Abstract
The notion of dominance is ubiquitous across the animal kingdom, wherein some species/groups such relationships are strictly hierarchical and others are not. Modern approaches for measuring dominance have emerged in recent years taking advantage of increased computational power. One such technique, named Percolation and Conductance (Perc), uses both direct and indirect information about the flow of dominance relationships to generate hierarchical rank order that makes no assumptions about the linearity of these relationships. It also provides a new metric, known as ‘dominance certainty’, which is a complimentary measure to dominance rank that assesses the degree of ambiguity of rank relationships at the individual, dyadic and group levels. In this focused review, we will (i) describe how Perc measures dominance rank while accounting for both nonlinear hierarchical structure as well as sparsity in data—here we also provide a metric of dominance certainty estimated by Perc, which can be used to compliment the information dominance rank supplies; (ii) summarize a series of studies by our research team reflecting the importance of ‘dominance certainty’ on individual and societal health in large captive rhesus macaque breeding groups; and (iii) provide some concluding remarks and suggestions for future directions for dominance hierarchy research.This article is part of the theme issue ‘The centennial of the pecking order: current state and future prospects for the study of dominance hierarchies’.
Highlights
The concept of dominance is ubiquitous across the animal kingdom including humans, wherein some species and groups such relationships are strict and others are more relaxed [1]
By the use of information flow through a network, Percolation and Conductance (Perc) provides two individual-level disentangled metrics relating to the dominance hierarchy: dominance rank and dominance certainty [32,33]
This method characterizes the flow of status, that is the overall direction of aggression and submission, through pathways in the network and each individual’s fit within that hierarchical flow to quantify both dominance rank and dominance certainty
Summary
The concept of dominance is ubiquitous across the animal kingdom including humans, wherein some species and groups such relationships are strict and others are more relaxed [1]. By the use of information flow through a network, Perc provides two individual-level disentangled metrics relating to the dominance hierarchy: dominance rank (linearly ordered or rank tiered status relative to other animals in the group) and dominance certainty (the degree to which status is decided) [32,33] This method characterizes the flow of status, that is the overall direction of aggression and submission, through pathways in the network and each individual’s fit within that hierarchical flow to quantify both dominance rank and dominance certainty. A powerful insight from the above summarized results is that the certainty (or predictability) about one’s position in the network of status relationships may be just as important as absolute rank in predicting health outcomes This metric of individual-level certainty is based upon a global pattern of directional flow of interaction paths, illustrating the potential for multi-scale social structure (e.g. how one’s interactions are embedded within the structure/geometry of their social community) to impact health. The relationship between dominance certainty and peaceful silent-bared teeth (display) signalling pathways highlights an important connection between two aspects of rhesus macaque society, that is aggression and status signalling [47], demonstrating an interdependence in dyadic aggression and status (a) 25 female (b) male predicted Reverse Borda
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