We develop stochastic spatial epidemic models with the competition of two pathogenic strains. The dynamics resulting from different approaches are examined using both non-spatial and spatially explicit models. Our results show that pair approximation, well-mixed ordinary differential equations (ODEs), Gillespie-algorithm-based simulations and spatially explicit models give similar qualitative results. In particular, the temporal evolution of the spatial model can be successfully approximated by pair equations. Simulation results obtained from the spatially explicit model show that, first, mutation plays a major role in multi-strain coexistence, second, mild virulence remarkably decreases the coexistence domain of the parameter space and, th...
<div><p>Interactions among multiple infectious agents are increasingly recognized as a fundamental i...
Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked th...
We examine a host-pathogen model in which three types of species exist: empty sites, healthy hosts, ...
We develop stochastic spatial epidemic models with the competition of two pathogenic strains. The dy...
When pathogen strains differing in virulence compete for hosts, spatial structuring of disease trans...
We considered a Susceptible-Infective-Recovered-Susceptible (SIRS) model with strain mutation and cr...
The research presented in this dissertation centers on the role of spatial structure in the populati...
I present three models of plant--pathogen interactions. The models are stochastic and spati...
The rich theory of infectious disease modelling using the Susceptible–Infectious–Recovered (SIR) fra...
There is an increasing recognition that individual-level spatial and temporal heterogeneity may play...
While the foundations of modern epidemiology are based upon deterministic models with homogeneous mi...
Disease can influence a host population’s dynamics directly or indirectly through effects on the hos...
Viruses have two modes spread in a host body, one is to release infectious particles from infected c...
Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked thr...
ABSTRACT. In this paper we consider a stochastic spatial SIR (Susceptible-Infectious-Recovered) mode...
<div><p>Interactions among multiple infectious agents are increasingly recognized as a fundamental i...
Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked th...
We examine a host-pathogen model in which three types of species exist: empty sites, healthy hosts, ...
We develop stochastic spatial epidemic models with the competition of two pathogenic strains. The dy...
When pathogen strains differing in virulence compete for hosts, spatial structuring of disease trans...
We considered a Susceptible-Infective-Recovered-Susceptible (SIRS) model with strain mutation and cr...
The research presented in this dissertation centers on the role of spatial structure in the populati...
I present three models of plant--pathogen interactions. The models are stochastic and spati...
The rich theory of infectious disease modelling using the Susceptible–Infectious–Recovered (SIR) fra...
There is an increasing recognition that individual-level spatial and temporal heterogeneity may play...
While the foundations of modern epidemiology are based upon deterministic models with homogeneous mi...
Disease can influence a host population’s dynamics directly or indirectly through effects on the hos...
Viruses have two modes spread in a host body, one is to release infectious particles from infected c...
Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked thr...
ABSTRACT. In this paper we consider a stochastic spatial SIR (Susceptible-Infectious-Recovered) mode...
<div><p>Interactions among multiple infectious agents are increasingly recognized as a fundamental i...
Pathogen transmission and virulence are main evolutionary variables broadly assumed to be linked th...
We examine a host-pathogen model in which three types of species exist: empty sites, healthy hosts, ...