Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked through trade-offs. In well-mixed populations, these trade-offs are often ascribed to physiological restrictions, while populations with spatial self-structuring might evolve emergent trade-offs. Here, we reexamine a spatially-explicit, SIR model of the latter kind proposed by Ballegooijen and Boerlijst with the aim of characterising the mechanisms causing the emergence of the trade-off and its structural robustness. Using invadability criteria, we establish the conditions under which an evolutionary feedback between transmission and virulence mediated by pattern formation can poise the system to a critical boundary separating a disordere...
Viruses have two modes spread in a host body, one is to release infectious particles from infected c...
We explore pathogen virulence evolution during the spatial expansion of an infectious disease epidem...
Traditional explorations of infectious disease evolution have considered the competition between two...
Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked thr...
Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked th...
The rich theory of infectious disease modelling using the Susceptible–Infectious–Recovered (SIR) fra...
It is clear that the evolution of infectious disease may be influenced by population spatial structu...
When pathogen strains differing in virulence compete for hosts, spatial structuring of disease trans...
We consider an individual-based spatial model of a generic host-pathogen system and explore the diff...
Given the substantial changes in mixing in many populations, there is considerable interest in the r...
We propose a new analysis for the evolution of virulence of pathogen in a spatially structured host ...
Interactions between individual organisms are often structured in space. Population spatial structur...
We examine a host-pathogen model in which three types of species exist: empty sites, healthy hosts, ...
Ecological dynamics can produce a variety of striking patterns. On ecological time scales, pattern f...
The research presented in this dissertation centers on the role of spatial structure in the populati...
Viruses have two modes spread in a host body, one is to release infectious particles from infected c...
We explore pathogen virulence evolution during the spatial expansion of an infectious disease epidem...
Traditional explorations of infectious disease evolution have considered the competition between two...
Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked thr...
Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked th...
The rich theory of infectious disease modelling using the Susceptible–Infectious–Recovered (SIR) fra...
It is clear that the evolution of infectious disease may be influenced by population spatial structu...
When pathogen strains differing in virulence compete for hosts, spatial structuring of disease trans...
We consider an individual-based spatial model of a generic host-pathogen system and explore the diff...
Given the substantial changes in mixing in many populations, there is considerable interest in the r...
We propose a new analysis for the evolution of virulence of pathogen in a spatially structured host ...
Interactions between individual organisms are often structured in space. Population spatial structur...
We examine a host-pathogen model in which three types of species exist: empty sites, healthy hosts, ...
Ecological dynamics can produce a variety of striking patterns. On ecological time scales, pattern f...
The research presented in this dissertation centers on the role of spatial structure in the populati...
Viruses have two modes spread in a host body, one is to release infectious particles from infected c...
We explore pathogen virulence evolution during the spatial expansion of an infectious disease epidem...
Traditional explorations of infectious disease evolution have considered the competition between two...