The spatial organization of a population plays a key role in its evolutionary dynamics and growth. In this thesis, we study the dynamics of range expansions, in which populations expand into new territory. Focussing on microbes, we first consider how nutrients diffuse and are absorbed in a population, allowing it to grow. These nutrients may be absorbed before reaching the population interior, and this "nutrient shielding" can confine the growth to a thin region on the population periphery. A thin population front implies a small local effective population size and enhanced number fluctuations (or genetic drift). We then study evolutionary dynamics under these growth conditions. In particular, we calculate the survival probability of...
Genetic drift at the frontiers of two-dimensional range expansions of microorganisms can frustrate l...
The spatial spread of populations is one of the most visible and fundamental processes in population...
We study the effect of spatial structure, genetic drift, mutation, and selective pressure on the evo...
The colonization of unoccupied territory by invading species, known as range expansion, is a spatial...
We study the effect of spatial structure, genetic drift, mutation, and selective pressure on the evo...
Environmental changes have caused episodes of habitat expansions in the evolutionary history of many...
We investigate the nature of genetic drift acting at the leading edge of range expansions, building ...
This electronic version was submitted by the student author. The certified thesis is available in th...
Microbial colonies are experimental model systems for studying the colonization of new territory by ...
Range expansions and biological invasions are prime examples of transient processes that are likely ...
Expanding populations incur a mutation burden, the socalled expansion load. Using a mixture of indiv...
Habitat ranges of most species shift over time, for instance due to climate change, human intervent...
Background: Recent experimental work has shown that the evolutionary dynamics of bacteria expanding ...
Amongst the scientific community, there is consensus that evolution has occurred; however, there is ...
We experimentally and numerically investigate the evolutionary dynamics of four competing strains of...
Genetic drift at the frontiers of two-dimensional range expansions of microorganisms can frustrate l...
The spatial spread of populations is one of the most visible and fundamental processes in population...
We study the effect of spatial structure, genetic drift, mutation, and selective pressure on the evo...
The colonization of unoccupied territory by invading species, known as range expansion, is a spatial...
We study the effect of spatial structure, genetic drift, mutation, and selective pressure on the evo...
Environmental changes have caused episodes of habitat expansions in the evolutionary history of many...
We investigate the nature of genetic drift acting at the leading edge of range expansions, building ...
This electronic version was submitted by the student author. The certified thesis is available in th...
Microbial colonies are experimental model systems for studying the colonization of new territory by ...
Range expansions and biological invasions are prime examples of transient processes that are likely ...
Expanding populations incur a mutation burden, the socalled expansion load. Using a mixture of indiv...
Habitat ranges of most species shift over time, for instance due to climate change, human intervent...
Background: Recent experimental work has shown that the evolutionary dynamics of bacteria expanding ...
Amongst the scientific community, there is consensus that evolution has occurred; however, there is ...
We experimentally and numerically investigate the evolutionary dynamics of four competing strains of...
Genetic drift at the frontiers of two-dimensional range expansions of microorganisms can frustrate l...
The spatial spread of populations is one of the most visible and fundamental processes in population...
We study the effect of spatial structure, genetic drift, mutation, and selective pressure on the evo...