A two-patches metapopulation mathematical model, describing the dynamics of Susceptibles and Infected in wildlife diseases, is presented. The two patches are identical in absence of control, and culling activities are performed in only one of them. Firstly, the dynamics of the system in absence of control is investigated. Then, two types of localized culling strategies (proactive end reactive) are considered. The proactive control is modeled by a constant culling effort, and for the ensuing model the disease free equilibrium is characterized and existence of the endemic equilibrium is discussed in terms of a suitable control reproduction number. The localized reactive control is modeled by a piecewise constant culling effort function, that ...
Culling wildlife to control disease can lead to both decreases and increases in disease levels, with...
In this paper, we investigate a nonautonomous SIR type epidemic model with pulse vaccination in patc...
Two new ecoepidemic models of predator–prey type are introduced. They feature prey that gather in he...
A two-patches metapopulation mathematical model, describing the dynamics of Susceptibles and Infecte...
Epidemic modeling is an important theoretical approach for investigating the transmission dynamics o...
This paper uses a mathematical framework to investigate the impact of increased movement in response...
Persistence of infectious agents in populations is an important issue in epidemiology. It is often a...
AbstractAn epidemic model is proposed to describe the dynamics of disease spread between two patches...
The removal of individuals from an infected population (culling) is a common strategy used to eradic...
The removal of individuals from an infected population (culling) is a common strategy used to eradic...
In ecological systems, the interaction between an organism and its predator is called a predator-pre...
The drive to understand the invasion, spread and fade out of infectious disease in structured popula...
The drive to understand the invasion, spread and fade out of infectious disease in structured popula...
We present a model of a control programme for a disease outbreak in a population of livestock holdin...
Abstract. A model is developed for the spread of an infectious disease in a population with constant...
Culling wildlife to control disease can lead to both decreases and increases in disease levels, with...
In this paper, we investigate a nonautonomous SIR type epidemic model with pulse vaccination in patc...
Two new ecoepidemic models of predator–prey type are introduced. They feature prey that gather in he...
A two-patches metapopulation mathematical model, describing the dynamics of Susceptibles and Infecte...
Epidemic modeling is an important theoretical approach for investigating the transmission dynamics o...
This paper uses a mathematical framework to investigate the impact of increased movement in response...
Persistence of infectious agents in populations is an important issue in epidemiology. It is often a...
AbstractAn epidemic model is proposed to describe the dynamics of disease spread between two patches...
The removal of individuals from an infected population (culling) is a common strategy used to eradic...
The removal of individuals from an infected population (culling) is a common strategy used to eradic...
In ecological systems, the interaction between an organism and its predator is called a predator-pre...
The drive to understand the invasion, spread and fade out of infectious disease in structured popula...
The drive to understand the invasion, spread and fade out of infectious disease in structured popula...
We present a model of a control programme for a disease outbreak in a population of livestock holdin...
Abstract. A model is developed for the spread of an infectious disease in a population with constant...
Culling wildlife to control disease can lead to both decreases and increases in disease levels, with...
In this paper, we investigate a nonautonomous SIR type epidemic model with pulse vaccination in patc...
Two new ecoepidemic models of predator–prey type are introduced. They feature prey that gather in he...