How the size of social groups affects the evolution of cooperative behaviors is a classic question in evolutionary biology. Here we investigate group size effects in evolutionary games in which individuals choose whether to cooperate or defect. We find that increasing the group size decreases the proportion of cooperators at both stable and unstable rest points of the replicator dynamics. This implies that larger group sizes can have negative effects (by reducing the amount of cooperation at stable polymorphisms) and positive effects (by enlarging the basin of attraction of more cooperative outcomes) on the evolution of cooperation. These two effects can be simultaneously present in games whose evolutionary dynamics features both stable and...
Complex social behaviors lie at the heart of many of the challenges facing evolutionary biology, soc...
The effect of group structure on cooperative behavior is not well understood. In this paper, we stud...
<div><p>Not only animals, plants and microbes but also humans cooperate in groups. The evolution of ...
How the size of social groups affects the evolution of cooperative behaviors is a classic question i...
Models of the evolution of collective action typically assume that interactions occur in groups of i...
Evolutionary game theory is an important tool to model animal and human behaviour. A key class of ga...
The question of how cooperative groups can evolve and be maintained is fundamental to understanding ...
(INTRODUCTION) Human societies are characterised by high degrees of reciprocal altruism between unre...
The emergence and abundance of cooperation in nature poses a tenacious and challenging puzzle to evo...
Natural selection favors behaviors that increase an organism’s survival and reproduction. However, m...
We study the combined influence of selection and random fluctuations on the evolutionary dynamics of...
The emergence of cooperation in populations of selfish individuals is a fascinating topic that has i...
The evolution of populations is influenced by many factors, and the simple classical models have bee...
Multilevel selection is an important organizing principle that crucially underlies evolutionary proc...
Understanding the evolution of sociality in humans and other species requires understanding how sele...
Complex social behaviors lie at the heart of many of the challenges facing evolutionary biology, soc...
The effect of group structure on cooperative behavior is not well understood. In this paper, we stud...
<div><p>Not only animals, plants and microbes but also humans cooperate in groups. The evolution of ...
How the size of social groups affects the evolution of cooperative behaviors is a classic question i...
Models of the evolution of collective action typically assume that interactions occur in groups of i...
Evolutionary game theory is an important tool to model animal and human behaviour. A key class of ga...
The question of how cooperative groups can evolve and be maintained is fundamental to understanding ...
(INTRODUCTION) Human societies are characterised by high degrees of reciprocal altruism between unre...
The emergence and abundance of cooperation in nature poses a tenacious and challenging puzzle to evo...
Natural selection favors behaviors that increase an organism’s survival and reproduction. However, m...
We study the combined influence of selection and random fluctuations on the evolutionary dynamics of...
The emergence of cooperation in populations of selfish individuals is a fascinating topic that has i...
The evolution of populations is influenced by many factors, and the simple classical models have bee...
Multilevel selection is an important organizing principle that crucially underlies evolutionary proc...
Understanding the evolution of sociality in humans and other species requires understanding how sele...
Complex social behaviors lie at the heart of many of the challenges facing evolutionary biology, soc...
The effect of group structure on cooperative behavior is not well understood. In this paper, we stud...
<div><p>Not only animals, plants and microbes but also humans cooperate in groups. The evolution of ...