Abstract
Construction of wasp nests is a self organized process that requires building materials, pulp and water foragers, and builders to cooperate. In this paper we study how the society of agents use a social crop, or common stomach, to store water that also provides a mechanism for worker connectivity, which in turn regulates building. Our model predicts that via the common stomach usage, medium sized colonies enjoy the benefit of having highly effective foragers and this in turn means that the colonies need only endanger a few foragers to ensure steady construction. When pulp foraging becomes more costly than water foraging, the colonies adjust via recruiting more pulp foragers and less water foragers, but keep high numbers of common stomach wasps on the nest. The common stomach provides an adaptable platform for indirect worker connectivity and a buffer for water storage.
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References
Holldobler, B., Wilson, E.O.: The Superorganism. The Beauty, Elegance and Strangeness of insect Societies. W. W. Norton & Company, New York (2008)
Seeley, T.D.: Honeybee ecology. A study of adaptation in social life. Princeton University Press, Princeton (1985)
Bartholdi, J.J., Seeley, T.D., Tovey, C.A., Vande Vate, J.H.: The Pattern and Effectiveness of Forager Allocation Among Flower Patches by Honey Bee Colonies. J. Theor. Biol. 160, 23–40 (1993)
Calabi, P.: Behavioral flexibility in Hymenoptera: a re-examination of the concept of caste. In: Trager, J.C. (ed.) Advances in Myrmecology, pp. 237–258. Brill Press, Leiden (1988)
Robinson, G.E.: Regulation of division of labor in insect societies. Annu. Rev. Entomol. 37, 637–665 (1992)
Karsai, I., Wenzel, J.W.: Productivity, individual-level and colony-level flexibility, and organization of work as consequences of colony size. PNAS USA 95, 8665–8669 (1998)
O’Donnell, S.: Polybia wasp biting interactions recruit foragers following experimental worker removals. Anim. Behav. 71, 709–715 (2006)
O’Donnell, S., Bulova, S.J.: Worker connectivity: a review of the design of worker communication systems and their effects on task performance in insect societies. Ins. Soc. 54, 203–210 (2007)
Gordon, D.M., Paul, R.E.H., Thorpe, K.: What is the function of encounter patterns in ant colonies? Anim. Behav. 45, 83–100 (1993)
Pratt, S.C.: Quorum sensing by encounter rates in the ant Temnothorax albipennis. Behav. Ecol. 16, 488–496 (2005)
Sherman, G., Visscher, P.K.: Honeybee colonies achieve fitness through dancing. Nature 419, 920–922 (2002)
Dornhaus, A.: Finding optimal collective strategies using individual-bases simulations: colony organization in social insects. In: Troch, I., Breitenecker, F. (eds.) Proceedings MATHMOD 2009, Vienna, pp. 888–894 (2009)
Cassill, D.L., Tschinkel, W.R.: Task selection by workers of the fire ant Solenopsis invicta. Behav. Ecol. Sociobiol. 45, 301–310 (1991)
Schmickl, T., Crailsheim, K.: Inner nest homeostasis in a changing environment with special emphasis on honey bee brood nursing and pollen supply. Apidologie 35, 249–263 (2004)
Karsai, I., Wenzel, J.W.: Organization and regulation of nest construction behavior in Metapolybia wasps. Journal of Insect Behavior 13, 111–140 (2000)
Karsai, I., Balazsi, G.: Organization of work via a natural substance: regulation of nest construction in social wasps. J. Theor. Biol. 218, 549–565 (2002)
Karsai, I., Runciman, A.: The effectiveness of the “common stomach” in the regulation of behavior of the swarm. In: Troch, I., Breitenecker, F. (eds.) Proceedings MATHMOD 2009, Vienna, pp. 851–857 (2009)
Sakagami, S.F., Fukuda, H.: Life tables for worker honeybees. Res. Popul. Ecol. 10, 127–139 (1968)
Jeanne, R.L.: The organization of work in Polybia occidentalis: costs and benefits of specialization in a social wasp. Behav. Ecol. Sociobiol. 191, 333–341 (1986)
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Karsai, I., Runciman, A. (2011). The Common Stomach as a Center of Information Sharing for Nest Construction. In: Kampis, G., Karsai, I., Szathmáry, E. (eds) Advances in Artificial Life. Darwin Meets von Neumann. ECAL 2009. Lecture Notes in Computer Science(), vol 5778. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-21314-4_44
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DOI: https://doi.org/10.1007/978-3-642-21314-4_44
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