Add to ORKGWe study the stability and synchronization of predator-prey populations subjected to noise. The system is described by patches of local populations coupled by migration and predation over a neighborhood. When a single patch is considered, random perturbations tend to destabilize the populations, leading to extinction. If the number of patches is small, stabilization in the presence of noise is maintained at the expense of synchronization. As the number of patches increases, both the stability and the synchrony among patches increase. However, a residual asynchrony, large compared with the noise amplitude, seems to persist even in the limit of an infinite number of patches. Therefore, the mechanism of stabilization by asynchrony recently pro...
AbstractPopulations of biological species are often subject to different types of environmental nois...
Treballs Finals de Màster en Física dels Sistemes Complexos i Biofísica, Facultat de Física, Univers...
This research studies a metapopulation model where each patch is considered a form of fragmentation ...
We study the stability and synchronization of predator-prey populations subjected to noise. The syst...
We use the theory of noise-induced phase synchronization to analyze the effects of dispersal on the ...
We use the theory of noise-induced phase synchronization to analyze the effects of dispersal on the ...
Many theoretical approaches predict the dynamics of interacting populations to be chaotic but that h...
(1) We have constructed a model of a predator-prey system which persists in a patchy environment by ...
University of Minnesota Ph.D. dissertation. May 2011. Major: Physics. Advisor: Alex Kamenev. 1 compu...
We use the theory of noise-induced phase synchronization to analyze the effects of demographic noise...
In this thesis we discuss the synchronization of stochastic population oscillators in ecology and ne...
Real ecosystems are influenced by random fluctuations of environmental parameters, such as temperatu...
The influence of environmental fluctuations (modeled as a multiplicative dichotomous noise) on preda...
We study the model describing the coexistence of three populations of. In the deterministic case, we...
: Noise is ubiquitous in natural and artificial systems. In a noisy environment, the interactions am...
AbstractPopulations of biological species are often subject to different types of environmental nois...
Treballs Finals de Màster en Física dels Sistemes Complexos i Biofísica, Facultat de Física, Univers...
This research studies a metapopulation model where each patch is considered a form of fragmentation ...
We study the stability and synchronization of predator-prey populations subjected to noise. The syst...
We use the theory of noise-induced phase synchronization to analyze the effects of dispersal on the ...
We use the theory of noise-induced phase synchronization to analyze the effects of dispersal on the ...
Many theoretical approaches predict the dynamics of interacting populations to be chaotic but that h...
(1) We have constructed a model of a predator-prey system which persists in a patchy environment by ...
University of Minnesota Ph.D. dissertation. May 2011. Major: Physics. Advisor: Alex Kamenev. 1 compu...
We use the theory of noise-induced phase synchronization to analyze the effects of demographic noise...
In this thesis we discuss the synchronization of stochastic population oscillators in ecology and ne...
Real ecosystems are influenced by random fluctuations of environmental parameters, such as temperatu...
The influence of environmental fluctuations (modeled as a multiplicative dichotomous noise) on preda...
We study the model describing the coexistence of three populations of. In the deterministic case, we...
: Noise is ubiquitous in natural and artificial systems. In a noisy environment, the interactions am...
AbstractPopulations of biological species are often subject to different types of environmental nois...
Treballs Finals de Màster en Física dels Sistemes Complexos i Biofísica, Facultat de Física, Univers...
This research studies a metapopulation model where each patch is considered a form of fragmentation ...