The corbiculate bees arose from New World oil-collecting bees: Implications for the origin of pollen baskets

• Published in: Molecular phylogenetics and evolution Vol. 80; pp. 88 - 94
• Main Authors: Martins, Aline C., Melo, Gabriel A.R., Renner, Susanne S.
• Format: Journal Article
• Language: English
• Published: United States Elsevier Inc 01.11.2014
• Subjects: Ancestral state reconstruction; Animals; Apis mellifera; Bayes Theorem; Bees - anatomy & histology; Bees - classification; Bees - genetics; Biological Evolution; Bombus; Centris; Corbiculate bees; Divergence dating; Euglossini; Fossils; Meliponini; Models, Genetic; Molecular phylogeny; Oil-collecting apparatus; Orchidaceae; Phylogeny; Pollination; Sequence Analysis, DNA; Ancestral state reconstruction; Oil-collecting apparatus; Molecular phylogeny; mya; Corbiculate bees; Divergence dating
• ISSN: 1055-7903; 1095-9513
• DOI: 10.1016/j.ympev.2014.07.003

[Display omitted] •We present the first phylogeny revealing the sister group of corbiculate bees.•The sister group of the corbiculates is the Neotropical genus Centris.•Corbiculates and Centris together diverged from another oil bee genus, Epicharis.•Corbiculate bees arose in the New World ca. 84 my ago.•Hairy hind leg adapted for oil transport thus preceded concave pollen baskets. The economically most important group of bees is the “corbiculates”, or pollen basket bees, some 890 species of honeybees (Apis), bumblebees (Bombus), stingless bees (Meliponini), and orchid bees (Euglossini). Molecular studies have indicated that the corbiculates are closest to the New World genera Centris, with 230 species, and Epicharis, with 35, albeit without resolving the precise relationships. Instead of concave baskets, these bees have hairy hind legs on which they transport pollen mixed with floral oil, collected with setae on the anterior and middle legs. We sampled two-thirds of all Epicharis, a third of all Centris, and representatives of the four lineages of corbiculates for four nuclear gene regions, obtaining a well-supported phylogeny that has the corbiculate bees nested inside the Centris/Epicharis clade. Fossil-calibrated molecular clocks, combined with a biogeographic reconstruction incorporating insights from the fossil record, indicate that the corbiculate clade arose in the New World and diverged from Centris 84 (72–95)mya. The ancestral state preceding corbiculae thus was a hairy hind leg, perhaps adapted for oil transport as in Epicharis and Centris bees. Its replacement by glabrous, concave baskets represents a key innovation, allowing efficient transport of plant resins and large pollen/nectar loads and freeing the corbiculate clade from dependence on oil-offering flowers. The transformation could have involved a novel function of Ubx, the gene known to change hairy into smooth pollen baskets in Apis and Bombus.