Evidence shows that diversity and spatial distributions of biological communities are largely driven by the race of living organisms in their adaptation to chemicals synthesized by their neighbors. In this report, the emergence of mathematical models on pure spatial self-organization induced by biochemical suppression (allelopathy) and competition between species were investigated through numerical analysis. For both random and patched initial spatial distributions of species, we demonstrate that warfare survivors are self-organized on the landscape in Turing-like patterns driven by diffusive instabilities of allelochemicals. These patterns are simple; either all species coexist at low diffusion rates or are massively extinct, except for a ...
International audienceCellular automata are often used to explore the numerous possible scenarios of...
Species distribution in a metacommunity varies according to their traits, the distribution of enviro...
Competition is ubiquitous in microbial communities, shaping both their spatial and temporal structur...
Evidence shows that diversity and spatial distributions of biological communities are largely driven...
This chapter examines cellular automaton models of sessile colonial organisms that compete for space...
Spatial self-organization emerges in distributed systems exhibiting local interactions when nonlinea...
Self-arrangement of individuals into spatial patterns often accompanies and promotes species diversi...
Many ecosystems, from vegetation to biofilms, are composed of territorial populations that compete f...
We study the collective dynamics of mobile species under cyclic competition by breaking the symmetry...
Allelopathic species can alter biodiversity. Using simulated assemblages that are characterised by n...
Inspired by the use of hybrid cellular automata in modeling cancer, we introduce a generalization of...
We discuss a cellular automata model to study the competition between an emergent better fitted spec...
Nowadays, evidence is mounting that the race of living organisms for adaptationto the chemicals synt...
Ecological systems are complex assemblies of large numbers of individuals, interacting competitively...
The formation of out-of-equilibrium patterns is a characteristic feature of spatially-extended, biod...
International audienceCellular automata are often used to explore the numerous possible scenarios of...
Species distribution in a metacommunity varies according to their traits, the distribution of enviro...
Competition is ubiquitous in microbial communities, shaping both their spatial and temporal structur...
Evidence shows that diversity and spatial distributions of biological communities are largely driven...
This chapter examines cellular automaton models of sessile colonial organisms that compete for space...
Spatial self-organization emerges in distributed systems exhibiting local interactions when nonlinea...
Self-arrangement of individuals into spatial patterns often accompanies and promotes species diversi...
Many ecosystems, from vegetation to biofilms, are composed of territorial populations that compete f...
We study the collective dynamics of mobile species under cyclic competition by breaking the symmetry...
Allelopathic species can alter biodiversity. Using simulated assemblages that are characterised by n...
Inspired by the use of hybrid cellular automata in modeling cancer, we introduce a generalization of...
We discuss a cellular automata model to study the competition between an emergent better fitted spec...
Nowadays, evidence is mounting that the race of living organisms for adaptationto the chemicals synt...
Ecological systems are complex assemblies of large numbers of individuals, interacting competitively...
The formation of out-of-equilibrium patterns is a characteristic feature of spatially-extended, biod...
International audienceCellular automata are often used to explore the numerous possible scenarios of...
Species distribution in a metacommunity varies according to their traits, the distribution of enviro...
Competition is ubiquitous in microbial communities, shaping both their spatial and temporal structur...