The Chalcidoidea bush of life – a massive radiation blurred by mutational saturation
Author:
Cruaud AstridORCID, Rasplus Jean-YvesORCID, Zhang JunxiaORCID, Burks RogerORCID, Delvare GérardORCID, Fusu LucianORCID, Gumovsky AlexORCID, Huber John T., Janšta PetrORCID, Mitroiu Mircea-DanORCID, Noyes John S., van Noort SimonORCID, Baker AustinORCID, Böhmová Julie, Baur HannesORCID, Blaimer Bonnie B.ORCID, Brady Seán G.ORCID, Bubeníková Kristýna, Chartois MargueriteORCID, Copeland Robert S., Papilloud Natalie Dale-SkeyORCID, Dal Molin AnaORCID, Dominguez ChrysalynORCID, Gebiola MarcoORCID, Guerrieri EmilioORCID, Kresslein Robert L.ORCID, Krogmann LarsORCID, Lemmon Emily Moriarty, Murray Elizabeth A.ORCID, Nidelet Sabine, Nieves-Aldrey José LuisORCID, Perry Ryan K.ORCID, Peters Ralph S.ORCID, Polaszek AndrewORCID, Sauné Laure, Torréns JavierORCID, Triapitsyn SergueiORCID, Tselikh Ekaterina V.ORCID, Yoder MatthewORCID, Lemmon Alan R., Woolley James B., Heraty John M.ORCID
Abstract
ABSTRACTCapturing phylogenetic signal from a massive radiation can be daunting. The superfamily Chalcidoidea is an excellent example of a hyperdiverse group that has remained recalcitrant to phylogenetic resolution. Chalcidoidea are mostly parasitoid wasps that until now included 27 families, 87 subfamilies and as many as 500,000 estimated species. We combined 1007 exons obtained with Anchored Hybrid Enrichment with 1048 Ultra-Conserved Elements (UCEs) for 433 taxa including all extant families, over 95% of all subfamilies and 356 genera chosen to represent the vast diversity of the superfamily. Going back and forth between molecular results and our collective morphological and biological knowledge, we detected insidious bias driven by the saturation of nucleotide data and highlighted morphological convergences. Our final results are based on a concatenated analysis of the least saturated exons and UCE data sets (2054 loci, 284,106 sites). Our analyses support a sister relationship with Mymarommatoidea. Seven of the previously recognized families were not monophyletic, so foundations for a new classification are discussed. Biology appears potentially more informative than morphology, as illustrated by the elucidation of a clade of plant gall associates and a clade of taxa with planidial first-instar larvae. The phylogeny suggests a shift from smaller soft-bodied wasps to larger and more heavily sclerotized wasps. Deep divergences in Chalcidoidea coincide with an increase in insect families in the fossil record, and an early shift to phytophagy corresponds with the beginning of the “Angiosperm Terrestrial Revolution”. Our dating analyses suggest a Middle Jurassic origin of 174 Ma (167.3-180.5 Ma) and a crown age of 162.2 Ma (153.9–169.8 Ma) for Chalcidoidea. During the Cretaceous, Chalcidoidea underwent a rapid radiation in southern Gondwana with subsequent dispersals to the Northern Hemisphere. This scenario is discussed with regard to knowledge about host taxa of chalcid wasps, their fossil record, and Earth’s paleogeographic history.
Publisher
Cold Spring Harbor Laboratory
Cited by
10 articles.
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