Naturwissenschaften

, 95:85 | Cite as

Fossil evidence for the early ant evolution

  • Vincent Perrichot
  • Sébastien Lacau
  • Didier Néraudeau
  • André Nel
Review
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Abstract

Ants are one of the most studied insects in the world; and the literature devoted to their origin and evolution, systematics, ecology, or interactions with plants, fungi and other organisms is prolific. However, no consensus yet exists on the age estimate of the first Formicidae or on the origin of their eusociality. We review the fossil and biogeographical record of all known Cretaceous ants. We discuss the possible origin of the Formicidae with emphasis on the most primitive subfamily Sphecomyrminae according to its distribution and the Early Cretaceous palaeogeography. And we review the evidence of true castes and eusociality of the early ants regarding their morphological features and their manner of preservation in amber. The mid-Cretaceous amber forest from south-western France where some of the oldest known ants lived, corresponded to a moist tropical forest close to the shore with a dominance of gymnosperm trees but where angiosperms (flowering plants) were already diversified. This palaeoenvironmental reconstruction supports an initial radiation of ants in forest ground litter coincident with the rise of angiosperms, as recently proposed as an ecological explanation for their origin and successful evolution.

Keywords

Formicidae Evolution Sociobiology Palaeobiogeography Palaeoecology 
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Notes

Acknowledgements

We thank Thierry Guyot and Eric Depré who gave some of the fossil ants discussed in this paper; Alain Canard (Univ. Rennes 1) for the preliminary comments on the zodariid fossil spiders; Carl Findley for checking the English; and the anonymous reviewers for the useful comments on the manuscript. This work was supported by the CNRS programme ECLIPSE II on “Cretaceous climates and ecosystems” and by Alexander von Humboldt Foundation for VP.

References

  1. Archibald SB, Cover SP, Moreau CS (2006) Bulldog ants of the Eocene Okanagan Highlands and history of the subfamily (Hymenoptera: Formicidae: Myrmeciinae). Ann Entomol Soc Am 99:487–523CrossRefGoogle Scholar
  2. Azar D (2000) Les ambres mésozoïques du Liban. Ph.D. dissertation, University Paris XI, Orsay, Paris, pp 1–164Google Scholar
  3. Bolton B (1995) A taxonomic and zoogeographical census of the extant ant taxa (Hymenoptera: Formicidae). J Nat Hist 29:1037–1056CrossRefGoogle Scholar
  4. Bolton B (2003) Synopsis and classification of Formicidae. Mem Am Entomol Inst 71:1–370Google Scholar
  5. Brady SG, Schultz TR, Fisher B, Ward PS (2006) Evaluating alternative hypotheses for the early evolution and diversification of ants. Proc Natl Acad Sci USA 103:18172–18177PubMedCrossRefGoogle Scholar
  6. Brandão CRF, Martins-Neto RG, Vulcano MA (1989) The earliest known fossil ant (first Southern Hemisphere Mesozoic record) (Hymenoptera, Formicidae, Myrmicinae). Psyche 96:195–208Google Scholar
  7. Brothers DJ, Rasnitsyn AP (2003) Diversity of Hymenoptera and other insects in the Late Cretaceous (Turonian) deposits at Orapa, Botswana: a preliminary review. Afr Entomol 11:221–226Google Scholar
  8. Crozier RH, Jermiin LS, Chiotis M (1997) Molecular evidence for a Jurassic origin of ants. Naturwissenschaften 84:22–23CrossRefGoogle Scholar
  9. Darling DC, Sharkey MJ (1990) Order Hymenoptera. In: Grimaldi DA (ed) Insects from the Santana Formation, Lower Cretaceous, of Brazil. Bull Am Mus Nat Hist 195:123–153Google Scholar
  10. Delclòs X, Arillo A, Peñalver E, Barrón E, Soriano C, López Del Valle R, Bernárdez E, Corral C, Ortuño VM (2007) Fossiliferous amber deposits from the Cretaceous (Albian) of Spain. Comptes Rendus Palevol 6:135–149CrossRefGoogle Scholar
  11. Dlussky GM (1975) Superfamily Formicoidea Latreille, 1802. Family Formicidae Latreille, 1802. In: Rasnitsyn AP (ed) Hymenoptera Apocrita of the Mesozoic. Trans Paleontol Inst Acad Sci USSR 147:114–122 (in Russian)Google Scholar
  12. Dlussky GM (1983) A new family of Upper Cretaceous Hymenoptera: an “intermediate link” between the ants and the scolioids. Paleontol Z 3:65–78 (in Russian, English translation in 1984, Paleontol J 17:63–76)Google Scholar
  13. Dlussky GM (1987) New Formicoidea (Hymenoptera) of the Upper Cretaceous. Paleontol Z 1987(1):131–135 (in Russian, English translation in 1988, Palaeontol J 21:146–150)Google Scholar
  14. Dlussky GM (1996) Ants (Hymenoptera: Formicidae) from Burmese amber. Paleontol J 30:449–454Google Scholar
  15. Dlussky GM (1999) The first find of the Formicoidea (Hymenoptera) in the Lower Cretaceous of the Northern Hemisphere. Paleontolol J 33:274–277Google Scholar
  16. Dlussky GM, Brothers DJ, Rasnitsyn AP (2004) The first Late Cretaceous ants (Hymenoptera: Formicidae) from southern Africa, with comments on the origin of the Myrmicinae. Insect Syst Evol 35:1–13Google Scholar
  17. Emery C (1911) Hymenoptera fam. Formicidae subfam. Ponerinae. Genera Insectorum 118:1–125Google Scholar
  18. Engel MS, Grimaldi DA (2005) Primitive new ants in Cretaceous amber from Myanmar, New Jersey, and Canada (Hymenoptera: Formicidae). Am Mus Novit 3485:1–23CrossRefGoogle Scholar
  19. Eskov KY (2002) Alphabetic list of selected insect fossil sites. 4.2. Fossil resins. In: Rasnitsyn AP, Quicke DLJ (eds) History of insects. Kluwer, Dordrecht, The Netherlands, pp 444–446Google Scholar
  20. Gomez B, Daviero-Gomez V, Perrichot V, Thévenard F, Coiffard C, Philippe M, Néraudeau D (2004) Assemblages floristiques de l’Albien-Cénomanien de Charente-Maritime (SO France). Ann Paléontol 90:147–159CrossRefGoogle Scholar
  21. Grimaldi DA, Agosti D (2000) A formicine in New Jersey Cretaceous amber (Hymenoptera: Formicidae) and early evolution of the ants. Proc Natl Acad Sci USA 97:13678–13683PubMedCrossRefGoogle Scholar
  22. Grimaldi DA, Engel MS (2005) Evolution of the insects. Cambridge University Press, New YorkGoogle Scholar
  23. Grimaldi DA, Agosti D, Carpenter JM (1997) New and rediscovered primitive ants (Hymenoptera: Formicidae) in Cretaceous amber from New Jersey, and their phylogenetics relationships. Am Mus Novit 3208:1–43Google Scholar
  24. Grimaldi DA, Shedrinsky AM, Wampler TP (2000) A remarkable deposit of fossiliferous amber from the Upper Cretaceous (Turonian) of New Jersey. In: Grimaldi DA (ed) Studies on fossils in amber, with particular reference to the Cretaceous of New Jersey. Backhuys Publishers, Leiden, pp 1–76Google Scholar
  25. Grimaldi DA, Engel MS, Nascimbene PC (2002) Fossiliferous Cretaceous amber from Myanmar (Burma): its rediscovery, biotic diversity, and paleontological significance. Am Mus Novit 3361:1–71CrossRefGoogle Scholar
  26. Hölldobler B, Wilson EO (1990) The ants. Harvard University Press, CambridgeGoogle Scholar
  27. Jell PA, Duncan PM (1986) Invertebrates, mainly insects, from the freshwater, Lower Cretaceous, Koonwarra fossil bed, (Korumburra Group), South Gippsland, Victoria. In: Jell PW, Roberts J (eds) Plants and invertebrates from the Lower Cretaceous Koonwarra fossil bed, South Gippsland, Victoria. Mem Assoc Australas Palaeontol 3:111–205Google Scholar
  28. Masse JP, Bellion Y, Benkhelil J, Dercourt J, Guiraud R, Ricou LE (1993) Lower Aptian (114–112 Ma). In: Dercourt J, Ricou LE, Vrielynck B (eds) Atlas Tethys, palaeoenvironmental maps. Gauthier-Villars, Paris, pp 135–152+1 mapGoogle Scholar
  29. Moreau CS, Bell CD, Vila R, Archibald SB, Pierce NE (2006) Phylogeny of the ants: diversification in the age of angiosperms. Science 312:101–104PubMedCrossRefGoogle Scholar
  30. Naumann ID (1993) The supposed Cretaceous ant Cretacoformica explicata Jell and Duncan. J Aust Entomol Soc 32:353–356CrossRefGoogle Scholar
  31. Nel A, Perrault G, Perrichot V, Néraudeau D (2004) The oldest ant in the Lower Cretaceous amber of Charente-Maritime (SW France) (Insecta: Hymenoptera: Formicidae). Geologica Acta 2:23–29Google Scholar
  32. Pekár S, Král J (2002) Mimicry complex in two central European zodariid spiders (Araneae: Zodariidae): how Zodarion deceives ants. Biol J Linn Soc 75:517–532CrossRefGoogle Scholar
  33. Perrichot V (2004) Early Cretaceous amber from south-western France: insight into the Mesozoic litter fauna. Geologica Acta 2:9–22Google Scholar
  34. Perrichot V (2005) Environnements paraliques à ambre et à végétaux du Crétacé nord-aquitain (Charentes, Sud-Ouest de la France). Mém Géosciences Rennes 118:1–310Google Scholar
  35. Perrichot V, Nel A, Néraudeau D, Lacau S, Guyot T (2007a) New fossil ants in French Cretaceous amber (Hymenoptera: Formicidae). Naturwissenschaften DOI  10.1007/s00114-007-302-7
  36. Perrichot V, Néraudeau D, Nel A, De Ploëg G (2007b) A reassessment of the Cretaceous amber deposits from France and their palaeontological significance. African Invertebrates 48:213–227Google Scholar
  37. Pike EM (1994) Historical changes in insect community structure as indicated by hexapods of Upper Cretaceous Alberta (Grassy Lake) amber. Can Entomol 126:695–702CrossRefGoogle Scholar
  38. Poinar GO, Danforth BN (2006) A fossil bee from Early Cretaceous Burmese amber. Science 314:614PubMedCrossRefGoogle Scholar
  39. Poinar GO, Milki R (2001) Lebanese amber. The oldest ecosystem in fossilized resin. Oregon State University Press, CorvallisGoogle Scholar
  40. Rasnitsyn AP, Martínez-Delclòs X (2000) Wasps (Insecta: Vespida = Hymenoptera) from the Early Cretaceous of Spain. Acta Geol Hisp 35:65–95Google Scholar
  41. Rasnitsyn AP, Zherikhin VV (2002) Alphabetic list of selected insect fossil sites. 4.1. Impression fossils. In: Rasnitsyn AP, Quicke DLJ (eds) History of insects. Kluwer, Dordrecht, the Netherlands, pp 437–444CrossRefGoogle Scholar
  42. Rasnitsyn AP, Jarzembowski EA, Ross AJ (1998) Wasps (Insecta: Vespida = Hymenoptera) from the Purbeck and Wealden (Lower Cretaceous) of southern England and their biostratigraphical and palaeoenvironmental significance. Cretac Res 19:329–391CrossRefGoogle Scholar
  43. Scotese CR (2001) Atlas of earth history, vol 1. PALEOMAP Project, Arlington, TexasGoogle Scholar
  44. Ward PS, Brady SG (2003) Phylogeny and biogeography of the ant subfamily Myrmeciinae (Hymenoptera: Formicidae). Invertebrate Systematics 17:361–386CrossRefGoogle Scholar
  45. Wilson EO (1985) Ants from the Cretaceous and Eocene amber of North America. Psyche 92:205–216Google Scholar
  46. Wilson EO, Hölldobler B (2005a) The rise of the ants: a phylogenetic and ecological explanation. Proc Natl Acad Sci USA 102:7411–7414PubMedCrossRefGoogle Scholar
  47. Wilson EO, Hölldobler B (2005b) Eusociality: origin and consequences. Proc Natl Acad Sci USA 102:13367–13371PubMedCrossRefGoogle Scholar
  48. Wilson EO, Carpenter FM, Brown WL Jr (1967) The first Mesozoic ants, with the description of a new subfamily. Psyche 74:1–19CrossRefGoogle Scholar
  49. Zherikhin VV, Mostovski MB, Vršanský P, Blagoderov VA, Lukashevich ED (1999) The unique Lower Cretaceous locality Baissa and other contemporaneous fossil insect sites in North and West Transbaikalia. In: Vršanský P (ed.) Proceedings of the First Palaeoentomological Conference, Moscow, 1998. AMBA Projects, Bratislava, Slovakia, pp 185–191Google Scholar
  50. Ziegler PA (1990) Geological atlas of western and central Europe, 2nd ed. Shell International Petroleum, Geological Society, LondonGoogle Scholar
  51. Ziegler AM, Rowley DB (1998) The vanishing record of epeiric seas with emphasis on the Late Cretaceous “Hudson Seaway”. In: Crowley TJ, Burke K (eds) Tectonic boundary conditions for climate reconstructions. Oxford University Press, Oxford, pp 147–165Google Scholar

Copyright information

© Springer-Verlag 2007

Authors and Affiliations

  • Vincent Perrichot
    • 1
  • Sébastien Lacau
    • 2
  • Didier Néraudeau
    • 3
  • André Nel
    • 4
  1. 1.Museum für Naturkunde der Humboldt-Universität zu BerlinBerlinGermany
  2. 2.Laboratório de Zoologia e Parasitologia Animal, DEBIUniversidade Estadual do Sudoeste da BahiaItapetingaBrazil
  3. 3.Géosciences Rennes, UMR CNRS 6118, Université Rennes 1Rennes cedexFrance
  4. 4.Muséum National d’Histoire Naturelle, Entomologie, UMR CNRS 5202ParisFrance

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