Department of Biology and Monte L. Bean Museum, Brigham Young University, USA.
Naturalis Biodiversity Center, the Netherlands.
Mol Phylogenet Evol. 2021 Jul;160:107115. doi: 10.1016/j.ympev.2021.107115. Epub 2021 Feb 18.
Dragonflies and damselflies are a charismatic, medium-sized insect order (~6300 species) with a unique potential to approach comparative research questions. Their taxonomy and many ecological traits for a large fraction of extant species are relatively well understood. However, until now, the lack of a large-scale phylogeny based on high throughput data with the potential to connect both perspectives has precluded comparative evolutionary questions for these insects. Here, we provide an ordinal hypothesis of classification based on anchored hybrid enrichment using a total of 136 species representing 46 of the 48 families or incertae sedis, and a total of 478 target loci. Our analyses recovered the monophyly for all three suborders: Anisoptera, Anisozygoptera and Zygoptera. Although the backbone of the topology was reinforced and showed the highest support values to date, our genomic data was unable to stronglyresolve portions of the topology. In addition, a quartet sampling approach highlights the potential evolutionary scenarios that may have shaped evolutionary phylogeny (e.g., incomplete lineage sorting and introgression) of this taxon. Finally, in light of our phylogenomic reconstruction and previous morphological and molecular information we proposed an updated odonate classification and define five new families (Amanipodagrionidae fam. nov., Mesagrionidae fam. nov., Mesopodagrionidae fam. nov., Priscagrionidae fam. nov., Protolestidae fam. nov.) and reinstate another two (Rhipidolestidae stat. res., Tatocnemididae stat. res.). Additionally, we feature the problematic taxonomic groupings for examination in future studies to improve our current phylogenetic hypothesis.
蜻蜓和豆娘是一种具有独特魅力的中型昆虫目(约 6300 种),具有探索比较研究问题的潜力。它们的分类学和许多生态学特征对于大多数现存物种来说相对较为了解。然而,直到现在,由于缺乏基于高通量数据的大规模系统发育,并且无法将这两个方面联系起来,这些昆虫的比较进化问题仍然没有得到解决。在这里,我们提供了一个基于锚定混合富集的分类学假设,共使用了代表 48 个科或不确定科的 136 个物种和总共 478 个目标基因座。我们的分析结果支持所有三个亚目的单系性:差翅亚目、束翅亚目和均翅亚目。虽然拓扑结构的主干得到了加强,并显示出迄今为止最高的支持值,但我们的基因组数据无法强烈解决拓扑结构的某些部分。此外,四分体采样方法突出了可能塑造这个分类单元进化系统发育的潜在进化情景(例如不完全谱系分选和基因渗入)。最后,根据我们的系统发育重建和以前的形态学和分子信息,我们提出了一个更新的蜻蜓目分类,并定义了五个新的科(Amanipodagrionidae fam. nov.、Mesagrionidae fam. nov.、Mesopodagrionidae fam. nov.、Priscagrionidae fam. nov.、Protolestidae fam. nov.)和恢复了另外两个科(Rhipidolestidae stat. res.、Tatocnemididae stat. res.)。此外,我们还提出了一些需要在未来研究中进一步研究的具有问题性的分类单元,以改进我们当前的系统发育假设。
