Add to ORKGWe consider an individual-based spatial model of a generic host-pathogen system and explore the differences between such models and mean-field systems. We find a range of new dynamical and evolutionary phenomena, in particular: (i) in this system, selective pressure is substantially reduced compared with the corresponding mean-field models, and artificial suppression of the pathogen population leads to faster evolution and reduces evolutionary stability; (ii) unlike the mean-field models, there exists a critical transmissibility tau(c) above which the pathogen dies out; and (iii) the system displays self-evolved criticality. If the transmissibility tau is allowed to mutate, it evolves to the critical value tau(c). Thus the system evolves to...
We considered a Susceptible-Infective-Recovered-Susceptible (SIRS) model with strain mutation and cr...
Traditional explorations of infectious disease evolution have considered the competition between two...
The research presented in this dissertation centers on the role of spatial structure in the populati...
We examine a host-pathogen model in which three types of species exist: empty sites, healthy hosts, ...
Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked thr...
We derive the mean field equations of a simple spatial host-pathogen, or predator-prey, model that h...
Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked th...
When pathogen strains differing in virulence compete for hosts, spatial structuring of disease trans...
There is growing theoretical evidence that spatial structure can affect the ecological and evolution...
International audienceThere is growing theoretical evidence that spatial structure can affect the ec...
Techniques for determining the long-term dynamics of host-parasite systems are well established for ...
The rich theory of infectious disease modelling using the Susceptible–Infectious–Recovered (SIR) fra...
Techniques for determining the long-term dynamics of host-parasite systems are well established for ...
We considered a Susceptible-Infective-Recovered-Susceptible (SIRS) model with strain mutation and cr...
Traditional explorations of infectious disease evolution have considered the competition between two...
The research presented in this dissertation centers on the role of spatial structure in the populati...
We examine a host-pathogen model in which three types of species exist: empty sites, healthy hosts, ...
Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked thr...
We derive the mean field equations of a simple spatial host-pathogen, or predator-prey, model that h...
Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked th...
When pathogen strains differing in virulence compete for hosts, spatial structuring of disease trans...
There is growing theoretical evidence that spatial structure can affect the ecological and evolution...
International audienceThere is growing theoretical evidence that spatial structure can affect the ec...
Techniques for determining the long-term dynamics of host-parasite systems are well established for ...
The rich theory of infectious disease modelling using the Susceptible–Infectious–Recovered (SIR) fra...
Techniques for determining the long-term dynamics of host-parasite systems are well established for ...
We considered a Susceptible-Infective-Recovered-Susceptible (SIRS) model with strain mutation and cr...
Traditional explorations of infectious disease evolution have considered the competition between two...
The research presented in this dissertation centers on the role of spatial structure in the populati...