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Insectes Sociaux

, Volume 41, Issue 4, pp 443–455 | Cite as

Reproductivity and relatedness in a communal halictine beeLasioglossum (Chilalictus) hemichalceum

  • P. F. Kukuk
  • G. K. Sage
Research Articles

Summary

The biology of communal species is not well known. Here we report the reproductivity (number of offspring per female) and genetic relatedness forLasioglossum (Chilalictus) hemichalceum, a communal halictine bee. There is a positive Model II regression, with a slope indistinguishable from one, between natural logarithms of the number of offspring and the number of adult females in a colony; indicating that as colony size increases the reproductivity per female does not decrease. This pattern is like that found in one other communal species and unlike that found in a wide variety of eusocial species. Relatedness among adult nestmates, based on two variable loci, is low. For 52 colonies it is about 0.13, and for a subset of 25 reproductively active colonies it was not distinguishable from zero. This indicates that the role of kin selection is minor at best in this highly cooperative, communal species. A review of the relatedness data available for communal groups, both foundress associations and species that are communal throughout their colony cycle, indicates that communal sociality is often but not always associated with low intra colony relatedness.

Key words

Reproductivity relatedness social organization communal eusocial foundresses 

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References

  1. Abrams, J. and G. C. Eickwort, 1980a. Biology of the communal sweat bee,Agapostemon virescens (Hymenoptera: Halictidae) in New York state.Search (Cornell University Agriculture Experimental Station)1:1–20.Google Scholar
  2. Abrams, J. and G. C. Eickwort, 1980b. Nest switching and guarding by the communal sweat bee,Agapostemon virescens (Hymenoptera: Halictidae).Insectes Sociaux 28:105–116.Google Scholar
  3. Allendorf, F. W., N. Mitchell, N. Ryman and G. Stahl. 1977. Isozyme loci in brown trout (Salmo trutta L.). Detection and interpretation from population data.Hereditas 86:179–180.PubMedGoogle Scholar
  4. Axelrod, R. and D. Dion, 1988. The further evolution of cooperation.Science 242:1385–1390.Google Scholar
  5. Ayasse, M., R. Leys, P. Pamilo and J. Tengö, 1990. Kinship in communally nestingAndrena (Hymenoptera: Adrenidae) bees as indicated by composition of Dufour's gland secretions.Biochem. Syst. Ecol. 18:453–460.Google Scholar
  6. Bartz, S. H. and B. Hölldobler, 1982. Colony founding inMyrmecocystus mimicus Wheeler (Hymenoptera: Formicidae) and the evolution of foundress associations.Behav. Ecol. Sociobiol. 10:137–147.Google Scholar
  7. Berkelhammer, R. C., 1983. Population genetic structure of dolichoderine ants. In:The Biology of Social Insects (M. D. Breed, C. D. Michener and H. E. Evans, Eds.), Westview Press, Boulder.Google Scholar
  8. Clayton, J. W. and D. N. Tretiak, 1972. Amine-Cirate buffers for pH control in starch gel electrophoresis.J. Fish. Res. Bd. Can. 29:1169–1172.Google Scholar
  9. Crespi, B. J., 1991. Heterozygosity in the haplodiploid Thysanoptera.Evolution 45:458–464.Google Scholar
  10. Crozier, R. H., B. H. Smith and Y. C. Crozier, 1987. Relatedness and population structure of the primitively eusocial bee,Lasioglossum zephyrum (Hymenoptera: Halictidae) in Kansas.Evolution 41:902–911.Google Scholar
  11. Danforth, B. N., 1991a. Female foraging and intra-nest behavior of a communal bee,Perdita portalis Timberlake (Hymenoptera: Andrenidae).Ann. Ent. Soc. Am. 84:357–548.Google Scholar
  12. Danforth, B. N., 1991b. The morphology and behavior of dimorphic males inPerdita portails (Hymenoptera: Andrenidae).Behav. Ecol. Sociobiol. 29:235–247.Google Scholar
  13. Danforth, B.N., in prep. Nestmate relatedness in a communal bee,Perdita texana (Hymenoptera: Andrenidae), based on DNA fingerprinting.Google Scholar
  14. Eickwort, G. C., 1981a. Presocial insects. In:Social Insects, Vol. II., (H. R. Hermann, Ed.), Academic Press, New York, pp. 199–279.Google Scholar
  15. Eickwort, G. C., 1981b. Aspects of the nesting biology of five nearactic species ofAgapostemon (Hymenoptera: Halictidae).J. Kans. Entomol. Soc. 54:337–351.Google Scholar
  16. Eickwort, G. C. and K. R. Eickwort, 1969. Aspects of the biology of Costa Rican halictine bees, I.Agapostemon nasutus (Hymenoptera: Halictidae).J. Kans. Entomol. Soc. 42:421–452.Google Scholar
  17. Evans, H. E. and A. W. Hook, 1982. Communal nesting in AustralianCerceris digger wasps. In:The Biology of Social Insects (M. D. Breed, C. D. Michener, H. E. Evans, Eds.), Westview Press, Boulder.Google Scholar
  18. Evans, H. E. and A. W. Hook, 1986. Nesting behavior of AustralianCerceris digger wasps, with special reference to nest reutilization and nest sharing (Hymenoptera: Sphecidae).Sociobiology 11:275–302.Google Scholar
  19. Gadagkar, R., 1991. On testing the role of genetic asymmetries by haplodiploidy in the evolution of eusociality in the Hymenoptera.J. Genet. 70:1–31.Google Scholar
  20. Garófalo, C. A., 1985. Social Structure ofEuglossa cordata Nests (Hymenoptera: Apidae: Euglossini).Entomol. Gener. 11:77–83.Google Scholar
  21. Garófalo, C. A., E. Camillo, J. C. Serrano and J. M. M. Rebelo, 1992. Nest reuse and communal nesting inMicrothurge corumbae (Hymenoptera: Megachilidae), with special reference to nest defense.Ins. Soc. 39:301–311.Google Scholar
  22. Graur, D., 1985. Gene diversity in Hymenoptera.Evolution 39:190–199.Google Scholar
  23. Hagen, R. H., D. R. Smith and S. W. Rissing, 1988. Genetic relatedness among cofoundresses of two desert ants,Veromessor pergandei andAcromyrmex versicolor (Hymenoptera: Formicidae).Psyche 95:191–202.Google Scholar
  24. Harris, H. and D. A. Hopkinson, 1976.Handbook of Enzymes Electrophoresis in Human Genetics. Elsevier, New York.Google Scholar
  25. Hefetz, A., G. Bergström and J. Tengö, 1986. Species, individual and kin specific blends in Dufour's gland secretion of halictine bees: Chemical evidence.J. Chem. Ecol. 12:197–208.Google Scholar
  26. Kukuk, P. F., 1989. Evolutionary genetics of a primitively eusocial bee,Dialictus zephyrus. In:Evolutionary Genetics of Social Insects (R. E. Page Jr., M. D. Breed, Eds.), Westview Press, Boulder.Google Scholar
  27. Kukuk, P. F., 1992. Social interactions and familiarity in communal halictine bee,Lasioglossum (Chilalictus) erythrurum.Ethology 91:291–300.Google Scholar
  28. Kukuk, P.F., (in prep). Evolutionary maintenance of male dimorphism: Temporal shifts in adaptiveness.Google Scholar
  29. Kukuk, P. F. and R. H. Crozier, 1990. Trophallaxis in a communal halictine bee,Lasioglossum (Chilalictus) erythrurum.Proc. Nat. Acad. Sci. USA 87:5402–5404.PubMedGoogle Scholar
  30. Kukuk, P. F. and M. P. Schwarz, 1987. Intranest behavior of the communal sweat beeLasioglossum (Chilalictus) erythrurum (Hymenoptera: Halictidae).J. Kans. Ent. Soc. 60:58–64.Google Scholar
  31. Kukuk, P. F. and M. P. Schwarz, 1988. Macrocephalic male bees as functional reproductives and probable guards.Pan-Pacific Entomologist 64:131–137.Google Scholar
  32. Leary, R. F. and H. E. Booke, 1990. Starch gel electrophoresis and species distinctions. In:Methods for Fish Biology (C. B. Schreck and P. B. Moyle, Eds.), American Fisheries Society, Bethesda, 140–170.Google Scholar
  33. Matthews, R. W., 1991. Evolution of social behavior in sphecid wasps. In:The Social Biology of Wasps (K. G. Ross and R. W. Matthews, Eds.), Cornell University Press, Ithaca, 570–601.Google Scholar
  34. May, B., J.E. Marsden and C. G. Schenck, 1989.Electrophoretic Procedures, Recipes and Nomenclature used in the Cornell Laboratory for Ecological and Evolutionary Genetics, 57.Google Scholar
  35. McCorquodale, D. B., 1988. Relatedness among nestmates in a primitively social wasp,Cerceris antipodes (Hymenoptera: Sphecidae).Behav. Ecol. Sociobiol. 23:401–406.Google Scholar
  36. McCorquodale, D. B., 1989a. Nest Defense in Single- and Multifemale Nests ofCerceris antipodes (Hymenoptera: Sphecidae).Journal of Insect Behavior 2:267–275.Google Scholar
  37. McCorquodale, D. B., 1989b. Nest sharing, nest switching, longevity and overlap of generations inCerceris antipodes (Hymenoptera: Sphecidae).Insectes Sociaux 36:42–50.Google Scholar
  38. McCorquodale, D. B. and I. D. Naumann, 1988. A new Australian species of communal ground nesting wasp, in genusSpilomena Shuckard (Hymenoptera: Sphecidae: Pemphredoninae).J. Aust. Ent. Soc. 27:221–231.Google Scholar
  39. Michener, C. D., 1964. Reproductive efficiency in relation to colony size in hymenopterous societies.Insectes Sociaux 11:317–342.Google Scholar
  40. Michener, C. D., 1974.The Social Behavior of the Bees, Harvard University Press. Cambridge, 404.Google Scholar
  41. Mintzer, A. and S. B. Vinson, 1985. Cooperative colony foundation by females of the leafcutting ant,Atta texana in the laboratory.J.N.Y. Entomol Soc. 93:1047–1051.Google Scholar
  42. Nash, H. R. and P. R. Challinor, 1985. Fructose bisphosphate isozymes of the mouse, I. Inheritance.Biochemical Genetics 23:499–510. Nos. 7/8.PubMedGoogle Scholar
  43. Owen, R., 1985. Difficulties with the interpretation of patterns of genetic variation in the eusocial Hymenoptera.Evolution 39:201–205.Google Scholar
  44. Packer, L. and R. E. Owen, 1992. Variable enzyme systems in the Hymenoptera.Biochem. Syst. Ecol. 20:1–7.Google Scholar
  45. Packer, L. and R. E. Owen, 1994. Relatedness and sex ratio in a primitively eusocial halictine bee.Behav. Biol. Sociobiol. 34 1–10.Google Scholar
  46. Plateaux-Quénu, C., L. Plateaux and L. Packer, 1989. Biological notes onEvylaeus villosulus (K.) (Hymenoptera: Halictidae), a bivoltine, largely solitary halictine bee.Ins. Soc. 36:245–263.Google Scholar
  47. Pollock, G. B. and S. W. Rissing, 1985. Mating season and colony foundation of the seed-harvester ant,Veromessor pergandei.Psyche 92:125–134.Google Scholar
  48. Pollock, G. B. and S. W. Rissing, 1989. Intraspecific brood raiding, territoriality, and slavery in ants.Am. Nat. 133:61–70.Google Scholar
  49. Queller, D. C. and K. F. Goodnight, 1989. Estimating relatedness using genetic markers.Evolution 43:258–275.Google Scholar
  50. Reeve, H. K., 1991. Polistes. In:The Social Biology of Wasps (K. G. Ross and R. W. Matthews, Eds.), Cornell University Press, Ithaca, 99–148.Google Scholar
  51. Reeve, H. K. and F. L. W. Ratnieks, 1993. Queen-queen conflicts in polygamous societies: mutual tolerance and reproductive skew. In:Queen Number and Sociality in Insects (L. Keller, Ed.), Oxford University Press, Oxford, 43–85.Google Scholar
  52. Reeve, H. K., J. S. Reeve and D. W. Pfenning, 1985. Eusociality and genetic variability: a reevaluation.Evolution 39:200–201.Google Scholar
  53. Ridgeway, G. J., S. W. Sherburne and R. D. Lewis, 1970. Polmorphism in the esterases of Atlantic herring.Trans. Am. Fish. Soc. 99:147–151.Google Scholar
  54. Rissing, S. W. and G. B. Pollock, 1986. Social interaction among pleometrotic queens ofVeromessor pergandei (Hymenoptera: Formicidae) during colony foundation.Anim. Behav. 35:975–981.Google Scholar
  55. Rissing, S. W. and G. B. Pollock, 1987. Queen aggression, pleometrotic advantage and brood raiding in the antVeromessor pergandei (Hymenoptera: Formicidae).Anim. Behav. 35:975–981.Google Scholar
  56. Rissing, S. W., G. B. Pollock, M. R. Higgins, R. H. Hagen and D. R. Smith, 1989. Foraging specialization without relatedness or dominance among co-founding ant queens.Nature 338:420–422.Google Scholar
  57. Ross, K. G. and D. J. C. Fletcher, 1985. Comparative study of genetic and social structure in two forms of the fire ant,Solenopsis invicta (Hymenoptera: Formicidae).Behav. Ecol. Sociobiol. 27:387–392.Google Scholar
  58. Sakagami, S. F. and R. Zucchi, 1978. Nests ofHylaeus (Hylaeopsis) tricolor: the first record of nonsolitary life in colletid bees, with notes on communal and quasisocial colonies.J. Kans. Ent. Soc. 51:597–614.Google Scholar
  59. Santos, M. L. and C. A. Garófalo, 1994. Nesting biology and nest re-use ofEulaema nigrita (Hymenoptera: Apidae, Euglossini).Ins. Soc. 41:99–110.Google Scholar
  60. Schwarz, M. P. 1987. Intra-colony relatedness and sociality in the allodapine bee,Exoneura bicolor.Behav. Ecol. Sociobiol. 21:387–392.Google Scholar
  61. Schwarz, M. P. and M. W. Blows, 1991. Kin association during nest founding in the bee,Exoneura bicolor. Active discrimination, philopatry and familiar landmarks.Psyche 98:241–250.Google Scholar
  62. Schwarz, M. P., R. M. Lowe and K. L. Lefevre (in prep). Kin association in the social allodapine bee,Exoneura richardsoni. Google Scholar
  63. Selander, R. K., M. H. Smith, S. Y. Yang; W. E. Johnson and J. B. Gentry, 1971. Biochemical polymorphism and systematics in the genusPeromyscus: Variation in the old-field mouse (Peromyscus polionotus).Univ. Texas Publ. Genet. VI:50–90.Google Scholar
  64. Smith, B. H. and J. Wenzel, 1988. Pheromonal covariation and kinship in a social beeLasioglossum zephrum (Hymenoptera: Halictidae).J. Chem. Ecol. 14:41–94.Google Scholar
  65. Strassmann, J. E., 1989. Altruism and relatedness at colony foundation in social insects.Trends in Ecology and Evolution 4:371–374.Google Scholar
  66. Strassmann, J. E., C. R. Hughes, D. C. Queller, S. Turillazzi, R. Cervo, S. D. Davis and K. F. Goodnight, 1989. Genetic relatedness in primitively eusocial wasps.Nature 342:268–269.Google Scholar
  67. Tschinkel, W. R. and D. F. Howard, 1983. Colony founding by pleometrosis in the fire ant,Solenopsis invicta.Behav. Ecol. Sociobiol. 12:102–113.Google Scholar
  68. Vehrencamp, S. L., 1983a. Optimal degree of skew in cooperative societies.Amer. Zool 23:327–335.Google Scholar
  69. Vehrencamp, S. L., 1983b. A model for the evolution of despotic versus egalitarian societies.Anim. Behav. 31:667–682.Google Scholar
  70. Webb, E. C., 1984.Enzyme Nomenclature: Recommendations of the Nomenclature Committee of the International Union of Biochemistry on the Nomenclature and Classification of Enzymecatalyzed Reactions. Academic Press, Orlando.Google Scholar
  71. West Eberhard, M. J., 1978. Polygyny and the evolution of social behavior in wasps.J. Kans. Ent. Soc. 51:832–856.Google Scholar

Copyright information

© Birkhäuser Verlag 1994

Authors and Affiliations

  • P. F. Kukuk
    • 1
  • G. K. Sage
    • 1
  1. 1.Division of Biological SciencesThe University of MontanaMissoulaUSA

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