Wing shape of four new bee fossils (Hymenoptera: Anthophila) provides insights to bee evolution

Bees (Anthophila) are one of the major groups of angiosperm-pollinating insects and accordingly are widely studied in both basic and applied research, for which it is essential to have a clear understanding of their phylogeny, and evolutionary history. Direct evidence of bee evolutionary history has...

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Bibliographic Details
Published inPloS one Vol. 9; no. 10; p. e108865
Main Authors Dehon, Manuel, Michez, Denis, Nel, André, Engel, Michael S, De Meulemeester, Thibaut
Format Journal Article
LanguageEnglish
Published United States Public Library of Science 29.10.2014
Public Library of Science (PLoS)
Subjects
Animals
Apidae
Apoidea
Bees
Bees - anatomy & histology
Bees - classification
Bees - genetics
Biodiversity
Biogeography
Biological Evolution
Biology and Life Sciences
Bombus
Compression
Discriminant analysis
Endangered & extinct species
Eocene
Euglossa
Evolution
Extinct species
Extinction
Female
Fossils
Fossils - anatomy & histology
Hymenoptera
Hypotheses
Insects
Laboratories
Male
Miocene
Morphology
Morphometry
Museums
Natural history
New species
Oligocene
Phylogenetics
Phylogeny
Rivers
Species extinction
Taxonomy
Wings, Animal - anatomy & histology
Zoology
New York
Netherlands
Belgium
United States > US
Colorado
Green River
Kansas
France
New Jersey
Utah
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Summary:Bees (Anthophila) are one of the major groups of angiosperm-pollinating insects and accordingly are widely studied in both basic and applied research, for which it is essential to have a clear understanding of their phylogeny, and evolutionary history. Direct evidence of bee evolutionary history has been hindered by a dearth of available fossils needed to determine the timing and tempo of their diversification, as well as episodes of extinction. Here we describe four new compression fossils of bees from three different deposits (Miocene of la Cerdanya, Spain; Oligocene of Céreste, France; and Eocene of the Green River Formation, U.S.A.). We assess the similarity of the forewing shape of the new fossils with extant and fossil taxa using geometric morphometrics analyses. Predictive discriminant analyses show that three fossils share similar forewing shapes with the Apidae [one of uncertain tribal placement and perhaps near Euglossini, one definitive bumble bee (Bombini), and one digger bee (Anthophorini)], while one fossil is more similar to the Andrenidae. The corbiculate fossils are described as Euglossopteryx biesmeijeri De Meulemeester, Michez, & Engel, gen. nov. sp. nov. (type species of Euglossopteryx Dehon & Engel, n. gen.) and Bombus cerdanyensis Dehon, De Meulemeester, & Engel, sp. nov. They provide new information on the distribution and timing of particular corbiculate groups, most notably the extension into North America of possible Eocene-Oligocene cooling-induced extinctions. Protohabropoda pauli De Meulemeester & Michez, gen. nov. sp. nov. (type species of Protohabropoda Dehon & Engel, n. gen.) reinforces previous hypotheses of anthophorine evolution in terms of ecological shifts by the Oligocene from tropical to mesic or xeric habitats. Lastly, a new fossil of the Andreninae, Andrena antoinei Michez & De Meulemeester, sp. nov., further documents the presence of the today widespread genus Andrena Fabricius in the Late Oligocene of France.
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Competing Interests: The authors have declared that no competing interests exist.
Conceived and designed the experiments: MD DM TD. Performed the experiments: MD TD. Analyzed the data: MD DM AN MSE TD. Contributed reagents/materials/analysis tools: MD DM AN MSE TD. Wrote the paper: MD DM MSE TD.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0108865