Stigmergic construction and topochemical information shape ant nest architecture

Stigmergic construction and topochemical information shape ant nest architecture

The nests of social insects are not only impressive because of their sheer complexity but also because they are built from individuals whose work is not centrally coordinated. A key question is how groups of insects coordinate their building actions. Here, we use a combination of experimental and mo...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 113; no. 5; pp. 1303 - 1308
Main Authors: Khuong, Anaïs, Gautrais, Jacques, Perna, Andrea, Sbaï, Chaker, Combe, Maud, Kuntz, Pascale, Jost, Christian, Theraulaz, Guy
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 02-02-2016
National Acad Sciences
Subjects:
Adaptation and Self-Organizing Systems
Animal behavior
Animal biology
Animals
Ants - physiology
Biological Sciences
Cognitive science
Computational Complexity
Computer Science
Construction
Ecology, environment
Insects
Life Sciences
Modeling and Simulation
Models, Theoretical
Multiagent Systems
Nonlinear Sciences
Pheromones
Stochastic models
Symbiosis
ants
nest building
stigmergy
computational modeling
collective animal behavior
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Summary:The nests of social insects are not only impressive because of their sheer complexity but also because they are built from individuals whose work is not centrally coordinated. A key question is how groups of insects coordinate their building actions. Here, we use a combination of experimental and modeling approaches to investigate nest construction in the ant Lasius niger. We quantify the construction dynamics and the 3D structures built by ants. Then, we characterize individual behaviors and the interactions of ants with the structures they build. We show that two main interactions are involved in the coordination of building actions: (i) a stigmergic-based interaction that controls the amplification of depositions at some locations and is attributable to a pheromone added by ants to the building material; and (ii) a template-based interaction in which ants use their body size as a cue to control the height at which they start to build a roof from existing pillars. We then develop a 3D stochastic model based on these individual behaviors to analyze the effect of pheromone presence and strength on construction dynamics. We show that the model can quantitatively reproduce key features of construction dynamics, including a large-scale pattern of regularly spaced pillars, the formation and merging of caps over the pillars, and the remodeling of built structures. Finally, our model suggests that the lifetime of the pheromone is a highly influential parameter that controls the growth and form of nest architecture.
Bibliography:1Present address: Unit of Social Ecology, Université Libre de Bruxelles, 1050 Bruxelles, Belgium.
Edited by William Bialek, Princeton University, Princeton, NJ, and approved December 4, 2015 (received for review May 19, 2015)
Author contributions: G.T. designed research; A.K. and J.G. developed the 3D model; A.K., A.P., C.S., C.J., and G.T. performed research; M.C. and P.K. contributed new reagents/analytic tools; A.K., J.G., A.P., C.S., M.C., P.K., C.J., and G.T. analyzed data; and J.G., C.J., and G.T. wrote the paper.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1509829113