-生物多样性保护

CiteScore

4.10

自引率

0.00%

发文量

审稿时长

>24 weeks

期刊介绍： Systematics and Biodiversity is devoted to whole-organism biology. It is a quarterly, international, peer-reviewed, life science journal, without page charges, which is published by Taylor & Francis for The Natural History Museum, London. The criterion for publication is scientific merit. Systematics and Biodiversity documents the diversity of organisms in all natural phyla, through taxonomic papers that have a broad context (not single species descriptions), while also addressing topical issues relating to biological collections, and the principles of systematics. It particularly emphasises the importance and multi-disciplinary significance of systematics, with contributions which address the implications of other fields for systematics, or which advance our understanding of other fields through taxonomic knowledge, especially in relation to the nature, origins, and conservation of biodiversity, at all taxonomic levels. The journal does not publish single species descriptions, monographs or applied research nor alpha species descriptions. Taxonomic manuscripts must include modern methods such as cladistics or phylogenetic analysis.