The role of the diffusive interaction between fish-populated and fish-free habitats in a patchy environment in plankton pattern formation is studied by means of a minimal reaction-diffusion model of the nutrient-plankton-fish food chain. It is shown that such interaction can give rise to spatio-temporal plankton patterns. The fractal dimension of the patterns is shown dependent on the fish predation rate. The spatially averaged plankton dynamics depending on both fish predation rate and distance between fish-populated habitats can exhibit chaotic and regular behavior. The chaotic plankton dynamics is characteristic of a wide parameter range.</p
Plankton patchiness in homogeneous physical environments is studied in this paper assuming that all ...
The challenges to live in the open water and the diversity of habitats in the marine environments pr...
In this paper, we investigate the complex dynamics of a spatial plankton-fish system with ...
We study the role of the diffusive interaction in plankton dynamics in a patchy environment. We use ...
This work is focused on the role of diffusive interaction between separate habitats in a patchy envi...
The dynamics of aquatic biological communities in a patchy environment is of great interest in respe...
The current turn-of-the-century period witnesses the intensive use of the bioproducts of the World O...
The current turn-of-the-century period witnesses the intensive use of the bioproducts of the World O...
Dynamics of aquatic biological communities in patchy environments is a topic of substantial interest...
This work is focused on the processes underlying the dynamics of spatially inhomogeneous plankton co...
Nonlinear dynamics and chaotic and complex systems constitute some of the most fascinating developme...
A conceptual mathematical model of the reaction-diffusion type was used to study the basic mechanism...
In this paper, we focus on the phenomenon of pattern formation in a reaction diffusion model of plan...
In this paper we investigate the spontaneous emergence and the dynamics of patchiness in spatially d...
The history of modelling plankton dynamics is already quite long and has been initiated by fishery s...
Plankton patchiness in homogeneous physical environments is studied in this paper assuming that all ...
The challenges to live in the open water and the diversity of habitats in the marine environments pr...
In this paper, we investigate the complex dynamics of a spatial plankton-fish system with ...
We study the role of the diffusive interaction in plankton dynamics in a patchy environment. We use ...
This work is focused on the role of diffusive interaction between separate habitats in a patchy envi...
The dynamics of aquatic biological communities in a patchy environment is of great interest in respe...
The current turn-of-the-century period witnesses the intensive use of the bioproducts of the World O...
The current turn-of-the-century period witnesses the intensive use of the bioproducts of the World O...
Dynamics of aquatic biological communities in patchy environments is a topic of substantial interest...
This work is focused on the processes underlying the dynamics of spatially inhomogeneous plankton co...
Nonlinear dynamics and chaotic and complex systems constitute some of the most fascinating developme...
A conceptual mathematical model of the reaction-diffusion type was used to study the basic mechanism...
In this paper, we focus on the phenomenon of pattern formation in a reaction diffusion model of plan...
In this paper we investigate the spontaneous emergence and the dynamics of patchiness in spatially d...
The history of modelling plankton dynamics is already quite long and has been initiated by fishery s...
Plankton patchiness in homogeneous physical environments is studied in this paper assuming that all ...
The challenges to live in the open water and the diversity of habitats in the marine environments pr...
In this paper, we investigate the complex dynamics of a spatial plankton-fish system with ...