We survey a class of models for spatially structured populations which we have called spatial Λ-Fleming–Viot processes. They arise from a flexible framework for modelling in which the key innovation is that random genetic drift is driven by a Poisson point process of spatial 'events'. We demonstrate how this overcomes some of the obstructions to modelling populations which evolve in two- (and higher-) dimensional spatial continua, how its predictions match phenomena observed in data and how it fits with classical models. Finally we outline some directions for future research
Spatial structure can decisively influence the way evolutionary processes unfold. To date, several m...
Mathematical models play a fundamental role in theoretical population genetics and, in turn, populat...
This thesis focus on the effect that selection has on the ancestry of a spatially structured populat...
We survey a class of models for spatially structured populations which we have called spatial Λ-Flem...
We investigate a new model for populations evolving in a spatial continuum. This model can be though...
We introduce the spatial Lambda-Fleming-Viot model for natural selection within a population distrib...
Evolution is a fundamentally population level process in which variation, drift and selection produc...
Natural populations present an abundant genetic variability. Like mutation or natural se- lection, d...
Spatial structure can decisively influence the way evolutionary processes unfold. Several methods ha...
In this paper, we consider a mathematical model for the evolution of neutral genetic diversity in a ...
We are interested in populations in which the fitness of different genetic types fluctuates in time ...
This thesis deals with the spatial structure of genetic diversity. We first study a measure-valued p...
Abstract- Spatially-structured evolutionary aglorithms (SSEAs) have allowed evolutionary search to b...
We consider three different settings for branching processes with spatial structure which appear in ...
We consider the dynamics of cultural evolution in spatially-structured populations. Most spatially e...
Spatial structure can decisively influence the way evolutionary processes unfold. To date, several m...
Mathematical models play a fundamental role in theoretical population genetics and, in turn, populat...
This thesis focus on the effect that selection has on the ancestry of a spatially structured populat...
We survey a class of models for spatially structured populations which we have called spatial Λ-Flem...
We investigate a new model for populations evolving in a spatial continuum. This model can be though...
We introduce the spatial Lambda-Fleming-Viot model for natural selection within a population distrib...
Evolution is a fundamentally population level process in which variation, drift and selection produc...
Natural populations present an abundant genetic variability. Like mutation or natural se- lection, d...
Spatial structure can decisively influence the way evolutionary processes unfold. Several methods ha...
In this paper, we consider a mathematical model for the evolution of neutral genetic diversity in a ...
We are interested in populations in which the fitness of different genetic types fluctuates in time ...
This thesis deals with the spatial structure of genetic diversity. We first study a measure-valued p...
Abstract- Spatially-structured evolutionary aglorithms (SSEAs) have allowed evolutionary search to b...
We consider three different settings for branching processes with spatial structure which appear in ...
We consider the dynamics of cultural evolution in spatially-structured populations. Most spatially e...
Spatial structure can decisively influence the way evolutionary processes unfold. To date, several m...
Mathematical models play a fundamental role in theoretical population genetics and, in turn, populat...
This thesis focus on the effect that selection has on the ancestry of a spatially structured populat...