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Dating the Co-evolution Between Bees and Beetle Triungulins (Coleoptera: Cleridae) to the Mid-Cretaceous

Abstract

Presently, three families of Coleoptera (Meloidae, Ripiphoridae and Cleridae) produce triungulin larvae that parasitize aculeate Hymenoptera, especially various lineages of social and solitary bees, as well as wasps and other insects. The discovery of a fossil bee with associated beetle triungulins in mid-Cretaceous Burmese amber provides the earliest known date for the co-evolution between bees and beetle triungulins, specifically those of the family Cleridae (Coleoptera). The fossil bee has been described in a new family and the beetle triungulins are described in the present work in the form genus and species Anebomorpha cercorhampha gen. et sp. nov. (Coleoptera: Cleridae). The description of Anebomorpha cercorhampha is based on 21 triungulins of the family Cleridae, five of which are in direct contact with the primitive bee in the amber. The remainder are at various distances behind the bee. This is the earliest fossil evidence of co-evolution between beetle triungulins and a member of the aculeate Hymenoptera.

Section

References

  1. Böving, A. G., & Craighead, F. C. (1931). An illustrated synopsis of the principle larval forms of the Order Coleoptera. Entomologica Americana, 11, 1-351. https://doi:10.5962/bhl.title.6818
  2. Clausen, C. P. (1962). Entomophagous Insects. New York: Hafner Publishing Company.
  3. Clausen, C. P. (1976). Phoresy Among Entomophagous Insects. Annual Review of Entomology, 21(1), 343-368. https://doi:10.1146/annurev.en.21.010176.002015
  4. Cruickshank, R. D., & Ko, K. (2003). Geology of an amber locality in the Hukawng Valley, northern Myanmar. Journal of Asian Earth Sciences, 21(5), 441-455.
  5. Kirejtshuk, A. G. (2012). The first record of the family Cleridae (Coleoptera): Shartegopsis miranda gen. et sp. nov. in the mesozoic (Shar-Teg, Upper Jurassic, Southwestern Mongolia). Paleontological Journal, 46(6), 601-606. https://doi:10.1134/s0031030112060056
  6. Lawrence, J. F., & Britton, E. B. (1991). Coleoptera (beetles) (2 ed.). In CSIRO Division of Entomology (Ed.), The Insects of Australia, Vol ll (pp. 543-683). Ithaca, New York: Cornell University Press.
  7. Linsley, E. G., & MacSwain, J. W. (1943). Observations on the life history of Trichodes Ornatus (Coleoptera, Cleridae), a larval predator in the nests of bees and wasps. Annals of the Entomological Society of America, 36(4), 589-601. https://doi:10.1093/aesa/36.4.589
  8. MacSwain, J. W. (1956). A classification of the first instar larvae of the Meloidae (Coleoptera). UC Publications in Entomology, 12, 1-182.
  9. Petersen, A. (1957). Larvae of insects, Part 2. Edwards Brothers, Incorporated, Ann Arbor, Michigan, pp. 416
  10. Pinto, J. D., & Selander, R. B. (1970). The bionomics of blister beetles of the genus Meloe and a classification of the New World species. Illinois Biological Monographs, 42(1), 1-222. https://doi:10.5962/bhl.title.50239
  11. Poinar, G. O. (2009). Meloe dominicanus n. sp. (Coleoptera: Meloidae) phoretic on the bee Proplebia dominicana (Hymenoptera: Apidae) in Dominican amber. Proceedings of the Entomological Society of Washington, 111(1), 145-150. https://doi:10.4289/0013-8797-111.1.145
  12. Poinar, G. (2020a). Discoscapidae fam. nov. (Hymenoptera: Apoidea), a new family of stem lineage bees with associated beetle triungulins in mid-Cretaceous Burmese amber. Palaeodiversity, 12(1), 1. https://doi:10.18476/pale.v13.a1
  13. Poinar, G. (2020b, in press). The first fossil record of a microsporidian (Microsporidia) in Burmese amber. Current Trends in Microbiology.
  14. Poinar, G., & Brown, A. (2014). New genera and species of Jumping Ground Bugs (Hemiptera: Schizopteridae) in Dominican and Burmese amber, with a description of a meloid (Coleoptera: Meloidae) triungulin on a Burmese specimen. Annales de la Société entomologique de France (N.S.), 50(3-4), 372-381. https://doi:10.1080/00379271.2014.982025
  15. Poinar, G., Lambert, J. B., & Wu, Y. (2007). Araucarian source of fossiliferous Burmese amber: spectroscopic and anatomical evidence. Journal of the Botanical Research Institute of Texas, 1, 449-455.
  16. Ride, W. D. L. (1999). International code of zoological nomenclature = Code international de nomenclature zoologique. London: The International Trust for Zoological Nomenclature.
  17. Roubik, D. W. (1989). Ecology and natural history of tropical bees. Cambridge: Cambridge University Press.
  18. Saul-Gershenz, L. S., & Millar, J. G. (2006). Phoretic nest parasites use sexual deception to obtain transport to their host's nest. Proceedings of the National Academy of Sciences, 103(38), 14039-14044. https://doi:10.1073/pnas.0603901103
  19. Shi, G., Grimaldi, D. A., Harlow, G. E., Wang, J., Wang, J., Yang, M., . . . Li, X. (2012). Age constraint on Burmese amber based on U–Pb dating of zircons. Cretaceous Research, 37, 155-163. https://doi:10.1016/j.cretres.2012.03.014
  20. Topitzhofer, E., Marshall, C., Royce, L., & Sagili, R. (2018). First published report of triungulin larvae of Meloe sp. (Coleoptera: Meloidae) on honey bees in Oregon, U.S.A. The Pan-Pacific Entomologist, 94(3), 163. https://doi:10.3956/2018-94.3.163
  21. Torre-Bueno de la, J. A. (1989). A glossary of entomology (revised edition). New York: New York Entomological Society.

How to Cite

Poinar, Jr., G. ., & Brown, A. . (2020). Dating the Co-evolution Between Bees and Beetle Triungulins (Coleoptera: Cleridae) to the Mid-Cretaceous. Biosis: Biological Systems, 1(1), 02–07. https://doi.org/10.37819/biosis.001.01.0051

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