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PLoS One

Title:		Symmetry breaking on density in escaping ants: experiment and alarm pheromone model
Author(s):		Li G; Huan D; Roehner B; Xu Y; Zeng L; Di Z; Han Z;
Address:		"School of Systems Science, Beijing Normal University, Beijing, China. Institute for Theoretical and High Energy Physics, University of Paris 6 (Pierre and Marie Curie), F-75005, Paris, France. The College of Natural Resources and Environment of South China Agricultural University, Guangzhou, China"
Journal Title:		PLoS One
Year:		2014
Volume:		20141231
Issue:		12
Page Number:		e114517 -
DOI:		10.1371/journal.pone.0114517
ISSN/ISBN:		1932-6203 (Electronic) 1932-6203 (Linking)
Abstract:		"The symmetry breaking observed in nature is fascinating. This symmetry breaking is observed in both human crowds and ant colonies. In such cases, when escaping from a closed space with two symmetrically located exits, one exit is used more often than the other. Group size and density have been reported as having no significant impact on symmetry breaking, and the alignment rule has been used to model symmetry breaking. Density usually plays important roles in collective behavior. However, density is not well-studied in symmetry breaking, which forms the major basis of this paper. The experiment described in this paper on an ant colony displays an increase then decrease of symmetry breaking versus ant density. This result suggests that a Vicsek-like model with an alignment rule may not be the correct model for escaping ants. Based on biological facts that ants use pheromones to communicate, rather than seeing how other individuals move, we propose a simple yet effective alarm pheromone model. The model results agree well with the experimental outcomes. As a measure, this paper redefines symmetry breaking as the collective asymmetry by deducing the random fluctuations. This research indicates that ants deposit and respond to the alarm pheromone, and the accumulation of this biased information sharing leads to symmetry breaking, which suggests true fundamental rules of collective escape behavior in ants"
Keywords:		"Animals Ants/*drug effects/physiology Escape Reaction/*drug effects *Models, Biological Pheromones/*pharmacology;"
Notes:		"MedlineLi, Geng Huan, Di Roehner, Bertrand Xu, Yijuan Zeng, Ling Di, Zengru Han, Zhangang eng Research Support, Non-U.S. Gov't 2015/01/01 PLoS One. 2014 Dec 31; 9(12):e114517. doi: 10.1371/journal.pone.0114517. eCollection 2014"