Behavioral Ecology and Sociobiology

, Volume 61, Issue 8, pp 1143–1149

Worker policing and nest mate recognition in the ant Formica fusca

Original Paper

Abstract

A conflict over male production arises in social insects where workers are able to lay unfertilized male eggs. This happens because each female (queen or worker) is most closely related to her own sons and is thus predicted to reproduce. The conflict is modulated by worker policing where workers prevent each other from reproducing by aggression or egg cannibalism. In this study, we show that in the ant Formica fusca, worker policing occurs by egg cannibalism rather than by overt aggression among workers. Furthermore, we show that, contrary to bees, wasps and other ant species, egg discrimination in F. fusca is not based only on a universal queen signature chemical and that nest mate recognition of eggs occurs.

Keywords

Formica Hymenoptera Worker policing Social conflict Nest mate recognition Social insect 

References

  1. Beekman M, Ratnieks FLW (2003) Power over reproduction in social Hymenoptera. Philos Trans R Soc Lond B 358:1741–1753CrossRefGoogle Scholar
  2. Beekman M, Komdeur J, Ratnieks FLW (2003) Reproductive conflicts in social animals: who has power? Trends Ecol Evol 18:277–282CrossRefGoogle Scholar
  3. Boomsma JJ, Nielsen J, Sundström L, Oldham NJ, Petersen HC, Morgan ED (2003) Kin-assessment without kin discrimination in social insects. Proc Natl Acad Sci USA 100:8799–8804PubMedCrossRefGoogle Scholar
  4. Boulay R, Hefetz A, Soroker V, Lenoir A (2001) Camponotus fellah colony integration: worker individuality necessitates frequent hydrocarbon exchanges. Anim Behav 59:1127–1133CrossRefGoogle Scholar
  5. Boulay R, Katzav-Gozansky T, Vandermeer RK, Hefezt A (2003) Colony insularity through queen control on worker social motivation in ants. Proc R Soc Lond B 270:971–977CrossRefGoogle Scholar
  6. Bourke AFG (1988) Worker reproduction in the higher eusocial Hymenoptera. Q Rev Biol 63:291–311CrossRefGoogle Scholar
  7. Bourke AFG, Franks NR (1995) Social evolution in ants. Princeton University Press, Princeton, New JerseyGoogle Scholar
  8. Buschinger A (1986) Evolution of social parasitism in ants. Trends Ecol Evol 1:155–160CrossRefGoogle Scholar
  9. Collingwood C (1979) The Formicidae (Hymenoptera) of Fennoscandia and Denmark. Fauna Entomol Scand 8:1–174Google Scholar
  10. Crozier R, Pamilo P (1996) Evolution of social insect colonies. Oxford University Press, OxfordGoogle Scholar
  11. Czechowski W, Radchenko A, Czechowska W (2002) The ants of Poland. Museum and Institute of Zoology PAS, WarsawGoogle Scholar
  12. D’Ettorre P, Mondy N, Lenoir A, Errard C (2002) Blending in with the crowd: social parasites integrate into their host colonies using a flexible chemical signature. Proc R Soc Lond B 269:1911–1918CrossRefGoogle Scholar
  13. D’Ettorre P, Heinze J, Ratnieks FLW (2004) Worker policing by egg eating in the ponerine ant Pachycondyla inversa. Proc R Soc Lond B 271:1427–1434CrossRefGoogle Scholar
  14. Endler A, Liebig J, Schmitt T, Parker JE, Jones GR, Schreier P, Hölldobler B (2004) Surface hydrocarbons of queen eggs regulate worker reproduction in a social insect. Proc Natl Acad Sci USA 101:2945–2950PubMedCrossRefGoogle Scholar
  15. Foster KR (2004) Diminishing returns in social evolution: the not-so-tragic commons. J Evol Biol 17:1058–1072PubMedCrossRefGoogle Scholar
  16. Foster KR, Ratnieks FLW (2001) Paternity, reproduction and conflict in vespine wasps: a model system for testing kin selection predictions. Behav Ecol Sociobiol 50:1–8CrossRefGoogle Scholar
  17. Frank SA (1995) Mutual policing and repression of competition in the evolution of cooperation groups. Nature 377:520–522PubMedCrossRefGoogle Scholar
  18. Frank SA (1996) Policing and group cohesion when resources vary. Anim Behav 52:1163–1169CrossRefGoogle Scholar
  19. Frank SA (1998) Foundations of social evolution. Princeton University Press, Princeton, New JerseyGoogle Scholar
  20. Frank SA (2003) Repression of competition and the evolution of cooperation. Evolution 57:693–705PubMedCrossRefGoogle Scholar
  21. Franks NR, Ireland B, Bourke AFG (1990) Conflicts, social economics and life history strategies in ants. Behav Ecol Sociobiol 27:175–181CrossRefGoogle Scholar
  22. Gösswald K (1989) Die Waldameise. AULA-Verlag, WiesbadenGoogle Scholar
  23. Hamilton WD (1964) The genetical evolution of social behaviour I and II. J Theor Biol 7:1–16, 17–52PubMedCrossRefGoogle Scholar
  24. Hannonen M, Sundström L (2003) Worker nepotism among polygynous ants. Nature 42:921Google Scholar
  25. Hannonen M, Sledge MF, Turillazzi S, Sundström L (2002) Queen reproduction, chemical signalling and worker behaviour in polygyne colonies of the ant Formica fusca. Anim Behav 64:477–485CrossRefGoogle Scholar
  26. Hannonen M, Helanterä H, Sundström L (2004) Habitat age, breeding system and kinship in the ant Formica fusca. Mol Ecol 13:1579–1588PubMedCrossRefGoogle Scholar
  27. Helanterä H (2004) Kinship and conflicts over male production in Formica ants. PhD thesis, University of HelsinkiGoogle Scholar
  28. Helanterä H, Sundström L (2005) Worker reproduction in the ant Formica fusca. J Evol Biol 18:162–171PubMedCrossRefGoogle Scholar
  29. Härtel S, Neumann P, Raassen FS, Moritz RFA, Hepburn HR (2006) Social parasitism by Cape honeybee workers in colonies of their own subspecies (Apis mellifera capensis Esch.). Insectes Soc 53:183–193CrossRefGoogle Scholar
  30. Iwanishi S, Hasegawa E, Ohkawara K (2003) Worker oviposition and policing behaviour in the myrmicine ant Aphaenogaster smythiesi japonica Forel. Anim Behav 66:513–519CrossRefGoogle Scholar
  31. Johnson CA, Vander Meer RK, Lavine B (2001) Changes in the cuticular hydrocarbon patterns of the slave-maker queen, Polyergus breviceps after killing a Formica host queen. J Chem Ecol 27:1787–1804PubMedCrossRefGoogle Scholar
  32. Keller L (ed) (1999) Levels of selection in evolution. Princeton University Press, Princeton, New JerseyGoogle Scholar
  33. Landolt PJ, Akre RD, Greene A (1977) Effects of colony division on Vespula atropilosa (Sladen) (Hymenoptera: Vespidae). J Kans Entomol Soc 50:135–147Google Scholar
  34. Le Moli F, Mori A (1986) The aggression test as a possible taxonomic tool in the Formica rufa group. Aggress Behav 12:93–102Google Scholar
  35. Le Moli F, Parmigiani S (1981) Laboratory and field observations of attack by the red wood ant Formica lugubris Zett on Formica cunicularia Latr (Hymenoptera: Formicidae). Aggress Behav 7:341–350Google Scholar
  36. Lenoir A, Cuisset D, Hefetz A (2001) Effect of social isolation on hydrocarbon pattern and nestmate recognition in the ant Aphaenogaster senilis (Hymenoptera, Formicidae). Insectes Soc 48:101–109CrossRefGoogle Scholar
  37. Liebig J, Peeters C, Hölldobler B (1999) Worker policing limits the number of dominants in a ponerine ant. Proc R Soc Lond B 266:1865–1870CrossRefGoogle Scholar
  38. Liebig J, Peeters C, Oldham NJ, Markstädter C, Hölldobler B (2000) Are variations in cuticular hydrocarbons of queens and workers a reliable signal of fertility in the ant Harpegnathos saltator? Proc Natl Acad Sci USA 97:4124–4131PubMedCrossRefGoogle Scholar
  39. Liu ZB, Yamane S, Wang QC, Yamamoto H (2001) Nestmate recognition and temporal modulation in the patterns of cuticular hydrocarbons in natural colonies of Japanese carpenter ant Camponotus japonicus (Hymenoptera, Formicidae). J Ethol 16:57–65Google Scholar
  40. Lopez-Vaamonde C, Koning JW, Brown RM, Jordan WC, Bourke AFG (2004) Social parasitism by male-producing reproductive workers in a eusocial insect. Nature 430:557–560PubMedCrossRefGoogle Scholar
  41. Martin SJ, Beekman M, Wossler TC, Ratnieks FLW (2002) Parasitic Cape honeybee workers, Apis mellifera capensis, evade policing. Nature 415:163–165PubMedGoogle Scholar
  42. Maynard-Smith J, Szathmary E (1995) The major transitions in evolution. Oxford University Press, OxfordGoogle Scholar
  43. Miller DG, Ratnieks FLW (2001) The timing of worker reproduction and breakdown of policing behaviour in queenless honey bee (Apis mellifera L) societies. Insectes Soc 48:178–184CrossRefGoogle Scholar
  44. Monnin T, Peeters C (1999) Dominance hierarchy and reproductive conflicts among subordinates in a monogynous queenless ant. Behav Ecol 10:323–332CrossRefGoogle Scholar
  45. Monnin T, Ratnieks FLW (2001) Policing in queenless ponerine ants. Behav Ecol Sociobiol 50:97–108CrossRefGoogle Scholar
  46. Pirk CWW, Neumann P, Ratnieks FLW (2003) Cape honeybees, Apis mellifera capensis, police worker-laid eggs despite the absence of relatedness benefits. Behav Ecol 14:347–352CrossRefGoogle Scholar
  47. Ratnieks FLW (1988) Reproductive harmony via mutual policing by workers in eusocial Hymenoptera. Am Nat 132:217–236CrossRefGoogle Scholar
  48. Ratnieks FLW (1995) Evidence for a queen-produced egg-marking pheromone and its use in worker policing in the honey-bee. J Apic Res 34:31–37Google Scholar
  49. Ratnieks FLW, Visscher PK (1989) Worker policing in the honeybee. Nature 342:796–797CrossRefGoogle Scholar
  50. Ratnieks FLW, Wenseleers T (2005) Policing in insect societies. Science 307:54–56PubMedCrossRefGoogle Scholar
  51. Ratnieks FLW, Foster KR, Wenseleers T (2006) Conflict resolution in insect societies. Annu Rev Entomol 51:581–608PubMedCrossRefGoogle Scholar
  52. Savolainen R (1990) Colony success of the submissive ant Formica fusca within territories of the dominant Formica polyctena. Ecol Entomol 15:79–85Google Scholar
  53. Sundström L, Boomsma JJ (2001) Conflicts and alliances in insect families. Heredity 86:515–521PubMedCrossRefGoogle Scholar
  54. Trivers RL, Hare H (1976) Haploidiploidy and the evolution of social insects. Science 191:249–263PubMedCrossRefGoogle Scholar
  55. Vander Meer RK, Alonso LE (2002) Queen primer pheromone affects conspecific fire ant (Solenopsis invicta) aggression. Behav Ecol Sociobiol 51:122–130CrossRefGoogle Scholar
  56. Vienne V, Errard C, Lenoir A (1998) Influence of the queen on worker behaviour in ants. Ethology 104:431–446CrossRefGoogle Scholar
  57. Visscher PK, Dukas R (1995) Honey bees recognize development of nestmates’ ovaries. Anim Behav 49:542–544CrossRefGoogle Scholar
  58. Wenseleers T, Hart A, Helanterä H, Ratnieks FLW (2004) Worker reproduction and policing in insect societies: an ESS analysis. J Evol Biol 17:1035–1047PubMedCrossRefGoogle Scholar
  59. Woyciechowski M, Lomnicki A (1987) Multiple mating of queens and the sterility of workers among eusocial Hymenoptera. J Theor Biol 128:317–327Google Scholar

Copyright information

© Springer-Verlag 2007

Authors and Affiliations

  1. 1.Department of Biological and Environmental SciencesUniversity of HelsinkiHelsinkiFinland
  2. 2.Laboratory of Apiculture and Social Insects, Department of Animal and Plant SciencesUniversity of SheffieldSheffieldUK

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