A computer experiment study of population evolution and its dynamics is presented for two competing species (A and B) which share two habitats (1 and 2) of a limited environmental capacity. The Penna model of biological aging, based on the concept of defective mutation accumulation, was adopted for migrating population. In this paper, we assume and concentrate on the case when only one species (A) is mobile. For isolated habitats and for any initial population, we get at equilibrium spatial population distribution (A, B) in which A occupies location ’1’ only, while B-species is the ultimate winner in ’2’. This is achieved by suitable choice of model parameters so habitat ’1’ is more attractive for species ’A’ while location ’2’ is more adva...
We consider the effect of network structure on the evolution of a population. Models of this kind ty...
We use an individual-based, spatially realistic metapopulation model to study the evolution of migra...
We investigate whether asymmetric fast migration can modify the predictions of classical competition...
Abstract A computer experiment study of population evolution and its dynamics is pre-sented for two ...
Computer experiment study of population evolution and its dynamics is presented for two competing s...
Computer experiment study of population evolution and its dynamics is presented for two competing s...
AbstractWe first investigate in a logistic model the effects of migration and spatial heterogeneity ...
We use an individual-based, spatially realistic metapopulation model to study the evolution of migra...
Population ecology is concerned with the growth patterns of populations. This field has many applica...
In this article, we develop population game theory, a theory that combines the dynamics of animal be...
How do mutation and gene flow influence population persistence, niche expansion, and local adaptatio...
We use an individual-based, spatially realistic metapopulation model to study the evolution of migra...
Abstract. By means of a simulation model we are showing that the rates of migration can be related t...
changing world Most species do not live in a constant environment over space or time. Their environm...
International audienceWe consider the evolution of ecological specialization in alandscape with two ...
We consider the effect of network structure on the evolution of a population. Models of this kind ty...
We use an individual-based, spatially realistic metapopulation model to study the evolution of migra...
We investigate whether asymmetric fast migration can modify the predictions of classical competition...
Abstract A computer experiment study of population evolution and its dynamics is pre-sented for two ...
Computer experiment study of population evolution and its dynamics is presented for two competing s...
Computer experiment study of population evolution and its dynamics is presented for two competing s...
AbstractWe first investigate in a logistic model the effects of migration and spatial heterogeneity ...
We use an individual-based, spatially realistic metapopulation model to study the evolution of migra...
Population ecology is concerned with the growth patterns of populations. This field has many applica...
In this article, we develop population game theory, a theory that combines the dynamics of animal be...
How do mutation and gene flow influence population persistence, niche expansion, and local adaptatio...
We use an individual-based, spatially realistic metapopulation model to study the evolution of migra...
Abstract. By means of a simulation model we are showing that the rates of migration can be related t...
changing world Most species do not live in a constant environment over space or time. Their environm...
International audienceWe consider the evolution of ecological specialization in alandscape with two ...
We consider the effect of network structure on the evolution of a population. Models of this kind ty...
We use an individual-based, spatially realistic metapopulation model to study the evolution of migra...
We investigate whether asymmetric fast migration can modify the predictions of classical competition...