Modeling of infectious diseases at the livestock-wildlife interface is a unique subset of mathematical modeling with many innate challenges. To ascertain the characteristics of the models used in these scenarios, a scoping review of the scientific literature was conducted. Fifty-six studies qualified for inclusion. Only 14 diseases at this interface have benefited from the utility of mathematical modeling, despite a far greater number of shared diseases. The most represented species combinations were cattle and badgers (for bovine tuberculosis, 14), and pigs and wild boar [for African (8) and classical (3) swine fever, and foot-and-mouth and disease (1)]. Assessing control strategies was the overwhelming primary research objective (27), wit...
In southern African transfrontier conservation areas (TFCAs), people, livestock and wildlife share s...
Susceptible host density is a key factor that influences the success of invading pathogens. However,...
In this thesis we develop a suite of mathematical models to understand the epidemiological dynamics ...
Modeling of infectious diseases at the livestock-wildlife interface is a unique subset of mathematic...
Diseases that affect both wild and domestic animals can be particularly difficult to prevent, predic...
AbstractThe transmission of infectious diseases of livestock does not differ in principle from disea...
The transmission of infectious diseases of livestock does not differ in principle from disease trans...
Disease outbreaks, epidemics or pandemics have been of importance for human and animal health worldw...
The transmission of infectious diseases of livestock does not differ in principle from disease trans...
AbstractIn the last half century, significant attention has been given to animal diseases; however, ...
The study of wildlife-livestock interfaces has long suffered from the sealing among the different ag...
Wild animals are the source of many pathogens of livestock and humans. Concerns about the potential ...
Interest in the epidemiology of emerging diseases of humans and livestock as they relate to wildlife...
A systematic review of the published literature was undertaken, to explore the ability of different ...
Endemic diseases in wildlife present both intra- and inter-species management problems with risk to...
In southern African transfrontier conservation areas (TFCAs), people, livestock and wildlife share s...
Susceptible host density is a key factor that influences the success of invading pathogens. However,...
In this thesis we develop a suite of mathematical models to understand the epidemiological dynamics ...
Modeling of infectious diseases at the livestock-wildlife interface is a unique subset of mathematic...
Diseases that affect both wild and domestic animals can be particularly difficult to prevent, predic...
AbstractThe transmission of infectious diseases of livestock does not differ in principle from disea...
The transmission of infectious diseases of livestock does not differ in principle from disease trans...
Disease outbreaks, epidemics or pandemics have been of importance for human and animal health worldw...
The transmission of infectious diseases of livestock does not differ in principle from disease trans...
AbstractIn the last half century, significant attention has been given to animal diseases; however, ...
The study of wildlife-livestock interfaces has long suffered from the sealing among the different ag...
Wild animals are the source of many pathogens of livestock and humans. Concerns about the potential ...
Interest in the epidemiology of emerging diseases of humans and livestock as they relate to wildlife...
A systematic review of the published literature was undertaken, to explore the ability of different ...
Endemic diseases in wildlife present both intra- and inter-species management problems with risk to...
In southern African transfrontier conservation areas (TFCAs), people, livestock and wildlife share s...
Susceptible host density is a key factor that influences the success of invading pathogens. However,...
In this thesis we develop a suite of mathematical models to understand the epidemiological dynamics ...