A Parasitoid Puzzle: Phylogenomics, Total-evidence Dating, and the Role of Gondwanan Vicariance in the Diversification of Labeninae (Hymenoptera, Ichneumonidae)

IF 3.2 1区 农林科学 Q1 ENTOMOLOGY
Bernardo F Santos, Marissa C. Sandoval, T. Spasojevic, Madalene M. Giannotta, S. Brady
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引用次数: 2

Abstract

Abstract Biogeographic patterns in the Southern Hemisphere have largely been attributed to vicariant processes, but recent studies have challenged some of the classic examples of this paradigm. The parasitoid wasp subfamily Labeninae has been hypothesized to have a Gondwanan origin, but the lack of divergence dating analysis and the discovery of a putative labenine fossil in Europe pose a challenge to that idea. Here we used a combination of phylogenomics, divergence dating and event-based biogeographical inference to test whether Gondwanan vicariance may explain the distribution patterns of Labeninae. Data from genomic ultraconserved elements were used to infer the phylogeny of Labeninae with 54 species from 9 genera and a broad selection of 99 outgroup taxa. Total-evidence divergence dating places the origin of Labeninae at around 146 mya, which is consistent with a Gondwanan origin but predates the full separation of Africa and South America. The results suggest a path for biotic exchange between South America and Australia potentially through Antarctica, until at least 49 million years ago. Total-evidence analysis places the fossil Trigonator macrocheirus Spasojevic et al. firmly inside crown-group Labeninae, suggesting that labenine distribution range at some point during the Eocene surpassed the boundaries of Gondwanaland. Biogeographic inference also indicates that North American groups represent more recent range expansions that nonetheless occurred before the formation of the Isthmus of Panama land bridge. These conclusions point to a more complex scenario than previously expected for Labeninae biogeography.
一个寄生蜂的谜题:系统基因组学、全证据定年以及冈瓦南变异在拉蜂科(膜翅目,蜂科)多样化中的作用
摘要南半球的生物地理模式在很大程度上被归因于替代过程,但最近的研究对这种范式的一些经典例子提出了挑战。寄生蜂蜂亚科Labeninae被假设起源于冈瓦纳大陆,但缺乏差异年代分析,以及在欧洲发现了一个假定的标签化石,这对这一观点构成了挑战。在这里,我们结合系统发育组学、分歧年代测定和基于事件的生物地理学推断来测试冈瓦纳大陆的替代性是否可以解释Labeninae的分布模式。利用基因组超保守元件的数据,推断了唇形科9属54种和99个外类群的系统发育。总的证据分歧年代确定了Labeninae的起源约为146 mya,这与冈瓦纳大陆的起源一致,但早于非洲和南美洲的完全分离。研究结果表明,至少在4900万年前,南美洲和澳大利亚之间的生物交换可能通过南极洲。总的证据分析表明,Trigonator macrosheirus Spasojevic等人的化石牢牢地位于岩冠群Labeninae内,这表明始新世的某个时期的labenine分布范围超过了冈瓦纳大陆的边界。生物地理学推断还表明,北美群体代表了最近的范围扩张,尽管如此,这种扩张发生在巴拿马地峡陆桥形成之前。这些结论指向了一个比之前预期的更复杂的场景,用于Labeninae生物地理学。
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来源期刊
CiteScore
5.30
自引率
8.80%
发文量
34
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