%0 Figure %A Broly, Pierre %A Deneubourg, Jean-Louis %D 2015 %T According to the initial retention time of individuals, the dynamics of dispersion of groups of 40 woodlice (a) and the time necessary to disperse 50% of the population introduced (half-life time) (b). %U https://plos.figshare.com/articles/figure/_According_to_the_initial_retention_time_of_individuals_the_dynamics_of_dispersion_of_groups_of_40_woodlice_a_and_the_time_necessary_to_disperse_50_of_the_population_introduced_half_life_time_b_/1446443 %R 10.1371/journal.pcbi.1004290.g002 %2 https://ndownloader.figshare.com/files/2107244 %K transition %K dynamic %K stability %K isopod %K individual %K Behavioural Contagion %K laboratory %K species %K recurrence %K density %K group cohesion %K adaptive values %K mechanism %K conspecific %K influence %K aggregation %K understanding %K Social Crustacean %K disturbance %K behavioural states %K variable %K model %K data %K group size %K interaction %K stimulus %K groups decreases %K response %K woodlice %K nature %K organism %K perturbation context %X

According to the initial retention time of individuals, the dynamics of dispersion of groups of 40 woodlice (a) and the time necessary to disperse 50% of the population introduced (half-life time) (b).

%I PLOS Computational Biology