{"title":"两栖新大陆蚁属Dorymyrmex的首次系统发育基因组评估(膜翅目:蚁科),一个长期存在的分类学难题","authors":"Jill T. Oberski","doi":"10.1093/isd/ixab022","DOIUrl":null,"url":null,"abstract":"Abstract Dorymyrmex Mayr 1866, the ‘pyramid ants’ or ‘cone ants’, are conspicuous inhabitants of arid landscapes across the Americas. Ranging from the Great Plains to Patagonia, they are concentrated north and south of the tropics in contrast to the latitudinal diversity gradient canon. Despite being frequently collected and ecologically important, Dorymyrmex ants exemplify the taxonomic neglect typical in the subfamily Dolichoderinae.The genus has never had the benefit of a global revision, and even the major lineages are still uncertain. This work characterizes the issues at hand and ushers 22 Dorymyrmex species into the world of modern-day phylogenomics: By targeting ultraconserved elements (UCEs) across the genome, I construct an alignment of 1,891 loci, infer phylogenies under maximum likelihood and Bayesian approaches, and estimate divergence dates. Three major clades of Dorymyrmex emerge with maximal support, corresponding to former genera: Dorymyrmex sensu stricto, Araucomyrmex Gallardo 1919, and Conomyrma Forel 1913.The pyramicus group (‘Conomyrma’) shows a recent, rapid radiation with minimal morphological differentiation, reaffirming the difficulty of species delimitation in this widespread clade. Finally, I observe a general south-to-north pattern of dispersal, likely by way of savanna ‘stepping stones’ across the tropics during cooler, drier periods. Intercontinental dispersal occurred after the hypothetical Caribbean landspan in the Miocene, but before the Pleistocene or the completion of the Panamanian isthmus, suggesting dispersal by flight.This corroborates patterns observed in other arid-adapted amphitropical New World taxa. Characterizing the major Dorymyrmex species groups is an important first step towards stable taxonomic definitions—which underpin active studies in behavior, chemical ecology, and physiology. Graphical Abstract","PeriodicalId":48498,"journal":{"name":"Insect Systematics and Diversity","volume":"6 1","pages":"1 - 10"},"PeriodicalIF":3.2000,"publicationDate":"2022-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":"{\"title\":\"First Phylogenomic Assessment of the Amphitropical New World Ant Genus Dorymyrmex (Hymenoptera: Formicidae), a Longstanding Taxonomic Puzzle\",\"authors\":\"Jill T. 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Three major clades of Dorymyrmex emerge with maximal support, corresponding to former genera: Dorymyrmex sensu stricto, Araucomyrmex Gallardo 1919, and Conomyrma Forel 1913.The pyramicus group (‘Conomyrma’) shows a recent, rapid radiation with minimal morphological differentiation, reaffirming the difficulty of species delimitation in this widespread clade. Finally, I observe a general south-to-north pattern of dispersal, likely by way of savanna ‘stepping stones’ across the tropics during cooler, drier periods. Intercontinental dispersal occurred after the hypothetical Caribbean landspan in the Miocene, but before the Pleistocene or the completion of the Panamanian isthmus, suggesting dispersal by flight.This corroborates patterns observed in other arid-adapted amphitropical New World taxa. Characterizing the major Dorymyrmex species groups is an important first step towards stable taxonomic definitions—which underpin active studies in behavior, chemical ecology, and physiology. 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引用次数: 2
摘要
摘要Dorymyrmex Mayr 1866,“金字塔蚁”或“锥蚁”,是美洲干旱地区的显著居民。从大平原到巴塔哥尼亚,它们集中在热带的北部和南部,与纬度多样性梯度标准形成鲜明对比。尽管Dorymyrmex蚂蚁经常被收集并且具有重要的生态意义,但它体现了Dolichoderinae亚科典型的分类学忽视。该属从未得到过全球修订的好处,甚至主要谱系也仍不确定。这项工作描述了当前的问题,并将22个Dorymyrmex物种引入现代系统发育学世界:通过靶向整个基因组的超保守元件(UCE),我构建了1891个基因座的比对,在最大似然和贝叶斯方法下推断系统发育,并估计分化日期。Dorymyrmex的三个主要分支得到了最大的支持,对应于以前的属:Dorymyrmex senso stricto、Araucomyrmex Gallardo 1919和Conomyrma Forel 1913。吡喃菌群(“Conomyrma”)显示出最近的快速辐射,形态分化最小,再次证明了在这个广泛分布的分支中物种划界的困难。最后,我观察到了一种普遍的南北扩散模式,在凉爽、干燥的时期,可能是通过热带草原的“垫脚石”传播的。洲际扩散发生在中新世假设的加勒比海陆盘之后,但在更新世或巴拿马地峡建成之前,这表明通过飞行进行扩散。这证实了在其他适应干旱的新大陆两栖类中观察到的模式。描述主要的Dorymyrmex物种群是迈向稳定分类学定义的重要第一步,这是行为、化学生态学和生理学积极研究的基础。图形摘要
First Phylogenomic Assessment of the Amphitropical New World Ant Genus Dorymyrmex (Hymenoptera: Formicidae), a Longstanding Taxonomic Puzzle
Abstract Dorymyrmex Mayr 1866, the ‘pyramid ants’ or ‘cone ants’, are conspicuous inhabitants of arid landscapes across the Americas. Ranging from the Great Plains to Patagonia, they are concentrated north and south of the tropics in contrast to the latitudinal diversity gradient canon. Despite being frequently collected and ecologically important, Dorymyrmex ants exemplify the taxonomic neglect typical in the subfamily Dolichoderinae.The genus has never had the benefit of a global revision, and even the major lineages are still uncertain. This work characterizes the issues at hand and ushers 22 Dorymyrmex species into the world of modern-day phylogenomics: By targeting ultraconserved elements (UCEs) across the genome, I construct an alignment of 1,891 loci, infer phylogenies under maximum likelihood and Bayesian approaches, and estimate divergence dates. Three major clades of Dorymyrmex emerge with maximal support, corresponding to former genera: Dorymyrmex sensu stricto, Araucomyrmex Gallardo 1919, and Conomyrma Forel 1913.The pyramicus group (‘Conomyrma’) shows a recent, rapid radiation with minimal morphological differentiation, reaffirming the difficulty of species delimitation in this widespread clade. Finally, I observe a general south-to-north pattern of dispersal, likely by way of savanna ‘stepping stones’ across the tropics during cooler, drier periods. Intercontinental dispersal occurred after the hypothetical Caribbean landspan in the Miocene, but before the Pleistocene or the completion of the Panamanian isthmus, suggesting dispersal by flight.This corroborates patterns observed in other arid-adapted amphitropical New World taxa. Characterizing the major Dorymyrmex species groups is an important first step towards stable taxonomic definitions—which underpin active studies in behavior, chemical ecology, and physiology. Graphical Abstract