Computational model of collective nest selection by ants with heterogeneous acceptance thresholds

Authored by Naoki Masuda, Thomas A O'Shea-Wheller, Carolina Doran, Nigel R Franks

Date Published: 2015

DOI: 10.1098/rsos.140533

Sponsors: United Kingdom Engineering and Physical Sciences Research Council (EPSRC) NRF CREST JST

Platforms: No platforms listed

Model Documentation: Other Narrative Flow charts Mathematical description

Model Code URLs: Model code not found

Abstract

Collective decision-making is a characteristic of societies ranging from ants to humans. The ant Temnothorax albipennis is known to use quorum sensing to collectively decide on a new home; emigration to a new nest site occurs when the number of ants favouring the new site becomes quorate. There are several possible mechanisms by which ant colonies can select the best nest site among alternatives based on a quorum mechanism. In this study, we use computational models to examine the implications of heterogeneous acceptance thresholds across individual ants in collective nest choice behaviour. We take a minimalist approach to develop a differential equation model and a corresponding non-spatial agent-based model. We show, consistent with existing empirical evidence, that heterogeneity in acceptance thresholds is a viable mechanism for efficient nest choice behaviour. In particular, we show that the proposed models show speed-accuracy trade-offs and speed-cohesion trade-offs when we vary the number of scouts or the quorum threshold.

Tags

Accuracy site selection Colonies Group decision-making Division-of-labor Leptothorax-albipennis Social insects Honeybee swarms Trade-offs Speed