The establishment and spread of a disease within a metapopulation is influenced both by dynamics within each population and by the host and pathogen spatial processes through which they are connected. We develop a spatially explicit metapopulation model to investigate how the form of host and disease dispersal jointly influence the probability of disease establishment and invasion. We show that diseases are more likely to establish if both the host and the disease tend to disperse locally, since the former leads to the spatial aggregation of host populations in the environment while the latter facilitates the pathogen's exploitation of this spatial pattern. In contrast, local pathogen dispersal is likely to reduce the probability of subsequ...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
Abstract. Human mobility is a key factor in spatial disease dynamics and related phenomena. In compu...
AbstractAn epidemic model is proposed to describe the dynamics of disease spread between two patches...
Metapopulation processes are important determinants of epidemiological and evolutionary dynamics in ...
Metapopulation processes are important determinants of epidemiological and evolutionary dynamics in ...
Transmission of infectious diseases between immobile hosts (e.g., plants, farms) is strongly depende...
Disease spread is the result of inoculum dispersal. Dispersal is the movement of infectious units (e...
Persistence of an infectious agent in a population is an important issue in epidemiology. It is assu...
<div><p>Interactions among multiple infectious agents are increasingly recognized as a fundamental i...
The epidemiological dynamics of potentially free-living pathogens are often studied with respect to ...
It is clear that the evolution of infectious disease may be influenced by population spatial structu...
International audienceDifferent pathogens spreading in the same host population often generate compl...
Persistence of infectious agents in populations is an important issue in epidemiology. It is often a...
The spread of viral pathogens both between and within hosts is inherently a spatial process. While t...
When pathogen strains differing in virulence compete for hosts, spatial structuring of disease trans...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
Abstract. Human mobility is a key factor in spatial disease dynamics and related phenomena. In compu...
AbstractAn epidemic model is proposed to describe the dynamics of disease spread between two patches...
Metapopulation processes are important determinants of epidemiological and evolutionary dynamics in ...
Metapopulation processes are important determinants of epidemiological and evolutionary dynamics in ...
Transmission of infectious diseases between immobile hosts (e.g., plants, farms) is strongly depende...
Disease spread is the result of inoculum dispersal. Dispersal is the movement of infectious units (e...
Persistence of an infectious agent in a population is an important issue in epidemiology. It is assu...
<div><p>Interactions among multiple infectious agents are increasingly recognized as a fundamental i...
The epidemiological dynamics of potentially free-living pathogens are often studied with respect to ...
It is clear that the evolution of infectious disease may be influenced by population spatial structu...
International audienceDifferent pathogens spreading in the same host population often generate compl...
Persistence of infectious agents in populations is an important issue in epidemiology. It is often a...
The spread of viral pathogens both between and within hosts is inherently a spatial process. While t...
When pathogen strains differing in virulence compete for hosts, spatial structuring of disease trans...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
Abstract. Human mobility is a key factor in spatial disease dynamics and related phenomena. In compu...
AbstractAn epidemic model is proposed to describe the dynamics of disease spread between two patches...