6533b861fe1ef96bd12c433f
RESEARCH PRODUCT
Outside-host growth of pathogens attenuates epidemiological outbreaks.
Veijo KaitalaJouni LaaksoJouni LaaksoIlona MerikantoIlona Merikantosubject
Fresh water fishEpidemiologySciencePopulation DynamicsFisheriesPopulation ModelingFresh WaterAquacultureFlavobacteriumModels BiologicalMicrobiologyInfectious Disease EpidemiologyDisease Outbreaks03 medical and health sciencesFish DiseasesFlavobacteriaceae InfectionsAnimalsComputer SimulationDisease DynamicsBiology030304 developmental biologyDisease Reservoirs0303 health sciencesMultidisciplinarybiologyPopulation Biology030306 microbiologyEcologyHost (biology)QColumnaris diseaseRFishesOutbreakComputational BiologyAgriculturebiology.organism_classificationHost-Pathogen InteractionInfectious DiseasesFlavobacterium columnareHost-Pathogen InteractionsMedicineFish FarmingInfectious Disease ModelingResearch Articledescription
Opportunist saprotrophic pathogens differ from obligatory pathogens due to their capability in host-independent growth in environmental reservoirs. Thus, the outside-host environment potentially influences host-pathogen dynamics. Despite the socio-economical importance of these pathogens, theory on their dynamics is practically missing. We analyzed a novel epidemiological model that couples outside-host density-dependent growth to host-pathogen dynamics. Parameterization was based on columnaris disease, a major hazard in fresh water fish farms caused by saprotrophic Flavobacterium columnare. Stability analysis and numerical simulations revealed that the outside-host growth maintains high proportion of infected individuals, and under some conditions can drive host extinct. The model can show stable or cyclic dynamics, and the outside-host growth regulates the frequency and intensity of outbreaks. This result emerges because the density-dependence stabilizes dynamics. Our analysis demonstrates that coupling of outside-host growth and traditional host-pathogen dynamics has profound influence on disease prevalence and dynamics. This also has implications on the control of these diseases. Peer reviewed
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2012-01-01 | PloS one |