Evolutionary branching is analysed in a stochastic, individual-based population model under mutation and selection. In such models, the common assumption is that individual reproduction and life career are characterised by values of a trait, and also by population sizes, and that mutations lead to small changes ϵ in trait value. Then, traditionally, the evolutionary dynamics is studied in the limit ϵ→0. In the present approach, small but non-negligible mutational steps are considered. By means of theoretical analysis in the limit of infinitely large populations, as well as computer simulations, we demonstrate how discrete mutational steps affect the patterns of evolutionary branching. We also argue that the average time to the first branchi...
First a population model with one single type of individuals is con-sidered. Individuals reproduce a...
We present a general framework to describe the evolutionary dynamics of an arbitrary number of types...
In this thesis, we use multitype Galton-Watson branching processes in random environments as individ...
Evolutionary branching is analysed in a stochastic, individual-based population model under mutation...
International audienceWe are interested in modelling Darwinian evolution, resulting from the interpl...
International audienceWe are interested in modelling Darwinian evolution, resulting from the interpl...
International audienceWe are interested in the study of models describing the evolution of a polymor...
Baake E, Georgii H-O. Mutation, selection, and ancestry in branching models: a variational approach....
International audienceHorizontal gene transfer consists in exchanging genetic materials between micr...
International audienceA distinctive signature of living systems is Darwinian evolution, that is, a p...
International audienceWe present a model for the dynamics of a population of bacteria with a continu...
This thesis provides an analysis of the evolution of discrete traits and their effect on the birth a...
In finite populations, mutation limitation and genetic drift can hinder evolutionary diversification...
The biological theory of adaptive dynamics proposes a description of the long-term evolution of a st...
First a population model with one single type of individuals is con-sidered. Individuals reproduce a...
We present a general framework to describe the evolutionary dynamics of an arbitrary number of types...
In this thesis, we use multitype Galton-Watson branching processes in random environments as individ...
Evolutionary branching is analysed in a stochastic, individual-based population model under mutation...
International audienceWe are interested in modelling Darwinian evolution, resulting from the interpl...
International audienceWe are interested in modelling Darwinian evolution, resulting from the interpl...
International audienceWe are interested in the study of models describing the evolution of a polymor...
Baake E, Georgii H-O. Mutation, selection, and ancestry in branching models: a variational approach....
International audienceHorizontal gene transfer consists in exchanging genetic materials between micr...
International audienceA distinctive signature of living systems is Darwinian evolution, that is, a p...
International audienceWe present a model for the dynamics of a population of bacteria with a continu...
This thesis provides an analysis of the evolution of discrete traits and their effect on the birth a...
In finite populations, mutation limitation and genetic drift can hinder evolutionary diversification...
The biological theory of adaptive dynamics proposes a description of the long-term evolution of a st...
First a population model with one single type of individuals is con-sidered. Individuals reproduce a...
We present a general framework to describe the evolutionary dynamics of an arbitrary number of types...
In this thesis, we use multitype Galton-Watson branching processes in random environments as individ...