AIMS: Evolutionary branching is a process of evolutionary diversification induced by frequency-dependent ecological interaction. Here we show how to predict the occurrence of evolutionary branching in bivariate traits when populations are evolving directionally. METHODS: Following adaptive dynamics theory, we assume low mutation rates and small mutational step sizes. On this basis, we generalize conditions for evolutionary-branching points to conditions for evolutionary-branching lines and areas, which delineate regions of trait space in which evolutionary branching can be expected despite populations still evolving directionally along these lines and within these areas. To assess the quality of predictions provided by our new conditions ...
It is widely recognized that spatial structure in a population has some, and occasionally great, imp...
The evolutionary stability of quantitative traits depends on whether a population can resist invasio...
Evolutionary dynamics arise from the interplay of mutation and selection. Fundamentally, these two p...
Aims: Evolutionary branching is a process of evolutionary diversification induced by frequency-depen...
Evolutionary branching is the process by which ecological interactions induce evolutionary diversifi...
Biological communities are thought to have been evolving in trait spaces that are not only multi-dim...
Adaptive dynamics shows that a continuous trait under frequency dependent selection may first conver...
Negative frequency-dependent disruptive selection, which arises due to the interplay between organis...
In finite populations, mutation limitation and genetic drift can hinder evolutionary diversification...
We present a formal framework for modeling evolutionary dynamics with special emphasis on the genera...
We unfold the bifurcation involving the loss of evolutionary stability of an equilibrium of the cano...
Spatial structure can decisively influence the way evolutionary processes unfold. To date, several m...
Evolutionary branching—resident-mutant coexistence under disruptive selection—is one of the main con...
An essential aspect of the current theory of adaptive speciation is the maintenance of phenotypic va...
By investigating metapopulation fitness, we present analytical expressions for the selection gradien...
It is widely recognized that spatial structure in a population has some, and occasionally great, imp...
The evolutionary stability of quantitative traits depends on whether a population can resist invasio...
Evolutionary dynamics arise from the interplay of mutation and selection. Fundamentally, these two p...
Aims: Evolutionary branching is a process of evolutionary diversification induced by frequency-depen...
Evolutionary branching is the process by which ecological interactions induce evolutionary diversifi...
Biological communities are thought to have been evolving in trait spaces that are not only multi-dim...
Adaptive dynamics shows that a continuous trait under frequency dependent selection may first conver...
Negative frequency-dependent disruptive selection, which arises due to the interplay between organis...
In finite populations, mutation limitation and genetic drift can hinder evolutionary diversification...
We present a formal framework for modeling evolutionary dynamics with special emphasis on the genera...
We unfold the bifurcation involving the loss of evolutionary stability of an equilibrium of the cano...
Spatial structure can decisively influence the way evolutionary processes unfold. To date, several m...
Evolutionary branching—resident-mutant coexistence under disruptive selection—is one of the main con...
An essential aspect of the current theory of adaptive speciation is the maintenance of phenotypic va...
By investigating metapopulation fitness, we present analytical expressions for the selection gradien...
It is widely recognized that spatial structure in a population has some, and occasionally great, imp...
The evolutionary stability of quantitative traits depends on whether a population can resist invasio...
Evolutionary dynamics arise from the interplay of mutation and selection. Fundamentally, these two p...