Add to ORKGA telegraph equation is believed to be an appropriate model of population dynamics as it accounts for the directional persistence of individual animal movement. Being motivated by the problem of habitat fragmentation, which is known to be a major threat to biodiversity that causes species extinction worldwide, we consider the reaction-telegraph equation (i.e., telegraph equation combined with the population growth) on a bounded domain with the goal to establish the conditions of species survival. We first show analytically that, in the case of linear growth, the expression for the domain's critical size coincides with the critical size of the corresponding reaction-diffusion model. We then consider two biologically relevant cases of nonline...
In this work we study the likelihood of survival of single-species in the context of hostile and dis...
Abstract. This work is the continuation of our previous paper [6]. There, we dealt with the reaction...
Many ecosystems are pressured when the environment is perturbed, such as when resources are scarce, ...
A telegraph equation is believed to be an appropriate model of population dynamics as it accounts fo...
Understanding the effect of the global environmental change on the dynamics of ecosystems and popula...
How growth, mortality, and dispersal in a species affect the species’ spread and persistence constit...
Reaction-telegraph equation (RTE) is a mathematical model that has often been used to describe natur...
What are the conditions for a colony settling on an island to survive? One of the main conditions is...
We consider the system of reaction-diffusion equations proposed in [8] as a population dynamics mode...
We study a reaction-diffusion model in a binary environment made of habitat and non-habitat regions....
In this paper, we consider a reaction–diffusion model in population dynamics and study the impact of...
Integrodifference equation (IDE) models can be used to determine the critical domain size required f...
How growth, mortality, and dispersal in a species affect the species’ spread and persistence constit...
Embryonic development involves diffusion and proliferation of cells, as well as diffusion and reacti...
AbstractThis paper is concerned about a reaction–diffusion equation on n-dimensional isotropically g...
In this work we study the likelihood of survival of single-species in the context of hostile and dis...
Abstract. This work is the continuation of our previous paper [6]. There, we dealt with the reaction...
Many ecosystems are pressured when the environment is perturbed, such as when resources are scarce, ...
A telegraph equation is believed to be an appropriate model of population dynamics as it accounts fo...
Understanding the effect of the global environmental change on the dynamics of ecosystems and popula...
How growth, mortality, and dispersal in a species affect the species’ spread and persistence constit...
Reaction-telegraph equation (RTE) is a mathematical model that has often been used to describe natur...
What are the conditions for a colony settling on an island to survive? One of the main conditions is...
We consider the system of reaction-diffusion equations proposed in [8] as a population dynamics mode...
We study a reaction-diffusion model in a binary environment made of habitat and non-habitat regions....
In this paper, we consider a reaction–diffusion model in population dynamics and study the impact of...
Integrodifference equation (IDE) models can be used to determine the critical domain size required f...
How growth, mortality, and dispersal in a species affect the species’ spread and persistence constit...
Embryonic development involves diffusion and proliferation of cells, as well as diffusion and reacti...
AbstractThis paper is concerned about a reaction–diffusion equation on n-dimensional isotropically g...
In this work we study the likelihood of survival of single-species in the context of hostile and dis...
Abstract. This work is the continuation of our previous paper [6]. There, we dealt with the reaction...
Many ecosystems are pressured when the environment is perturbed, such as when resources are scarce, ...