The purpose of this model is to explore the transmission dynamics of CDV in a two-host system, comprised of an abundant dog population and a relatively low density Indian fox population in central India. The model can also be used to compare and contrast potential management strategies to prevent spillover of CDV in wild carnivores.
The model landscape comprises of three types of habitats, fallow land-grassland complex, farmlands and human habitations. Foxes occur on the fallow land-grassland complex, while dogs are associated with villages and farmlands. Dogs are also characterized by their roaming tendencies- ‘roamers’ cover larger area during their daily excursions than ‘non-roamers. CDV is endemic in the dog population, and foxes are susceptible to CDV. Dogs can recover from CDV infection, and become immune for life. Foxes do not recover from CDV, and none of the foxes have immunity against CDV. The movement of dogs and foxes, and therefore the contact pattern, as well as the transmissibility of CDV is represented by empirical rules and parameters. The patterns of CDV in dog and fox populations emerge from the model.
Release Notes
Associated Publications
Belsare, A.V., Gompper, M.E., 2015. A model-based approach for investigation and mitigation of disease spillover risks to wildlife: Dogs, foxes and canine distemper in central India. Ecol. Modell. 296, 102–112. doi:10.1016/j.ecolmodel.2014.10.031
This release is out-of-date. The latest version is
1.1.0
DogFoxCDVspillover 1.0.0
Submitted byAniruddha BelsarePublished Mar 16, 2017
Last modified Feb 23, 2018
The purpose of this model is to explore the transmission dynamics of CDV in a two-host system, comprised of an abundant dog population and a relatively low density Indian fox population in central India. The model can also be used to compare and contrast potential management strategies to prevent spillover of CDV in wild carnivores.
The model landscape comprises of three types of habitats, fallow land-grassland complex, farmlands and human habitations. Foxes occur on the fallow land-grassland complex, while dogs are associated with villages and farmlands. Dogs are also characterized by their roaming tendencies- ‘roamers’ cover larger area during their daily excursions than ‘non-roamers. CDV is endemic in the dog population, and foxes are susceptible to CDV. Dogs can recover from CDV infection, and become immune for life. Foxes do not recover from CDV, and none of the foxes have immunity against CDV. The movement of dogs and foxes, and therefore the contact pattern, as well as the transmissibility of CDV is represented by empirical rules and parameters. The patterns of CDV in dog and fox populations emerge from the model.
Belsare, A.V., Gompper, M.E., 2015. A model-based approach for investigation and mitigation of disease spillover risks to wildlife: Dogs, foxes and canine distemper in central India. Ecol. Modell. 296, 102–112. doi:10.1016/j.ecolmodel.2014.10.031
Create an Open Code Badge that links to this model more info
This model has not been reviewed by CoMSES Net and should be independently reviewed to
meet the Open Code Badge guidelines.
You can use the following HTML or Markdown code to create an Open Code Badge that links to
version 1.0.0
of this computational model.
This website uses cookies and Google Analytics to help us track user engagement and improve our site. If
you'd like to know more information about what data we collect and why, please see
our data privacy policy. If you continue to use this site, you consent to
our use of cookies.
