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The persistence of a SIS disease in a metapopulation

The persistence of a SIS disease in a metapopulation Summary 1. Deterministic models predict that susceptible‐infective‐susceptible (SIS) disease, where there is no immunity to reinfection following recovery, will become infinitely persistent in a host population. We explored the incorporation of stochasticity into SIS models; modelled interacting host‐disease agents in metapopulations; and examined model predictions in a real system involving viral infection in domestic cats. 2. SIS models incorporating stochasticity predicted that disease persistence would be finite and dependent on the host population size, provided the host population was isolated. However, the disease may persist by dynamic spread among interacting host metapopulations. 3. Feline enteric coronavirus (FECV) dynamics in domestic cats were well predicted by stochastic metapopulation models. 4. The models we present are mathematically tractable, generalizable, and mechanistically realistic. The findings from the cat‐virus system are immediately applicable to the management of cattery populations and could be adapted to inform eradication programmes for other infectious diseases in animal and human populations. The most practical methods to eradicate feline enteric coranovirus would be to remove small catteries (islands) from interactions with large catteries (mainlands) and to convert mainlands to islands by depopulation. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Applied Ecology Wiley

The persistence of a SIS disease in a metapopulation

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References (44)

Publisher
Wiley
Copyright
Copyright © 1999 Wiley Subscription Services, Inc., A Wiley Company
ISSN
0021-8901
eISSN
1365-2664
DOI
10.1046/j.1365-2664.1999.00427.x
Publisher site
See Article on Publisher Site

Abstract

Summary 1. Deterministic models predict that susceptible‐infective‐susceptible (SIS) disease, where there is no immunity to reinfection following recovery, will become infinitely persistent in a host population. We explored the incorporation of stochasticity into SIS models; modelled interacting host‐disease agents in metapopulations; and examined model predictions in a real system involving viral infection in domestic cats. 2. SIS models incorporating stochasticity predicted that disease persistence would be finite and dependent on the host population size, provided the host population was isolated. However, the disease may persist by dynamic spread among interacting host metapopulations. 3. Feline enteric coronavirus (FECV) dynamics in domestic cats were well predicted by stochastic metapopulation models. 4. The models we present are mathematically tractable, generalizable, and mechanistically realistic. The findings from the cat‐virus system are immediately applicable to the management of cattery populations and could be adapted to inform eradication programmes for other infectious diseases in animal and human populations. The most practical methods to eradicate feline enteric coranovirus would be to remove small catteries (islands) from interactions with large catteries (mainlands) and to convert mainlands to islands by depopulation.

Journal

Journal of Applied EcologyWiley

Published: Sep 1, 1999

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