Intracolony chemical communication in social insects
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Akino T., Yamamura K., Wakamura S. and Yamaoka R. 2004. Direct behavioral evidence for hydrocarbons as nestmate recognition cues in Formica japonica (Hymenoptera: Formicidae). Appl. Entomol. Zool. 39: 381-387
Arnold G., Quenet B., Cornuet J.M., Masson C., De Schepper B., Estoup A. and Gasqui P. 1996. Kin recognition in honeybees. Nature 379: 498
Aubert A. and Richard F.-J. 2008. Social management of LPS-induced inflammation in Formica polyctena ants. Brain Behav. Immun. 22: 833-837
Backx A.G., Guzman-Novoa E. and Thompson G.J. 2012. Factors affecting ovary activation in honey bee workers: a meta-analysis. Insect. Soc. 59: 381-388
Bagnères A.G. and Blomquist G.J. 2010. Site of synthesis, mechanism of transport and selective deposition of hydrocarbons. In: Insect Hydrocarbons: Biology, Biochemistry, and Chemical Ecology (Blomquist G.J. and Bagnères A.G., Eds). Cambridge University Press, pp 75-99
Baker T.C. 2011. Insect pheromones: useful lessons for crustacean pheromone programs? In: Chemical Communication in Crustaceans (Breithaupt T. and Thiel M., Eds). Springer Science, pp 531-550
Barron A.B. and Robinson G.E. 2008. The utility of behavioral models and modules in molecular analyses of social behavior. Genes Brain Behav. 7: 257-265
Bennett B. 1989. Nestmate recognition systems in a monogynous-polygynous species pair of ants (Hymenoptera: Formicidae). I. Worker and queen derived cues. Sociobiology 16: 121-139
Beye M., Neumann P., Chapuisat M., Pamilo P. and Moritz R.F.A. 1998. Nestmate recognition and the genetic relatedness of nests in the ant Formica pratensis. Behav. Ecol. Sociobiol. 43: 67-72
Beye M., Neumann P. and Moritz R.F.A. 1997. Nestmate recognition and the genetic gestalt in the mound-building ant Formica polyctena. Insect. Soc. 44: 49-58
Bhadra A., Mitra A., Deshpande S., Chandrasekhar K., Naik D., Hefetz A. and Gadagkar R. 2010. Regulation of reproduction in the primitively eusocial wasp Ropalidia marginata: on the trail of the queen pheromone. J. Chem. Ecol. 36: 424-431
Billen J. 2011. Exocrine glands and their key function in the communication system of social insects. Formosan Entomol. 31: 75-84
Billen J. and Morgan E.D. 1998. Pheromone communication in social insects: sources and secretions. In: Pheromone Communication in Social Insects Ants, Wasps, Bees, and Termites (Vander Meer R.K., Breed M.D., Espelie K.E. and Winston M.L., Eds). Westview Press, Boulder, Colorado, pp 3-33
Blomquist G.J. and Bagnères A.G. 2010. Insect Hydrocarbons: Biology, Biochemistry, and Chemical Ecology. Cambridge University Press, New York
Boomsma J.J. and Franks N.R. 2006. Social insects: from selfish genes to self organization and beyond. Trends Ecol. Evol. 21: 303-308
Boomsma J.J., Nielsen J., Sundström L., Oldham N.J., Tentschert J., Petersen H.C. and Morgan E.D. 2003. Informational constraints on optimal sex allocation in ants. Proc. Natl Acad. Sci. USA 100: 8799-8804
Borges A.A., Ferreira-Caliman M.J., Nascimento F.S., Campos L.A.O. and Tavares M.G. 2012. Characterization of cuticular hydrocarbons of diploid and haploid males, workers and queens of the stingless bee Melipona quadrifasciata. Insect. Soc. 59: 479-486
Böröczky K., Wada-Katsumata A., Batchelor D., Zhukovskaya M. and Schal C. 2013. Insects groom their antennae to enhance olfactory acuity. Proc. Natl Acad. Sci. USA (in press)
Bos N., Lefevre T., Jensen A.B. and D’Ettorre P. 2012. Sick ants become unsociable. J. Evol. Biol. 25: 342-351
Boulay R., Hefetz A., Soroker V. and Lenoir A. 2000. Camponotus fellah colony integration: worker individuality necessitates frequent hydrocarbon exchanges. Anim. Behav. 59: 1127-1133
Boulay R., Katzav-Gozansky T., Hefetz A. and Lenoir A. 2004. Odour convergence and tolerance between nestmates through trophallaxis and grooming in the ant Camponotus fellah (Dalla Torre). Insect. Soc. 51: 55-61
Bowden R.M., Williamson M. and Breed M.D. 1998. Floral oils: their effect on nestmate recognition in the honey bee, Apis mellifera. Insect. Soc. 45: 209-214
Brady S., Sipes S., Pearson A. and Danforth B. 2006. Recent simultaneous origins of eusociality in halictid bees. Proc. R. Soc. B 273: 1643-1649
Brandstaetter A.S., Endler A. and Kleineidam C.J. 2008. Nestmate recognition in ants is possible without tactile interaction. Naturwissenschaften 95: 601-608
Breed M., Perry S. and Bjostad L.B. 2004. Testing the blank state hypothesis: why honey bee colonies accept young bees. Insect. Soc. 51: 12-16
Breed M.D. 1998b. Chemical cues in kin-recognition: criteria for identification, experimental approaches, and the honey bee as an example. In: Pheromone Communication in Social Insects (Vander Meer R.K., Breed M.D., Espelie C. and Winston M., Eds). Boulder, CO: Westview Press, pp 57-78
Breed M.D., Leger E.A., Pearce A.N. and Wang Y.J. 1998. Comb wax effects on the ontogeny of honey bee nestmate recognition. Anim. Behav. 55: 13-20
Brockmann A., Groh C. and Fröhlich B. 2003. Wax perception in honeybees: contact is not necessary. Naturwissenschaften 90: 424-427
Bruschini C., Cervo R., Cini A., Pieraccini G., Pontieri L., Signorotti L. and Turillazzi S. 2011. Cuticular hydrocarbons rather than peptides are responsible for nestmate recognition in Polistes dominulus. Chem. Senses 36: 715-723
Bruschini C., Cervo R. and Turillazzi S. 2010. Pheromones in social wasps. In: Vitamins and Hormones (Klitwack G., Ed). Academic Press, Burlington, Massachusetts, pp 447-492
Buczkowski G., Kumar R., Suib S.L. and Silverman J. 2005. Diet-related modification of cuticular hydrocarbon profiles of the Argentine ant, Linepithema humile, diminishes intercolony aggression. J. Chem. Ecol 31: 829-843
Buffin A., Mailleux A.C., Detrain C. and Deneubourg J.L. 2011. Trophallaxis in Lasius niger: a variable frequency and constant duration for three food types. Insect. Soc. 58: 177-183
Butler C.G. and Fairey E.M. 1963. The role of the queen in preventing oogenesis in worker honey bees. J. Apic. Res. 2: 14-18
Caldera E.J. and Holway D.A. 2004. Evidence that queens do not influence nestmate recognition in Argentine ants. Insect. Soc. 51: 109-112
Carlin N.F. and Hölldobler B. 1987. The kin recognition system of carpenter ants (Camponotus spp.) II. Larger colonies. Behav. Ecol. Sociobiol. 20: 209 - 217
Cervo R., Dani F.R., Zanetti P., Massolo A. and Turillazzi S. 2002. Chemical nestmate recognition in a stenogastrine wasp, Liostenogaster flavolineata (Hymenoptera: Vespidae). Ethol. Ecol. Evol. 14: 351-363
Chapuisat M., Bernasconi C., Hoehn S. and Reuter M. 2005. Nestmate recognition in the unicolonial ant Formica paralugubris. Behav. Ecol. 16: 15-19
Cotoneschi C., Dani F.R., Cervo R., Sledge M.F. and Turillazzi S. 2007. Polistes dominulus (Hymenoptera: Vespidae) larva possess their own chemical signature. J. Insect Physiol. 53: 954-963
Couvillon M.J. and Ratnieks F.L.W. 2008. Odour transfer in stingless bee marmelada (Frieseomelitta varia) demonstrates that entrance guards use an “undesirable-absent” recognition system. Behav. Ecol. Sociobiol. 62: 1099-1105
Crosland M.W.J. 1989. Kin recognition in the ant Rhytidoponera confusa. I. Environmental odour. Anim. Behav. 37: 912-919
Crozier R.H. and Pamilo P. 1996. Evolution of Social Insect Colonies. Oxford University Press, Oxford
Cuvillier-Hot V., Cobb M., Malosse C. and Peeters C. 2001. Sex, age and ovarian activity affect cuticular hydrocarbons in Diacamma ceylonense, a queenless ant. J. Insect Physiol. 47: 485-493
Cuvillier-Hot V., Gadagkar R., Peeters C. and Cobb M. 2002. Regulation of reproduction in a queenless ant: aggression, pheromones and reduction in conflict. Proc. R. Soc. Lond. B 269: 1295-1300
Cuvillier-Hot V., Lenoir A., Crewe R., Malosse C. and Peeters C. 2004. Fertility signaling and reproductive skew in queenless ants. Anim. Behav. 68: 1209-1219
Dahbi A., Cerdà X. and Lenoir A. 1998a. Ontogeny of colonial hydrocarbon label in callow workers of the ant Cataglyphis iberica. Anim. Physiol. 321: 395-402
Dahbi A., Hefetz A., Cerdà X. and Lenoir A. 1999. Trophallaxis mediates uniformity of colony odor in Cataglyphis iberica ants (Hymenoptera, Formicidae). J. Insect Behav. 12: 559-567
Dahbi A. and Lenoir A. 1998b. Nest separation and the dynamics of the Gestalt odor in the polydomous ant Cataglyphis iberica (Hymenoptra, Formicidae). Behav. Ecol. Sociobiol 42: 349-355
Dani F.R., Corsi S., Pradella D., Jones G.R. and Turillazzi S. 2004a. GC-MS analysis of the epicuticule lipids of Apis mellifera reared in central Italy. Insect Social Life 5: 103-109
Dani F.R., Foster K.R., Zacchi F., Seppä P., Massolo A. et al. 2004b. Can cuticular lipids provide sufficient information for within-colony nepotism in wasps? Proc. R. Soc. Lond. B 271: 745-753
Dani F.R., Fratini S. and Turillazzi S. 1996. Behavioural evidence for involvement of Dufour’s gland secretion in nestmate recognition in the social wasp Polistes dominulus (Hymenoptera: Vespidae). Behav. Ecol. Sociobiol. 38: 311-319
Dani F.R., Jones G.R., Corsi S., Beard R., Pradella D. and Turillazzi S. 2005. Nestmate recognition cues in the honey bee: differential importance of cuticular alkanes and alkenes. Chem. Senses 30: 477-489
Dani F.R., Jones G.R., Destri S., Spencer S.H. and Turillazzi S. 2001. Deciphering the recognition signature within the cuticular chemical profile of paper wasps. Anim. Behav. 62: 165-171
Dani F.R., Jones G.R., Morgan E.D. and Turillazzi S. 2003. Reevaluation of the chemical secretion of the sternal glands of Polistes social wasps (Hymenoptera Vespidae). Ethol. Ecol. Evol. 15: 73-82
Dapporto L., Lambardi D. and Turillazzi S. 2008. Not only cuticular lipids: first evidence of differences between foundresses and their daughters in polar substances in the paper wasp Polistes dominulus. J. Insect Physiol. 54: 89-95
De Biseau J.-C., Passera L., Daloze D. and Aron S. 2004. Ovarian activity correlates with extreme changes in cuticular hydrocarbon profiles in the highly polygynous ant, Linepithema humile. J. Insect Physiol. 50: 585-593
Del Piccolo F., Nazzi F., Della Vedova G. and Milani N. 2010. Selection of Apis mellifera workers by the parasitic mite Varroa destructor using host cuticular hydrocarbons. Parasitology 137: 967-973
Denis D., Blatrix R. and Fresneau D. 2006. How an ant manages to display individual and colonial signals by using the same channel. J. Chem. Ecol 32: 1647-1661
Dietemann V., Hölldobler B. and Peeters C. 2002. Caste specialization and differentiation in reproductive potential in the phylogenetically primitive ant Myrmecia gulosa. Insect. Soc. 49: 289-298
Dietemann V. and Peeters C. 2000. Queen influence on the shift from trophic to reproductive eggs laid by workers of Pachycondyla apicalis. Insect. Soc. 47: 223-228
Dietemann V., Peeters C. and Hölldobler B. 2005. Role of the queen in regulating reproduction in the bulldog ant Myrmecia gulosa: control or signalling? Anim. Behav. 69: 777-784
Dietemann V., Peeters C., Liebig J., Thivet V. and Hölldobler B. 2003. Cuticular hydrocarbons mediate discrimination of reproductives and non reproductives in the ant Myrmecia gulosa. Proc. Natl Acad. Sci. USA 100: 10341-10346
Dijkstra M.B., Nash D.R. and Boomsma J.J. 2005. Self-restraint and sterility in workers of Acromyrmex and Atta leafcutter ants. Insect. Soc. 52: 67-76
Dronnet S., Lohou C., Christides J.P. and Bagnères A.G. 2006. Cuticular hydrocarbon composition reflects genetic relationship among colonies of the introduced termite Reticulitermes santonensis Feytaud J. Chem. Ecol 32: 1027-1042
Endler A., Liebig J., Schmitt T., Parker J.E., Jones G.R., Schreier P. and Hölldobler B. 2004. Surface hydrocarbons of queen eggs regulate worker reproduction in a social insect. Proc. Natl Acad. Sci. USA 101: 2945-2950
Errard C., Hefetz A. and Jaisson P. 2006. Social discrimination tuning in ants: template formation and chemical similarity. Behav. Ecol. Sociobiol. 59: 353-363
Fan Y., Richard F.-J., Nabila R. and Grozinger C.M. 2010. Effects of queen mandibular pheromone on nestmate recognition in worker honeybees, Apis mellifera. Anim. Behav. 79: 649-656
Fan Y., Zurek L., Dykstra M.J. and Schal C. 2003. Hydrocarbon synthesis by enzymatically dissociated oenocytes of the abdominal integument of the German Cockroach, Blatella germanica. Naturwissenschaften 90: 121-126
Ferveur J.F., Savarit F., O’Kane C.J., Sureau G., Greenspan R.J. and Jallon J.M. 1997. Genetic feminization of pheromones and its behavioral consequences in Drosophila males. Science 276: 1555-1558
Fierro M.M., Cruz-Lopez L., Sanchez D. and Villanueva-Gutiérrez R. 2011. Queen volatile as a modulator of Tetragonisca angustula. J. Chem. Ecol. 37: 1255-1262
Fletcher D.J.C. and Blum M.S. 1981. Pheromonal control of dealation and oogenesis in virgin queen fire ants. Science 212: 73-75
Fletcher D.J.C. and Ross K.G. 1985. Regulation of reproduction in eusocial Hymenoptera. Annu. Rev. Entomol. 30: 319-343
Foitzik S., Sturm H., Pusch K., D’Ettorre P. and Heinze J. 2007. Nestmate recognition and intraspecific chemical and genetic variation in Temnothorax ants. Anim. Behav. 73: 999-1007
Gamboa G., Reeve H.K., Ferguson I.D. and Wacker T.L. 1986. Nestmate recognition in social wasps: the origin and acquisition of recognition odours. Anim. Behav. 34: 685-695
Gamboa G.J. 2004. Kin recognition in eusocial wasps. Ann. Zool. Fenn. 41: 789-808
Gamboa G.J., Grudzien T.A., Espelie K.E. and Bura E.A. 1996. Kin recognition pheromones in social wasps: combining chemical and behavioural evidence. Anim. Behav. 51: 625-629
Getz W.M. and Smith K. 1986. Honey bee kin recognition: learning self and nestmate phenotypes. Anim. Behav. 34: 1617-1626
Gibbs A.G. 1995. Physical properties of insect cuticular hydrocarbons: model mixtures and lipid interactions. Comp. Biochem. Physiol. 112B: 667-672
Giraud T., Pedersen J.S. and Keller L. 2002. Evolution of supercolonies: the Argentine ants of southern Europe. Proc. Natl Acad. Sci. USA
Glancey B.M., Rocca J.R., Lofgren C.S. and Tumlinson J.H. 1984. Field tests with synthetic components of the queen recognition pheromone of the red imported fire ant, Solenopsis invicta. Sociobiology 9: 19
Greene M.J. and Gordon D.M. 2007. Structural complexity of chemical recognition cues affects the perception of group membership in the ants Linepithema humile and Aphaenogaster cockerelli. J. Exp. Biol. 210: 897-905
Guerrieri F.J., Nehring V., Jorgensen C.G., Nielsen J., Giovanni Galizia C. and D’Ettorre P. 2009. Ants recognize foes and not friends. Proc. R. Soc. Lond. B 276: 2461-2468
Hadley N.F. and Schultz T.D. 1987. Water-loss in three species of tiger beetles (Cicindela) - correlations with epicuticular hydrocarbons. J. Insect Physiol. 33: 677-682
Hannonen M., Sledge M.F., Turillazzi S. and Sundström L. 2002. Queen reproduction, chemical signalling and worker behaviour in polygyne colonies of the ant Formica fusca. Anim. Behav. 64: 477-485
Hanus R., Vrkoslav V., Hrdy I., Cvacka J. and Sobotnik J. 2010. Beyond cuticular hydrocarbons: evidence of proteinaceous secretion specific to termite kings and queens. Proc. R. Soc. Lond. B 277: 995-1002
Hefetz A., Soroker V., Dahbi A., Malherbe M.C. and Fresneau D. 2001. The front basitarsal brush in Pachycondyla apicalis and its role in hydrocarbon circulation. Chemoecology 11: 17-24
Heinze J. 1996. Reproductive hierarchies among workers of the slave-making ant, Chalepoxenus muellerianus. Ethology 102: 117-127
Heinze J., Foitzik S., Hippert A. and Hölldobler B. 1996. Apparent dear-enemy phenomenon and environment-based recognition cues in the ant Leptothorax nylanderi. Ethology 102: 510-522
Helanterä H., Strassmann J.E., Carrillo J. and Queller D.C. 2009. Unicolonial ants: where do they come from, what are they and where are they going? Trends Ecol. Evol. 24: 341-349
Hines H., Hunt J., O’Conner T., Gillespie J. and Cameron S. 2007. Multigene phylogeny reveals eusociality evolved twice in vespid wasps. Proc. Natl Acad. Sci. USA 104: 3295-3299
Holman L., Jorgensen C.G., Nielsen J. and d’Ettorre P. 2010. Identification of an ant queen pheromone regulating worker sterility. Proc. R. Soc. Lond. B 277: 3793-3800
Holman L., Leroy C., Jorgensen C., Nielsen J. and d’Ettorre P. 2013. Are queen ants inhibited by their own pheromone? Regulation of productivity via negative feedback. Behav. Ecol. 24: 380-385
Holzer B., Chapuisat M., Kremer N., Finet C. and Keller L. 2006. Unicoloniality, recognition and genetic differentiation in a native Formica ant. J. Evol. Biol. 19: 2031-2039
Hoover S.E.R., Keeling C.I., Winston M.L. and Slessor K.N. 2003. The effect of queen pheromones on worker honey bee ovary development. Naturwissenschaften 90: 477-480
Howard R.W. and Blomquist G.J. 2005. Ecological, behavioral, and biochemical aspects of insect hydrocarbons. Annu. Rev. Entomol. 50: 371-393
Hunt J.H. 2012. A conceptual model for the origin of worker behaviour and adaptation of eusociality. J. Evol. Biol. 25: 1-19
Hunt J.H. and Richard F.-J. Intracolony vibroacoustic communication in social insects. Insect. Soc. (in press)
Isingrini M., Lenoir A. and Jaisson P. 1985. Preimaginal learning as a basis of colony-brood recognition in the ant Cataglyphis cursor. Proc. Natl Acad. Sci. U.S.A. 82: 8545-8547
Jaisson P. 1987. The construction of fellowship between nestmates in social Hymenoptera. Exp. Suppl. 54: 313-331
Jutsum A.R., Saunders T.S. and Cherrett J.M. 1979. Intraspecific aggression in the leaf-cutting ant Acromyrmex octospinosus. Anim. Behav. 27: 839-844
Kaib M., Jmhasly P., Wilfert L., Durka W., Franke S., Franke W., Leuthold R.H. and Brandl R. 2004. Cuticular hydrocarbons and aggression in the termite Macrotermes subhyalinus. J. Chem. Ecol. 30: 365-385
Kather R., Drijfhout F. and Martin S. 2011. Task group differences in cuticular lipids in the honey bee Apis mellifera. J. Chem. Ecol. 37: 205-212
Katzav-Gozansky T., Boulay R., Soroker V. and Hefetz A. 2006. Queen pheromones affecting the production of queen-like secretion in workers. J. Comp. Physiol. A 192: 737-742
Katzav-Gozansky T., Soroker V. and Hefetz A. 1997. Plasticity of caste-specific Dufour’s gland secretion in the honey bee (Apis mellifera L.). Naturwissenschaften 84: 238-241
Keeling C., Slessor K.N., Higo H.A. and Winston M.L. 2003. New components of the honey bee (Apis mellifera L.) queen retinue pheromone. Proc. Natl Acad. Sci. USA 100: 4486-4491
Keller L. and Passera L. 1989. Influence of the number of queens on nestmate recognition and attractiveness of queens to workers in the Argentine ant, Iridomyrmex humilis (Mayr). Anim. Behav. 37: 733-740
Kirchner W.H. and Arnold G. 2001. Intracolonial kin discrimination in honeybees: do bees dance with their supersisters? Anim. Behav. 61: 597-600
Kocher S., Richard F.-J., Tarpy D. and Grozinger C.M. 2009. Queen reproductive state modulates pheromone production and queen-worker interactions in honey bees. Behav. Ecol. 20: 1007-1014
Kocher S., Richard F.-J., Tarpy D.R. and Grozinger C.M. 2008. Genomic analysis of post-mating changes in the honey bee queen (Apis mellifera). BMC Genomics 9: 232
Kocher S.D. and Grozinger C.M. 2011. Cooperation, conflict and the evolution of queen pheromones. J. Chem. Ecol. 37: 1263-1275
Lahav S., Soroker V., Hefetz A. and Vander Meer R.K. 1999. Direct behavioral evidence for hydrocarbons as ant recognition discriminators. Naturwissenschaften 86: 246-249
Lahav S., Soroker V., Vander Meer R.K. and Hefetz A. 1998. Nestmate recognition in the ant Cataglyphis niger: do queens matter? Behav. Ecol. Sociobiol. 43: 203-212
Le Conte Y. and Hefetz A. 2008. Primer pheromones in social Hymenoptera. Annu. Rev. Entomol. 53: 523-542
Lengyel F., Westerlund S.A. and Kaib M. 2007. Juvenile Hormone III influences task-specific cuticular hydrocarbon profile changes in the ant Myrmicaria eumenoides. J. Chem. Ecol. 33: 167-181
Lenoir A., Fresneau D., Errard C. and Hefetz A. 1999. The individuality and the colonial identity in ants: the emergence of the social representation concept. In: Information Processing in Social Insects (Detrain C., Deneubourg J.L. and Pasteels J., Eds). Birkhäuser, Basel, pp 219-237
Lenoir A., Hefetz A., Simon T. and Soroker V. 2001. Comparative dynamics of gestalt odour formation in two ant species Camponotus fellah and Aphaenogaster senilis (Hymenoptera: Formicidae). Physiol. Entomol. 26: 275-283
Liang D., Blomquist G.J. and Silverman J. 2001. Hydrocarbon-released nestmate aggression in the Argentine ant, Linepithema humile, following encounters with insect prey. Comp. Biochem. Physiol. 129: 871-882
Liang D. and Silverman J. 2000. “You are what you eat”: diet modifies cuticular hydrocarbons and nestmate recognition in the Argentine ant, Linepithema humile. Naturwissenschaften 87: 412-416
Liebig J. 2010. Hydrocarbon profiles indicate fertility and dominance status in ant, bee and wasp colonies. In: Insect Hydrocarbons: Biology, Biochemistry and Chemical Ecology (Blomquist G.J. and Bagnères A.G., Eds). Cambridge University Press, pp 254-281
Liebig J., Eliyahu D. and Brent C.S. 2009. Cuticular hydrocarbon profiles indicate reproductive status in the termite Zootermopsis nevadensis. Behav. Ecol. Sociobiol. 63: 1799-1807
Liebig J., Peeters C., Oldham N.J., Markstädter C. and 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: 4124-4131
Lin Y.K., Chang H.Y., Wu W.J., Ho H.Y. and Lin C.C. 2010. Different cuticular chemical profiles between the monogynous and polygynous forms of the red imported fire ant, Solenopsis invicta (Hymenoptera: Formicidae) in Taiwan. Sociobiology 56: 39-55
Lommelen E., Johnson C.A., Drijfhout F.P., Billen J., Wenseleers T. and Gobin B. 2006. Cuticular hydrocarbons provide reliable cues of fertility in the ant Gnamptogenys striatula. J. Chem. Ecol. 32: 2023-2034
Lorenzi M.C., Bagneres A.G., Clément J.L. and Turillazzi S. 1997. Polistes biglumis bimaculatus epiculticular hydrocarbons and nestmate recognition (Hymenoptera Vespidae). Insect. Soc. 44: 123-138
Lucas C., Pho D.B., Fresneau D. and Jallon J.-M. 2004. Hydrocarbon circulation and colonial signature in Pachycondyla villosa. J. Insect Physiol. 50: 595-607
Maisonnasse A., Alaux C., Beslay D., Crauser D., GInes C., Plettner E. and Le Conte Y. 2010. New insights into honey bee (Apis mellifera) pheromone communication. Is the queen mandibular pheromone alone in colony regulation? Front Zool. 7: 18
Martin G.F. and Ramalho-Ortigao J.M. 2012. Oenocytes in insects. Invertebr. Survival J. 9: 139-152
Martin S.J. and Drijfhout F. 2009a. A review of ant cuticular hydrocarbons. J. Chem. Ecol. 35: 1151-1161
Martin S.J. and Drijfhout F. 2009b. Nest-mate and task cues are influenced and encoded differently within ant cuticular hydrocarbon profiles. J. Chem. Ecol. 35: 368-374
Martin S.J., Vitikainen E., Helanterä H. and Drijfhout F.P. 2008. Chemical basis of nest-mate discrimination in the ant Formica exsecta. Proc. R. Soc. Lond. B 275: 1271-1278
Matsuura K. 2001. Nestmate recognition mediated by intestinal bacteria in a termite, Reticulitermes speratus. Oikos 92: 20-26
Matsuura K. 2012. Multifunctional queen pheromone and maintenance of reproductive harmony in termite colonies. J. Chem. Ecol. 38: 746-754
Matsuura K., Himuro C., Yokoi T., Yamamoto Y., Vargo E.L. and Keller L. 2010. Identification of a pheromone regulating caste differentiation in termites. Proc. Natl. Acad Sci. USA 107: 12963-12968
Mattila H.R. and Seeley T.D. 2007. Genetic diversity in honey bee colonies enhances productivity and fitness. Science 317: 362-364
Melathopoulos A.P., Winston M., Pettis J.S. and Pankiw T. 1996. Effect of queen mandibular pheromone on initiation and maintenance of queen cells in the honey bee (Apis mellifera L.). Can. Entomol. 128: 263-272
Meskali M., Bonavita-Cougourdan A., Provost E., Bagnères A.G., Dusticier G. and Clément J.L. 1995. Mechanism underlying cuticular hydrocarbon homogeneity in the ant Camponotus vagus (Scop.) (Hymenoptera: Formicidae): role of postpharyngeal glands. J. Chem. Ecol. 21: 1127-1148
Millar J.G. 2010. Chemical synthesis of insect cuticular hydrocarbons. In: Insect Hydrocarbons: Biology, Biochemistry and Chemical Ecology (Blomquist G.J. and Bagnères A.G., Eds). Cambridge University Press, pp 163-186
Mitra A. and Gadagkar R. 2011a. Can Dufour’s gland compounds honestly signal fertility in the primitively eusocial wasp Ropalidia marginata? Naturwissenschaften 98: 157-161
Mitra A. and Gadagkar R. 2012. Queen signal should be honest to be involved in maintenance of eusociality: chemical correlates of fertility in Ropalidia marginata. Insect. Soc. 59: 251-255
Mitra A., Saha P., Chaoulideer M.E., Bhadra A. and Gadagkar R. 2011b. Chemical communication in Ropalidia marginata: Dufour’s gland contains queen signal that is perceived across colonies and does not contain colonial signal. J. Insect Physiol. 57: 280-284
Monnin T. 2006. Chemical recognition of reproductive status in social insects. Ann. Zool. Fennici 43: 515-530
Monnin T., Malosse C. and Peeters C. 1998. Solid-phase microextraction and cuticular hydrocarbon differences related to reproductive activity in queenless ant Dinoponera quadriceps. J. Chem. Ecol. 24: 473-490
Monnin T., Ratnieks F.L.W., Jones G.R. and Beard R. 2002. Pretender punishment induced by chemical signalling in a queenless ant. Nature 419: 61-65
Moore D. and Liebig J. 2010. Mixed messages: fertility signaling interferes with nestmate recognition in the monogynous ant Camponotus floridanus. Behav. Ecol. Sociobiol. 64: 1011-1018
Moreira D.D.O., Erthal J.M., Carrera M.P., Silva C.P. and Samuels R.I. 2006. Oral trophallaxis in adult leaf-cutting ants Acromyrmex subterraneus subterraneus (Hymenoptera, Formicidae). Insect. Soc. 53: 345-348
Nehring V., Evison S.E.F., Santorelli L.A., D’Ettorre P. and Hughes W.O.H. 2011. Kin-informative recognition cues in ants. Proc. R. Soc. Lond. B 278: 1942-1948
Nielsen J., Boomsma J.J., Oldham N.J., Petersen H.C. and Morgan E.D. 1999. Colony-level and season-specific variation in cuticular hydrocarbon profiles of individual workers in the ant Formica truncorum. Insect. Soc. 46: 58-65
Nunes T.M., Turatti I.C., Lopes N.P. and Zucchi R. 2009. Chemical signals in the stingless bee, Frieseomelitta varia, indicate caste, gender, age and reproductive status. J. Chem. Ecol. 35: 1172-1180
Obin M.S. 1986. Nestmate recognition cues in laboratory and field colonies of Solenopsis invicta Buren (Hymenoptera: Formicidae): effect of environment and the role of cuticular hydrocarbons. J. Chem. Ecol. 12: 1965-1975
Obin M.S. and Vander Meer R.K. 1988. Sources of nestmate recognition cues in the imported fire ant Solenopsis invicta Buren (Hymenoptera: Formicidae). Anim. Behav. 36: 1361-1370
Ozaki M. and Wada-Katsumata A. 2010. Perception and olfaction of cuticular compounds. In: Insect Hydrocarbons: Biology, Biochemistry and Chemical Ecology (Blomquist G.J. and Bagnères A.G., Eds). Cambridge University Press, pp 207-221
Panek L.M. and Gamboa G.J. 2000. Queens of the paper wasp Polistes fuscatus (Hymenoptera: Vespidae) discriminate among larvae on the basis of relatedness. Ethology 106: 159-170
Pankiw T., Huang Z.Y., Winston M.L. and Robinson G.E. 1998. Queen mandibular gland pheromone influences worker honey bee (Apis mellifera L.) foraging ontogeny and juvenile hormone titers. J. Insect Physiol. 44: 685-692
Peeters C. and Liebig J. 2009. Fertility signaling as a general mechanism of regulating reproductive division of labor in ants. In: Organization of Insect Societies: From Genome to Socio-complexity (Gadau J. and Fewell J., Eds). Harvard University Press, Cambridge, pp 220-242
Peeters C., Monnin T. and Malosse C. 1999. Cuticular hydrocarbons correlated with reproductive status in a queenless ant. Proc. R. Soc. Lond. B 266: 1323-1327
Pettis J.S., Winston M. and Collins A.M. 1995. Suppression of queen rearing in European and Africanized honey bees Apis melifera L. by synthetic queen mandibular gland pheromone. Insect. Soc. 42: 113-121
Pfennig D.W., Reeve H.K. and Shellman J.S. 1983. Learned component of nestmate discrimination in workers of a social wasp, Polistes fuscatus (Hymenoptera: Vespidae). Anim. Behav. 31: 412-416
Plettner E., Otis G.W., Wimalaratne P.D.C., Winston M.L., Slessor K.N., Pankiw T. and Punchihewa P.W.K. 1997. Species- and caste-determined mandibular gland signals in honeybees (Apis). J. Chem. Ecol. 23: 363-377
Provost E. 1987. Role of the queen in the intra-colonial aggressivity and nestmate recognition in Leptothorax lichtensteini ants. In: Chemistry and Biology of Social Insects (Proc. 10 th Int. Congr. IUSSI, Munich, 1986) (Eder J. and Rembold H., Eds). Verlag J. Peperny, Munich, pp 479
Richard F.-J., Holly H. and Grozinger C.M. 2012. Effects of immunostimulation on social behavior, chemical communication and genome-wide gene expression in honey bee workers (Apis mellifera). BMC Genomics 13: 558
Richard F.-J., Schal C., Tarpy D. and Grozinger C.M. 2011. Effects of instrumental insemination and insemination quantity on Dufour’s gland chemical profiles and vitellogenin expression in honey bee queens (Apis mellifera). J. Chem. Ecol. 37: 1027-1036
Richard F.-J., Aubert A. and Grozinger C.M. 2008. Modulation of social interactions by immune stimulation in honey bee workers, Apis mellifera. BMC Biology 6: 50
Richard F.-J. and Errard C. 2009. Trophallaxis and hygienic behavior in leaf-cutting ants (Acromyrmex). J. Insect Science 9: 63
Richard F.-J., Hefetz A., Christides J.P. and Errard C. 2004. Food influence on colonial recognition and chemical signature between nestmates in the fungus-growing ant Acromyrmex subterraneus. Chemoecology 14: 9-16
Richard F.-J., Poulsen M., Hefetz A., Errard C., Nash D.R. and Boomsma J.J. 2007a. The origin of chemical profiles of fungal symbionts and their significance for nestmate recognition in Acromyrmex leaf-cutting ants. Behav. Ecol. Sociobiol. 61: 1637-1649
Richard F.-J., Poulsen M., Drijfhout F., Jones G.R. and Boomsma J.J. 2007b. Specificity in chemical profiles of workers, brood and mutualistic fungi in Atta, Acromyrmex, and Sericomyrmex fungus-growing ants. J. Chem. Ecol. 33: 2281-2292
Richard F.-J., Tarpy D.R. and Grozinger C.M. 2007c. Effects of insemination quantity on honey bee queen physiology. PloS ONE 2: e980
Rocca J.R., Tumlinson J.H., Glancey B.M. and Lofgren C.S. 1983. The queen recognition pheromone of Solenopsis invicta, preparation of (E)-6-(1-penenyl)-2H-pyran-2-one. Tetrahedron Lett. 24: 1889-1892
Ross K.G. 2001. Molecular ecology of social behaviour: analyses of breeding systems and genetic structure. Mol. Ecol. 10: 265-284
Rosset H., Schwander T. and Chapuisat M. 2007. Nestmate recognition and levels of aggression are not altered by changes in genetic diversity in a socially polymorphic ant. Anim. Behav. 74: 951-956
Ruther J., Sieben S. and Schricker B. 1998. Role of cuticular lipids in nestmate recognition of the European hornet Vespa crabro L. (Hymenoptera, Vespidae). Insect. Soc. 45: 169-179
Schal C., Sevala V.L., Capurro M.D.L., Snyder T.E., Blomquist G.J. and Bagnères A.G. 2001. Tissue distribution and lipophorin transport of hydrocarbons and sex pheromones in the house fly Musca domestica. J. Insect Science 1: 1-11
Schmitt T., Herzner G., Weckerle B., Schreier P. and Strohm E. 2007. Volatiles of foraging honeybees Apis mellifera (Hymenoptera: Apidae) and their potential role as semiochemicals. Apidologie 38: 164-170
Scholl J. and Naug D. 2011. Olfactory discrimination of age-specific hydrocarbons generates behavioral segregation in a honeybee colony. Behav. Ecol. Sociobiol. 65: 1967-1973
Seeley T. 1985. Honeybee Ecology: A Study of Adaptation in Social Life. Princeton University Press, Princeton, New Jersey
Sevala V.L., Bagnères A.G., Kuenzli M., Blomquist G.J. and Schal C. 2000. Cuticular hydrocarbons of the dampwood termite, Zootermopsis nevadensis: caste differences and role of lipophorin in transport of hydrocarbons and hydrocarbon metabolites. J. Chem. Ecol. 26: 765-789
Sherman P.W., Reeve H.K. and Pfennig D.W. 1997. Recognition systems. In: Behavioural Ecology (Krebs J.R. and Davies N.B., Eds). Oxford: Blackwell Science, pp 69-96
Silverman J. and Liang D. 2001. Colony disassociation following diet partitioning in a unicolonial ant. Naturwissenschaften 88: 73-77
Singer T.L. and Espelie K.E. 1992. Social wasps use nest paper hydrocarbons for nestmate recognition. Anim. Behav. 44: 63-68
Singer T.L. and Espelie K.E. 1996. Nest surface hydrocarbons facilitate nestmate recognition for the social wasp, Polistes metricus Say (Hymenoptera, Vespidae). J. Insect Behav. 9: 857-870
Sledge M.F., Dani F.R., Cervo R., Dapporto L. and Turillazzi S. 2001. Recognition of social parasites as nestmates: adoption of colony-specific host cuticular odours by the paper wasp parasite Polistes sulcifer. Proc. R. Soc. Lond. B 268: 2253-2260
Slessor K.N., Kaminski L.A., King G.G.S., Borden J.H. and Winston M.L. 1988. The semiochemical basis of the retinue response to queen honey bees. Nature 332: 354-356
Slessor K.N., Kaminski L.A., King G.G.S. and Winston M.L. 1990. Semiochemicals of the honeybee queen mandibular glands. J. Chem. Ecol. 16: 851-860
Slessor K.N., Winston M. and Le Conte Y. 2005. Pheromone communication in the honey bee (Apis mellifera L.). J. Chem. Ecol. 31: 2731-2745
Smith A.A., Hölldobler B. and Liebig J. 2009. Cuticular hydrocarbons reliably identify cheaters and allow enforcement of altruism in a social insect. Curr. Biol. 19: 78-81
Soroker V., Fresneau D. and Hefetz A. 1998. Formation of colony odor in the ponerine ant Pachycondyla apicalis. J. Chem. Ecol. 24: 1077-1090
Soroker V. and Hefetz A. 2000. Hydrocarbon site of synthesis and circulation in the desert ant Cataglyphis niger. J. Insect Physiol. 46: 1097-1102
Soroker V., Lucas C., Simon T., Hefetz A., Fresneau D. and Durand J.L. 2003. Hydrocarbon distribution and colony odour homogenisation in Pachycondyla apicalis. Insect. Soc. 50: 212-217
Sorvari J., Theodora P., Turillazzi S., Hakkarainen H. and Sundström L. 2008. Food resources, chemical signaling and nestmate recognition in the ant Formica aquilonia. Behav. Ecol. 19: 441-447
Suarez A.V., Holway D.A., Liang D.S., Tsutsui N.D. and Case T.J. 2002. Spatiotemporal patterns of intraspecific aggression in the invasive Argentine ant. Anim. Behav. 64: 697-708
Suàrez M.E. and Thorne B.L. 2000. Rate, amount, and distribution pattern of alimentary fluid transfer via trophallaxis in three species of termites (Isoptera: Rhinotermitidae, Termopsidae). Ann. Entomol. Soc. Am. 93: 145-155
Sundström L. 1997. Queen acceptance and nestmate recognition in monogyne and polygyne colonies of the ant Formica truncorum. Anim. Behav. 53: 499-510
Symonds M.R.E. and Elgar M.A. 2008. The evolution of pheromone diversity. Trends Ecol. Evol. 23: 220-228
Tannure-Nascimento I.C., Nascimento F.S., Turatti I.C., Lopes N.P., Trigo J.R. and Zucchi R. 2007. Colony membership is reflected by variations in cuticular hydrocarbon profile in a Neotropical paper wasp, Polistes satan (Hymenoptera, Vespidae). Genet. Mol. Res. 6: 390-396
Tentschert J., Bestmann H.J. and Heinze J. 2002. Cuticular compounds of workers and queens in two Leptothorax ant species - a comparison of results obtained by solvent extraction, solid sampling, and SPME. Chemoecology 12: 15-21
Tissot M., Nelson D.R. and Gordon D.M. 2001. Qualitative and quantitative differences in cuticular hydrocarbons between laboratory and field colonies of Pogonomyrmex barbatus. Comp. Biochem. Physiol. 130: 349-358
Torres C., Brandt M. and Tsutsui N. 2007. The role of cuticular hydrocarbons as chemical cues for nestmate recognition in the invasive Argentine ant (Linepithema humile). Insect. Soc. 54: 363-373
Tsutsui N.D., Suarez A.V. and Grosberg R.K. 2003. Genetic diversity, asymmetrical aggression, and recognition in a widespread invasive species. Proc. Natl. Acad. Sci. USA 100: 1078-83
Tsutsui N.D., Suarez A.V., Holway D.A. and Case T.J. 2000. Reduced genetic variation and the success of an invasive species. Proc. Natl Acad. Sci. USA 97: 5948-53
Turillazzi S., Sledge M.F., Dapporto L., Landi M., Fanelli D., Fondelli L., Zanetti P. and Dani F.R. 2004. Epicuticular lipids and fertility in primitively social wasps (Hymenoptera Stenogastrinae). Physiol. Entomol. 29: 464-471
Van der Horst D.J. 1990. Lipid transport function of lipoproteins in flying insects. Bioch. Bioph. Acta 1047: 195-211
van Wilgenburg E., Sulc R., Shea K.J. and Tsutsui N.D. 2010. Deciphering the chemical basis of nestmate recognition. J. Chem. Ecol. 36: 751-758
van Wilgenburg E., Symonds M.R.E. and Elgar M.A. 2011. Evolution of cuticular hydrocarbon diversity in ants. J. Evol. Biol. 24: 1188-1198
Van Zweden J.S., Dreier S. and d’Ettorre P. 2009. Disentangling environmental and heritable nestmate recognition cues in a carpenter ant. J. Insect Physiol. 55: 158-163
Van Zweden J.S., Vitikainen E., D’Ettorre P. and Sundström L. 2011. Do cuticular hydrocarbons provide sufficient information for optimal sex allocation in the ant Formica exsecta? J. Chem. Ecol. 37: 1365-1373
Vander Meer R.K. and Alonso L.E. 2002. Queen primer pheromone affects conspecific fire ant (Solenopsis invicta) aggression. Behav. Ecol. Sociobiol. 51: 122-130
Vander Meer R.K., Glancey B.M., Lofgren C.S., Glover A., Tumlinson J.H. and Rocca J. 1980. The poison sac of red imported fire ant queens: source of a pheromone attractant. Ann. Entomol. Soc. Am. 73: 609-612
Vander Meer R.K. and Morel L. 1998. Nestmate recognition in ants. In: Pheromone Communication in Social Insects (Vander Meer R.K., Breed M., Espelie K.E. and Winston M., Eds). Westview Press, Boulder, CO, pp 79-103
Vander Meer R.K., Preston C.A. and Hefetz A. 2008. Queen regulates biogenic amine level and nestmate recognition in workers of the fire ant, Solenopsis invicta. Naturwissenschaften 95: 1155-1158
Vander Meer R.K., Saliwanchik D. and Lavine B. 1989. Temporal changes in colony cuticular hydrocarbon patterns of Solenopsis invicta: implications for nestmate recognition. J. Chem. Ecol. 15: 2115-2125
Vargo E.L. 1998. Primer pheromones in ants. In: Pheromone Communication in Social Insects: Ants, Wasps, Bees, and Termites (Vander Meer R.K., Breed M.D., Winston M. and Espelie K.E., Eds). Westview Press, Boulder, Colorado, pp 293-313
Vargo E.L. and Hulsey C.D. 2000. Multiple glandular origins of queen pheromones in the fire ant Solenopsis invicta. J. Insect Physiol. 46: 1151-1159
Vasquez G.M., Schal C. and Silverman J. 2009. Colony fusion in Argentine ants is guided by worker and queen cuticular hydrocarbon profile similarity. J. Chem. Ecol. 35: 922-932
Vauchot B., Provost E., Bagnères A.G., Riviere G., Roux M. and Clément J.L. 1998. Differential adsorption of allospecific hydrocarbons by the cuticles of two termite species, Reticulitermes santonensis and R. lucifugus grassei, living in a mixed colony. J. Insect Physiol. 44: 59-66
Wagner D., Brown M.J.F., Broun P., Cuevas W., Moses L.E., Chao D.L. and Gordon D.M. 1998. Task-related differences in the cuticular hydrocarbon composition of harvester ants, Pogonomyrmex barbatus. J. Chem. Ecol. 24: 2021-2037
Weil T., Hoffmann K., Kroiss J., Strohm E. and Korb J. 2009. Scent of a queen-cuticular hydrocarbons specific for female reproductives in lower termites. Naturwissenschaften 96: 315-319
Winston M.L. 1987. The Biology of the Honey Bee. Cambridge: Harvard University Press
Wurm Y., Wang J., Riba-Grognuz O., Corona M., Nygaard S. et al. 2010. The genome of the fire ant Solenopsis invicta. Proc. Natl Acad. Sci. USA 108: 5679-5684
Yew J.Y., Cody R.B. and Kravitz E.A. 2008. Cuticular hydrocarbon analysis of an awake behaving fly using direct analysis in real-time time-of-flight mass spectrometry. Proc. Natl Acad. Sci. USA 105: 7135-7140
Yusuf A.A., Pirk C.W.W., Crewe R.M., Njagi P.G.N., Gordon I. and Torto B. 2010. Nestmate recognition and the role of cuticular hydrocarbons in the African termite raiding ant Pachycondyla analis. J. Chem. Ecol. 36: 441-448