The spread of wildlife diseases is a major threat to livestock, human health, resource-based recreation, and biodiversity conservation (Cleaveland, Laurenson, and Taylor). The development of economically sound wildlife disease-management strategies requires an understanding of the links between ecological functions (e.g., disease transmission and wildlife dispersal) and economic choices, and the associated tradeoffs. Spatial linkages are particularly relevant. Yet while ecologists have long-argued that space is important (Hudson et al.), prior economic work has largely ignored spatial issues. For instance, Horan and Wolf analyzed a case study of bovine tuberculosis (bTB) in Michigan deer, a problem where the disease appears to be confined ...
Modeling potential disease spread in wildlife populations is important for predicting, responding t...
Culling wildlife to control disease can lead to both decreases and increases in disease levels, with...
<div><p>Population reduction is often used as a control strategy when managing infectious diseases i...
The spread of wildlife diseases is a major threat to livestock, human health, resource-based recreat...
The spread of infectious disease among and between wild and domesticated animals has become a major ...
Shared use of rangelands by livestock and wildlife can lead to disease transmission. To align agricu...
Population reduction is often used as a control strategy when managing infectious diseases in wildli...
abstract: Land-use change has arguably been the largest contributor to the emergence of novel zoonot...
1. All parasites are heterogeneous in space, yet little is known about the prevalence and scale of t...
Landscape changes can result in habitat fragmentation and reduced landscape connectivity, limiting t...
Wildlife biologists are increasingly being thrust onto the frontlines of wildlife disease management...
Management of wildlife disease can be targeted at pathogens, hosts or vector populations, but may al...
Emerging infectious diseases are a substantial threat to native populations. The spread of disease t...
Invasive species are non-indigenous species that invade and adversely affect their adopted environme...
Modeling potential disease spread in wildlife populations is important for predicting, responding t...
Culling wildlife to control disease can lead to both decreases and increases in disease levels, with...
<div><p>Population reduction is often used as a control strategy when managing infectious diseases i...
The spread of wildlife diseases is a major threat to livestock, human health, resource-based recreat...
The spread of infectious disease among and between wild and domesticated animals has become a major ...
Shared use of rangelands by livestock and wildlife can lead to disease transmission. To align agricu...
Population reduction is often used as a control strategy when managing infectious diseases in wildli...
abstract: Land-use change has arguably been the largest contributor to the emergence of novel zoonot...
1. All parasites are heterogeneous in space, yet little is known about the prevalence and scale of t...
Landscape changes can result in habitat fragmentation and reduced landscape connectivity, limiting t...
Wildlife biologists are increasingly being thrust onto the frontlines of wildlife disease management...
Management of wildlife disease can be targeted at pathogens, hosts or vector populations, but may al...
Emerging infectious diseases are a substantial threat to native populations. The spread of disease t...
Invasive species are non-indigenous species that invade and adversely affect their adopted environme...
Modeling potential disease spread in wildlife populations is important for predicting, responding t...
Culling wildlife to control disease can lead to both decreases and increases in disease levels, with...
<div><p>Population reduction is often used as a control strategy when managing infectious diseases i...