Mera-Rodriguez D., Jourdan Hervé, Ward P. S., Shattuck S., Cover S. P., Wilson E. O., Rabeling C. (2023). Biogeography and evolution of social parasitism in Australian Myrmecia bulldog ants revealed by phylogenomics. Molecular Phylogenetics and Evolution, 186, 107825 [18 p.]. ISSN 1055-7903.
Titre du document
Biogeography and evolution of social parasitism in Australian Myrmecia bulldog ants revealed by phylogenomics
Année de publication
2023
Auteurs
Mera-Rodriguez D., Jourdan Hervé, Ward P. S., Shattuck S., Cover S. P., Wilson E. O., Rabeling C.
Source
Molecular Phylogenetics and Evolution, 2023,
186, 107825 [18 p.] ISSN 1055-7903
Studying the historical biogeography and life history transitions from eusocial colony life to social parasitism contributes to our understanding of the evolutionary mechanisms generating biodiversity in eusocial insects. The ants in the genus Myrmecia are a well-suited system for testing evolutionary hypotheses about how their species diversity was assembled through time because the genus is endemic to Australia with the single exception of the species M. apicalis inhabiting the Pacific Island of New Caledonia, and because at least one social parasite species exists in the genus. However, the evolutionary mechanisms underlying the disjunct biogeographic distribution of M. apicalis and the life history transition(s) to social parasitism remain unexplored. To study the biogeographic origin of the isolated, oceanic species M. apicalis and to reveal the origin and evolution of social parasitism in the genus, we reconstructed a comprehensive phylogeny of the ant subfamily Myrmeciinae. We utilized Ultra Conserved Elements (UCEs) as molecular markers to generate a molecular genetic dataset consisting of 2,287 loci per taxon on average for 66 out of the 93 known Myrmecia species as well as for the sister lineage Nothomyrmecia macrops and selected outgroups. Our time-calibrated phylogeny inferred that: (i) stem Myrmeciinae originated during the Paleocene -58 Ma ago; (ii) the current disjunct biogeographic distribution of M. apicalis was driven by long-distance dispersal from Australia to New Caledonia during the Miocene -14 Ma ago; (iii) the single social parasite species, M. inquilina, evolved directly from one of the two known host species, M. nigriceps, in sympatry via the intraspecific route of social parasite evolution; and (iv) 5 of the 9 previously established taxonomic species groups are non-monophyletic. We suggest minor changes to reconcile the molecular phylo-genetic results with the taxonomic classification. Our study enhances our understanding of the evolution and biogeography of Australian bulldog ants, contributes to our knowledge about the evolution of social parasitism in ants, and provides a solid phylogenetic foundation for future inquiries into the biology, taxonomy, and classi-fication of Myrmeciinae.
Plan de classement
Sciences du monde animal [080]
;
Etudes, transformation, conservation du milieu naturel [082]
Description Géographique
NOUVELLE CALEDONIE ; AUSTRALIE
Localisation
Fonds IRD [F B010088192]
Identifiant IRD
fdi:010088192
