Abstract
Gregarious insects, like cockroaches, aggregate in shelters during their resting period. How do individuals reach a collegial decision? What is the relation between the distributions of the individuals and the parameter values characterizing the population and the environment? With a model based on experimental data, we demonstrated that the collegial decision is based on the relation between the individual resting time in a shelter and the population in this shelter. We extended this model to the case where different sub-groups may interact and where the crowding effect under the shelters influences the aggregation. This second model shows that depending on the interaction between the sub-groups and the crowding effect, different patterns are observed such as segregation of the different sub-group or the aggregation of the whole population.
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References
Parrish, J.K., Edelstein-Keshet, L.: Complexity, pattern, and evolutionary trade-offs in animal aggregation. Science 284, 99–101 (1999)
Camazine, S., Deneubourg, J.L., Franks, N., Sneyd, J., Theraulaz, G., Bonabeau, E.: Self-Organization in Biological Systems. Princeton Univ. Press, Princeton (2001)
Parrish, J.K., Viscido, S.V., Grünbaum, D.: Self-organized fish schools: An examination of emergent properties. Biol. Bull. 202, 296–305 (2002)
Okubo, A.: Diffusion and Ecological Problems: Mathematical Models. Springer, Heidelberg (1980)
Southwood, T.R.E.: Ecological Methods, London, Methuen (1966)
Parrish, J.K., Hamner, W.M., Prewitt, C.T.: Introduction - from individuals to aggregations: unifying properties, global framework, and the holy grails of congregation. In: Parrish, J.K., Hamner, W.M. (eds.) Animal Groups in three Dimensions, pp. 1–14. Cambridge Univ. Press, Cambridge (1997)
Bell, W.J., Parsons, C., Martinko, E.A.: Cockroach aggregation pheromones: analysis of aggregation tendency and species specificity (Orthoptera: Blattidae). J. Kans. Entomol. Soc. 45, 414–421 (1972)
Rivault, C.: Distribution dynamics of Blattella germanica in a closed urban environment. Entomol. Exp. Appl. 57, 85–91 (1990)
Appel, A.G.: Blattella and related species. In: Rust, M.K., Owens, J.M., Reierson, D.A. (eds.) Understanding and Controlling the German Cockroach, pp. 1–20. Oxford Univ. Press, Oxford (1995)
Ishii, S., Kuwahara, Y.: Aggregation of German cockroach Blattella germanica nymphs. Experientia 24, 88–89 (1968)
MacFarlane, J.E., Alli, I.: The effect of lactic acid and volatile fatty acids of the aggregation behaviour of Periplaneta americana. Comp. Biochem. Physiol. 86, 45–47 (1987)
Ledoux, A.: Etude expérimentale du grégarisme et de l’iinter-attraction sociale chez les Blattidés. Annales des Sciences Naturelles Zoologie et Biologie Animale 7, 76–103 (1945)
Brossut, R.: Gregarism in cockroaches and in Eublaberus in particular. In: Ritter, F.J. (ed.) Chemical Ecology: Odour Communication in Animals, pp. 237–246. Elsevier, Amsterdam (1979)
Ishii, S., Kuwahara, Y.: An aggregation pheromone of the German cockroach Blattella germanica (Orthoptera: Blattellidae). 1. Site of the pheromone production. Appl. Entomol. Zool. 2, 203–217 (1967)
Leoncini, I., Rivault, C.: Could species segregation be a consequence of aggregation processes? Example of Periplaneta americana (L.) and P. fuliginosa (Serville). Ethology 11(5), 527 (2005)
Amé, J.M., Rivault, C., Deneubourg, J.L.: Cockroach aggregation based on strain odour recognition. Anim. Behav. 68, 793–801 (2004)
Millor, J., Amé, J.M., Halloy, J., Deneubourg, J.L.: Individual discrimination capability and collective decision-making. J. Theor. Biol. 239, 313–323 (2006)
Amé, J.M., Halloy, J., Rivault, C., Detrain, C., Deneubourg, J.L.: Collegial decision making based on social amplification leads to optimal group formation. PNAS 103(15), 5835–5840
Rivault, C., Cloarec, A.: Cockroach aggregation: discrimination between strain odours in Blattella germanica. Anim. Behav. 55, 177–184 (1998)
Saffre, S., Furey, R., Krafft, B., Deneubourg, J.L.: Collective decision-making in social spiders: dragline-mediated amplification process acts as a recruitment mechanism. J. Theor. Biol. 198, 507–517 (1999)
Detrain, C., Deneubourg, J.L.: Complexity of environment and parsimony of decision rules in insect societies. Biol. Bull. 202, 268–274 (2002)
Depickère, S., Fresneau, D., Deneubourg, J.L.: A Basis for Spatial and Social Patterns in Ant Species: Dynamics and Mechanisms of Aggregation. J. Insect Behav. 17, 81–97 (2004)
Jeanson, R., Deneubourg, J.L., Theraulaz, G.: Discrete dragline attachment induces aggregation in spiderlings of a solitary species. Anim. Behav. 67, 531–537 (2004)
Sumpter, D.J.T., Pratt, S.C.: A modelling framework for understanding social insect foraging. Behav. Ecol. Sociobiol. 30, 109–123 (2003)
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Amé, JM., Millor, J., Halloy, J., Sempo, G., Deneubourg, JL. (2006). Collective Decision-Making Based on Individual Discrimination Capability in Pre-social Insects. In: Nolfi, S., et al. From Animals to Animats 9. SAB 2006. Lecture Notes in Computer Science(), vol 4095. Springer, Berlin, Heidelberg. https://doi.org/10.1007/11840541_59
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DOI: https://doi.org/10.1007/11840541_59
Publisher Name: Springer, Berlin, Heidelberg
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