Our ability to infer unobservable disease-dynamic processes such as force of infection (infection hazard for susceptible hosts) has transformed our understanding of disease transmission mechanisms and capacity to predict disease dynamics. Conventional methods for inferring FOI estimate a time-averaged value and are based on population-level processes. Because many pathogens exhibit epidemic cycling and FOI is the result of processes acting across the scales of individuals and populations, a flexible framework that extends to epidemic dynamics and links within-host processes to FOI is needed. Specifically, within-host antibody kinetics in wildlife hosts can be short-lived and produce patterns that are repeatable across individuals, suggestin...
Changes in the risk of exposure to infectious disease agents can be tracked through variations in an...
Disease prevalence in wildlife is governed by epidemiological parameters (infection and recovery rat...
Understanding the mechanisms that control rates of disease progression in humans and other species i...
Our ability to infer unobservable disease-dynamic processes such as force of infection (infection ha...
Wildlife disease surveillance is the first line of defence against infectious disease. Fluctuations ...
A key aim in epidemiology is to understand how pathogens spread within their host populations. Cent...
<div><p>Diseases of humans and wildlife are typically tracked and studied through incidence, the num...
<div><p>The assumed straightforward connection between transmission intensity and disease occurrence...
Migratory animals may play an important role in connecting disparate ecosystems, including the intro...
Migratory animals may play an important role in connecting disparate ecosystems, including the intro...
The assumed straightforward connection between transmission intensity and disease occurrence impacts...
1. Wildlife disease surveillance is the first line of defence against infectious disease. Fluctuatio...
Although heterogeneity in contact rate, physiology, and behavioral response to infection have all be...
Understanding how quickly pathogens replicate and how quickly the immune system responds is importan...
Confronted with the challenge of understanding population-level processes, disease ecologists and ep...
Changes in the risk of exposure to infectious disease agents can be tracked through variations in an...
Disease prevalence in wildlife is governed by epidemiological parameters (infection and recovery rat...
Understanding the mechanisms that control rates of disease progression in humans and other species i...
Our ability to infer unobservable disease-dynamic processes such as force of infection (infection ha...
Wildlife disease surveillance is the first line of defence against infectious disease. Fluctuations ...
A key aim in epidemiology is to understand how pathogens spread within their host populations. Cent...
<div><p>Diseases of humans and wildlife are typically tracked and studied through incidence, the num...
<div><p>The assumed straightforward connection between transmission intensity and disease occurrence...
Migratory animals may play an important role in connecting disparate ecosystems, including the intro...
Migratory animals may play an important role in connecting disparate ecosystems, including the intro...
The assumed straightforward connection between transmission intensity and disease occurrence impacts...
1. Wildlife disease surveillance is the first line of defence against infectious disease. Fluctuatio...
Although heterogeneity in contact rate, physiology, and behavioral response to infection have all be...
Understanding how quickly pathogens replicate and how quickly the immune system responds is importan...
Confronted with the challenge of understanding population-level processes, disease ecologists and ep...
Changes in the risk of exposure to infectious disease agents can be tracked through variations in an...
Disease prevalence in wildlife is governed by epidemiological parameters (infection and recovery rat...
Understanding the mechanisms that control rates of disease progression in humans and other species i...