The ongoing explosion of fine-resolution movement data in animal systems provides a unique opportunity to empirically quantify spatial, temporal and individual variation in transmission risk and improve our ability to forecast disease outbreaks. However, we lack a generalizable model that can leverage movement data to quantify transmission risk and how it affects pathogen invasion and persistence on heterogeneous landscapes. We developed a flexible model ‘Movement-driven modelling of spatio-temporal infection risk’ (MoveSTIR) that leverages diverse data on animal movement to derive metrics of direct and indirect contact by decomposing transmission into constituent processes of contact formation and duration and pathogen deposition and acqui...
Contact patterns among hosts are considered as one of the most critical factors contributing to uneq...
[Departement_IRSTEA]Ecotechnologies [TR1_IRSTEA]MOTIVEThe modelling of contact processes between hos...
Landscape changes can result in habitat fragmentation and reduced landscape connectivity, limiting t...
The ongoing explosion of fine-resolution movement data in animal systems provides a unique opportuni...
Animal movement impacts the spread of human and wildlife diseases, and there is significant interest...
Animal movement impacts the spread of human and wildlife diseases, and there is significant interest...
Disease outbreaks are often accompanied by a wealth of data, usually in the form of movements, locat...
Animal movement impacts the spread of human and wildlife diseases, and there is significant interest...
Understanding host–pathogen dynamics requires realistic consideration of transmission events that, i...
Though epidemiology dates back to the 1700s, most mathematical representations of epidemics still us...
Infectious disease transmission requires that epidemiologically relevant contact occurs between infe...
Exposure represents but one of several processes that underlie disease transmission dynamics in anim...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
The structure of contacts that mediate transmission has a pronounced effect on the outbreak dynamics...
Contact patterns among hosts are considered as one of the most critical factors contributing to uneq...
[Departement_IRSTEA]Ecotechnologies [TR1_IRSTEA]MOTIVEThe modelling of contact processes between hos...
Landscape changes can result in habitat fragmentation and reduced landscape connectivity, limiting t...
The ongoing explosion of fine-resolution movement data in animal systems provides a unique opportuni...
Animal movement impacts the spread of human and wildlife diseases, and there is significant interest...
Animal movement impacts the spread of human and wildlife diseases, and there is significant interest...
Disease outbreaks are often accompanied by a wealth of data, usually in the form of movements, locat...
Animal movement impacts the spread of human and wildlife diseases, and there is significant interest...
Understanding host–pathogen dynamics requires realistic consideration of transmission events that, i...
Though epidemiology dates back to the 1700s, most mathematical representations of epidemics still us...
Infectious disease transmission requires that epidemiologically relevant contact occurs between infe...
Exposure represents but one of several processes that underlie disease transmission dynamics in anim...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
The structure of contacts that mediate transmission has a pronounced effect on the outbreak dynamics...
Contact patterns among hosts are considered as one of the most critical factors contributing to uneq...
[Departement_IRSTEA]Ecotechnologies [TR1_IRSTEA]MOTIVEThe modelling of contact processes between hos...
Landscape changes can result in habitat fragmentation and reduced landscape connectivity, limiting t...