南半球的微小苔藓甲虫:分子系统发育、历史生物地理学和栖息地变化(鞘翅目:水螅科)

IF 4.7 1区 农林科学 Q1 ENTOMOLOGY Systematic Entomology Pub Date : 2022-12-05 DOI:10.1111/syen.12567
David T. Bilton, Manfred A. Jäch, Ignacio Ribera, Emmanuel F. A. Toussaint
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引用次数: 2

摘要

微小苔藓甲虫(水螅科)是水生鞘翅目中种类最多、分布最广的科之一,估计有4000种现存物种,分布在从海岸岩石池到山溪以及从北极圈到南极岛屿的大多数水生栖息地。近年来,分子系统发育研究提高了我们对巨型多样性九头蛇属、Limnebius属和Ochthebius属进化史的理解,但该科的大多数属尚未被纳入任何系统发育分析,尤其是那些仅限于南半球的属。使用多标记分子矩阵,对超过40%的描述物种丰富度和75%的目前公认属进行采样,我们推断出这些主要是冈瓦纳水螅科的全面分子系统发育。虽然我们关注的属在形态上是多样的,目前在所有四个水螅亚科中都有分类,但我们的系统发育分析表明,这些冈瓦纳大陆属可能构成一个单一的分支。根据我们的发现,非洲属Oomtelecopon Perkins syn.n被证明在Coelometpon Janssens内筑巢,新西兰Homalaena Ordish syn.n和Podaena Ordish syn.n与Orchimonia Broun同义,南非Pterosthetops Perkins syn.n与Prosthetos Waterhouse同义,导致Pterosthetopini Perkins syn.n与Prosthetopini-Permins同义。中角龙Bilton&Jäch gen.n.的建造是为了容纳六名前中角龙Janssens成员,该成员被证明是多系的。我们建议将Orchimonia ordishi Jäch&Bilton nom.n.替换为1984年的Homalaena scaffita Ordish(现在是初级同音词);共提出39个新组合。我们的贝叶斯分歧时间推断出这种“冈瓦纳大陆群”属的起源于白垩纪中期的非洲和马达加斯加,并表明替代和扩散过程,以及物种灭绝,塑造了白垩纪南半球这些甲虫的生物地理史,从而形成了地理上保守的现存谱系。最后,我们重建了整个系统发育过程中祖先栖息地的变化,揭示了这些属栖息地占用的许多变化,包括不同地区全陆地、腐殖分类群的多个起源。
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Minute moss beetles in the Southern Hemisphere: Molecular phylogeny, historical biogeography and habitat shifts (Coleoptera: Hydraenidae)

Minute moss beetles (Hydraenidae) are one of the most speciose and widespread families of aquatic Coleoptera, with an estimated 4000 extant species, found in the majority of aquatic habitats from coastal rock pools to mountain streams and from the Arctic Circle to the Antarctic islands. Molecular phylogenetic works have improved our understanding of the evolutionary history of the megadiverse Hydraena, Limnebius and Ochthebius in recent years, but most genera in the family have not yet been included in any phylogenetic analyses, particularly most of those which are restricted to the Southern Hemisphere. Using a multimarker molecular matrix, sampling over 40% of described species richness and 75% of currently recognized genera, we infer a comprehensive molecular phylogeny of these predominantly Gondwanan Hydraenidae. Whilst the genera we focus on are morphologically diverse, and currently classified across all four hydraenid subfamilies, our phylogenetic analyses suggest that these Gondwanan genera may instead constitute a single clade. As a result of our findings, the African genus Oomtelecopon Perkins syn.n. is shown to nest within Coelometopon Janssens, the New Zealand Homalaena Ordish syn.n. and Podaena Ordish syn.n. are synonymised with Orchymontia Broun, and the South African Pterosthetops Perkins syn.n. is synonymised with Prosthetops Waterhouse, resulting in Pterosthetopini Perkins syn.n. being synonymised with Prosthetopini Perkins. Mesoceratops Bilton & Jäch gen.n. is erected to accommodate six former members of Mesoceration Janssens, which is shown to be polyphyletic. We propose the replacement name Orchymontia ordishi Jäch & Bilton nom.n. for Homalaena dilatata Ordish, 1984 (now a junior homonym); altogether 39 new combinations are proposed. Our Bayesian divergence times infer an origin for this ‘Gondwana group’ of genera in Africa plus Madagascar in the mid-Cretaceous and suggest that both vicariant and dispersal processes, together with extinctions, have shaped the biogeographic history of these beetles in the Southern Hemisphere during the Cretaceous, resulting in geographically conserved extant lineages. Finally, we reconstruct ancestral habitat shifts across our phylogeny, revealing numerous changes in habitat occupancy in these genera, including multiple origins of fully terrestrial, humicolous taxa in different regions.

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来源期刊
Systematic Entomology
Systematic Entomology 生物-进化生物学
CiteScore
10.50
自引率
8.30%
发文量
49
审稿时长
>12 weeks
期刊介绍: Systematic Entomology publishes original papers on insect systematics, phylogenetics and integrative taxonomy, with a preference for general interest papers of broad biological, evolutionary or zoogeographical relevance.
期刊最新文献
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