Add to ORKGA core concept of infectious disease epidemiology is the abundance threshold, below which an infection is unable to invade or persist. There have been contrasting theoretical predictions regarding the nature of this threshold for vector-borne diseases, but for infections with an invertebrate vector, it is common to assume a threshold defined by the ratio of vector and host abundances. Here, we show in contrast, both from field data and model simulations, that for plague (Yersinia pestis) in Kazakhstan, the invasion threshold quantity is based on the product of its host (Rhombomys opimus) and vector (mainly Xenopsylla spp.) abundances, resulting in a combined threshold curve with hyperbolic shape. This shape implies compensation between host...
Persistence of infectious agents in populations is an important issue in epidemiology. It is often a...
Reliable estimates are lacking of key epizootiologic parameters for plague caused by Yersinia pestis...
Host populations for the plague bacterium, Yersinia pestis, are highly variable in their response to...
In Kazakhstan and elsewhere in central Asia, the bacterium Yersinia pestis circulates in natural pop...
Plague (caused by the bacterium Yersinia pestis) is a zoonotic reemerging infectious disease with re...
Predicting the dynamics of zoonoses in wildlife is important not only for prevention of transmission...
International audienceIndividual-based or population-level simulation approaches are often employed ...
International audienceBubonic plague, a zoonotic infection that circulates in wild rodents but is tr...
Reliable estimates are lacking of key epizootiologic parameters for plague caused by Yersinia pestis...
Human cases of plague (Yersinia pestis) infection originate, ultimately, in the bacterium's wildlife...
Introduction: The wildlife plague system in the Pre-Balkhash desert of Kazakhstan has been a subject...
The relationship between species richness and the prevalence of vector-borne disease has been widely...
<div><p>The assumed straightforward connection between transmission intensity and disease occurrence...
Background Human cases of plague (Yersinia pestis) infection originate, ultimately, ...
In central Asia, the great gerbil (Rhombomys opimus) is the main host for the bacterium Yersinia pes...
Persistence of infectious agents in populations is an important issue in epidemiology. It is often a...
Reliable estimates are lacking of key epizootiologic parameters for plague caused by Yersinia pestis...
Host populations for the plague bacterium, Yersinia pestis, are highly variable in their response to...
In Kazakhstan and elsewhere in central Asia, the bacterium Yersinia pestis circulates in natural pop...
Plague (caused by the bacterium Yersinia pestis) is a zoonotic reemerging infectious disease with re...
Predicting the dynamics of zoonoses in wildlife is important not only for prevention of transmission...
International audienceIndividual-based or population-level simulation approaches are often employed ...
International audienceBubonic plague, a zoonotic infection that circulates in wild rodents but is tr...
Reliable estimates are lacking of key epizootiologic parameters for plague caused by Yersinia pestis...
Human cases of plague (Yersinia pestis) infection originate, ultimately, in the bacterium's wildlife...
Introduction: The wildlife plague system in the Pre-Balkhash desert of Kazakhstan has been a subject...
The relationship between species richness and the prevalence of vector-borne disease has been widely...
<div><p>The assumed straightforward connection between transmission intensity and disease occurrence...
Background Human cases of plague (Yersinia pestis) infection originate, ultimately, ...
In central Asia, the great gerbil (Rhombomys opimus) is the main host for the bacterium Yersinia pes...
Persistence of infectious agents in populations is an important issue in epidemiology. It is often a...
Reliable estimates are lacking of key epizootiologic parameters for plague caused by Yersinia pestis...
Host populations for the plague bacterium, Yersinia pestis, are highly variable in their response to...