We study the effect of spatial structure, genetic drift, mutation, and selective pressure on the evolutionary dynamics in a simplified model of asexual organisms colonizing a new territory. Under an appropriate coarse-graining, the evolutionary dynamics is related to the directed percolation processes that arise in voter models, the Domany-Kinzel (DK) model, contact process, and so on. We explore the differences between linear (flat front) expansions and the much less familiar radial (curved front) range expansions. For the radial expansion, we develop a generalized, off-lattice DK model that minimizes otherwise persistent lattice artifacts. With both simulations and analytical techniques, we study the survival probability of advantageous m...
There is an increasing recognition that evolutionary processes play a key role in determining the dy...
We introduce the spatial Lambda-Fleming-Viot model for natural selection within a population distrib...
We explore how the genotype–phenotype map determines convergent evolution in a simple model of spati...
We study the effect of spatial structure, genetic drift, mutation, and selective pressure on the evo...
We experimentally and numerically investigate the evolutionary dynamics of four competing strains of...
The colonization of unoccupied territory by invading species, known as range expansion, is a spatial...
Environmental changes have caused episodes of habitat expansions in the evolutionary history of many...
We experimentally and numerically investigate the evolutionary dynamics of four competing strains of...
We investigate the nature of genetic drift acting at the leading edge of range expansions, building ...
The spatial organization of a population plays a key role in its evolutionary dynamics and growth. ...
Microbial colonies are experimental model systems for studying the colonization of new territory by ...
\u3cp\u3eThe expansion of a population into new habitat is a transient process that leaves its footp...
We consider spatial population dynamics on a lattice, following a type of a contact (birth–death) st...
A fundamental problem of asexual adaptation is that beneficial substitutions are not efficiently acc...
The evolution of complex traits requires the accumulation of multiple mutations, which can be disadv...
There is an increasing recognition that evolutionary processes play a key role in determining the dy...
We introduce the spatial Lambda-Fleming-Viot model for natural selection within a population distrib...
We explore how the genotype–phenotype map determines convergent evolution in a simple model of spati...
We study the effect of spatial structure, genetic drift, mutation, and selective pressure on the evo...
We experimentally and numerically investigate the evolutionary dynamics of four competing strains of...
The colonization of unoccupied territory by invading species, known as range expansion, is a spatial...
Environmental changes have caused episodes of habitat expansions in the evolutionary history of many...
We experimentally and numerically investigate the evolutionary dynamics of four competing strains of...
We investigate the nature of genetic drift acting at the leading edge of range expansions, building ...
The spatial organization of a population plays a key role in its evolutionary dynamics and growth. ...
Microbial colonies are experimental model systems for studying the colonization of new territory by ...
\u3cp\u3eThe expansion of a population into new habitat is a transient process that leaves its footp...
We consider spatial population dynamics on a lattice, following a type of a contact (birth–death) st...
A fundamental problem of asexual adaptation is that beneficial substitutions are not efficiently acc...
The evolution of complex traits requires the accumulation of multiple mutations, which can be disadv...
There is an increasing recognition that evolutionary processes play a key role in determining the dy...
We introduce the spatial Lambda-Fleming-Viot model for natural selection within a population distrib...
We explore how the genotype–phenotype map determines convergent evolution in a simple model of spati...