We analytically study the dynamics of evolving populations that exhibit metastability on the level of phenotype or fitness. In constant selective environments, such metastable behavior is caused by two qualitatively different mechanisms. On the one hand, populations may become pinned at a local fitness optimum, being separated from higher-fitness genotypes by a fitness barrier of low-fitness genotypes. On the other hand, the population may only be metastable on the level of phenotype or fitness while, at the same time, diffusing over neutral networks of selectively neutral genotypes. Metastability occurs in this case because the population is separated from higher-fitness genotypes by an entropy barrier: the population must explore large po...
Dynamics of populations depend on demographic parameters which may change during evolution. In simpl...
We explore how the genotype–phenotype map determines convergent evolution in a simple model of spati...
In this paper, we investigate a neutral epoch during an optimisation run with complex genotype-to-fi...
In this thesis, a new mathematical formalism for analyzing evolutionary dynamics is developed. This ...
We analyze the population dynamics of a broad class of fitness functions that exhibit epochal evolut...
We study the evolution of large but finite asexual populations evolving in fitness landscapes in whi...
Metastability is a common phenomenon. Many evolutionary processes, both natural and artificial, alte...
We analyze the population dynamics of a broad class of fitness functions that exhibit epochal evolut...
Large sets of genotypes give rise to the same phenotype because phenotypic expressionis highly redun...
We study the evolution of large but finite asexual populations evolving in fitness landscapes in whi...
Evolutionary dynamics arise from the interplay of mutation and selection. Fundamentally, these two p...
37 pages, 4 figuresWe consider a stochastic model of population dynamics where each individual is ch...
Large sets of genotypes give rise to the same phenotype because phenotypic expression is highly redu...
AbstractMetastability is a common phenomenon. Many evolutionary processes, both natural and artifici...
Understanding the benefits and costs of recombination under different scenarios of evolutionary adap...
Dynamics of populations depend on demographic parameters which may change during evolution. In simpl...
We explore how the genotype–phenotype map determines convergent evolution in a simple model of spati...
In this paper, we investigate a neutral epoch during an optimisation run with complex genotype-to-fi...
In this thesis, a new mathematical formalism for analyzing evolutionary dynamics is developed. This ...
We analyze the population dynamics of a broad class of fitness functions that exhibit epochal evolut...
We study the evolution of large but finite asexual populations evolving in fitness landscapes in whi...
Metastability is a common phenomenon. Many evolutionary processes, both natural and artificial, alte...
We analyze the population dynamics of a broad class of fitness functions that exhibit epochal evolut...
Large sets of genotypes give rise to the same phenotype because phenotypic expressionis highly redun...
We study the evolution of large but finite asexual populations evolving in fitness landscapes in whi...
Evolutionary dynamics arise from the interplay of mutation and selection. Fundamentally, these two p...
37 pages, 4 figuresWe consider a stochastic model of population dynamics where each individual is ch...
Large sets of genotypes give rise to the same phenotype because phenotypic expression is highly redu...
AbstractMetastability is a common phenomenon. Many evolutionary processes, both natural and artifici...
Understanding the benefits and costs of recombination under different scenarios of evolutionary adap...
Dynamics of populations depend on demographic parameters which may change during evolution. In simpl...
We explore how the genotype–phenotype map determines convergent evolution in a simple model of spati...
In this paper, we investigate a neutral epoch during an optimisation run with complex genotype-to-fi...