Contact structure, a critical driver of infectious disease transmission, is not completely understood and characterized for environmentally transmitted pathogens. In this study, we assessed the effects of temporal and spatial heterogeneity in animal contact structures on the dynamics of environmentally transmitted pathogens. We used real-time animal position data to describe contact between animals and specific environmental areas used for feeding and watering calves. The generated contact structure varied across days and among animals. We integrated animal and environmental heterogeneity into an agent-based simulation model for Escherichia coli O157 environmental transmission in cattle to simulate four different scenarios with different en...
International audienceA key element in disease emergence/re-emergence is ecosystem disruption as a r...
Pathogen transmission depends on host density, mobility and contact. These components emerge from ho...
Epidemiological models of the spread of pathogens in livestock populations primarily focus on direct...
Contact patterns among hosts are considered as one of the most critical factors contributing to uneq...
Transmission of infections between spatially separated hosts is a common problem, not only d...
To mitigate the effects of zoonotic diseases on human and animal populations, it is critical to unde...
1. Individual- and species-level heterogeneity in contact rates can alter the ability of a pathogen ...
This is the final version. Available on open access from Elsevier via the DOI in this recordThe natu...
The causes of seasonal variability in pathogen transmission are not well understood, and have not be...
Exposure represents but one of several processes that underlie disease transmission dynamics in anim...
Detecting opportunities for between-species transmission of pathogens can be challenging, particular...
Most bacterial foodborne pathogens are shed intermittently from their animal hosts and are able to g...
The causes of seasonal variability in pathogen transmission are not well understood, and have not be...
Transmission of many infectious diseases depends on interactions between humans, animals, and the en...
Summary: Transmission of many infectious diseases depends on interactions between humans, animals, a...
International audienceA key element in disease emergence/re-emergence is ecosystem disruption as a r...
Pathogen transmission depends on host density, mobility and contact. These components emerge from ho...
Epidemiological models of the spread of pathogens in livestock populations primarily focus on direct...
Contact patterns among hosts are considered as one of the most critical factors contributing to uneq...
Transmission of infections between spatially separated hosts is a common problem, not only d...
To mitigate the effects of zoonotic diseases on human and animal populations, it is critical to unde...
1. Individual- and species-level heterogeneity in contact rates can alter the ability of a pathogen ...
This is the final version. Available on open access from Elsevier via the DOI in this recordThe natu...
The causes of seasonal variability in pathogen transmission are not well understood, and have not be...
Exposure represents but one of several processes that underlie disease transmission dynamics in anim...
Detecting opportunities for between-species transmission of pathogens can be challenging, particular...
Most bacterial foodborne pathogens are shed intermittently from their animal hosts and are able to g...
The causes of seasonal variability in pathogen transmission are not well understood, and have not be...
Transmission of many infectious diseases depends on interactions between humans, animals, and the en...
Summary: Transmission of many infectious diseases depends on interactions between humans, animals, a...
International audienceA key element in disease emergence/re-emergence is ecosystem disruption as a r...
Pathogen transmission depends on host density, mobility and contact. These components emerge from ho...
Epidemiological models of the spread of pathogens in livestock populations primarily focus on direct...