Add to ORKGSpecies diversity in ecosystems is often accompanied by characteristic spatio-temporal patterns. Here, we consider a generic two-dimensional population model and study the spiraling patterns arising from the combined effects of cyclic dominance of three species, mutation, pair-exchange and individual hopping. The dynamics is characterized by nonlinear mobility and a Hopf bifurcation around which the system's four-phase state diagram is inferred from a complex Ginzburg-Landau equation derived using a perturbative multiscale expansion. While the dynamics is generally characterized by spiraling patterns, we show that spiral waves are stable in only one of the four phases. Furthermore, we characterize a phase where nonlinearity leads to the ann...
In nature, different species compete among themselves for common resources and favorable habitat. Th...
Heteroclinic-induced spiral waves may arise in systems of partial differential equations that exhibi...
As shown by Alan Turing in 1952, differential diffusion may destabilize uniform distributions of rea...
Species diversity in ecosystems is often accompanied by the self-organisation of the population into...
The spatiotemporal arrangement of interacting populations often influences the maintenance of specie...
We consider a two-dimensional model of three species in rock-paper-scissors competition and study th...
Self-arrangement of individuals into spatial patterns often accompanies and promotes species diversi...
Spatially extended versions of the cyclic-dominance Rock-Paper-Scissors model have traveling wave (i...
We introduce a population model for species under cyclic competition. This model allows individuals ...
Noise and spatial degrees of freedom characterize most ecosystems. Some aspects of their influence o...
Species extinction occurs regularly and unavoidably in ecological systems. The time scales for extin...
In the present article, we demonstrate the emergence and existence of the spiral wave chimera-like t...
Biodiversity is essential to the viability of ecological systems. Species diversity in ecosystems is...
In nature, different species compete among themselves for common resources and favorable habitat. Th...
Heteroclinic-induced spiral waves may arise in systems of partial differential equations that exhibi...
As shown by Alan Turing in 1952, differential diffusion may destabilize uniform distributions of rea...
Species diversity in ecosystems is often accompanied by the self-organisation of the population into...
The spatiotemporal arrangement of interacting populations often influences the maintenance of specie...
We consider a two-dimensional model of three species in rock-paper-scissors competition and study th...
Self-arrangement of individuals into spatial patterns often accompanies and promotes species diversi...
Spatially extended versions of the cyclic-dominance Rock-Paper-Scissors model have traveling wave (i...
We introduce a population model for species under cyclic competition. This model allows individuals ...
Noise and spatial degrees of freedom characterize most ecosystems. Some aspects of their influence o...
Species extinction occurs regularly and unavoidably in ecological systems. The time scales for extin...
In the present article, we demonstrate the emergence and existence of the spiral wave chimera-like t...
Biodiversity is essential to the viability of ecological systems. Species diversity in ecosystems is...
In nature, different species compete among themselves for common resources and favorable habitat. Th...
Heteroclinic-induced spiral waves may arise in systems of partial differential equations that exhibi...
As shown by Alan Turing in 1952, differential diffusion may destabilize uniform distributions of rea...