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Novel parasite invasion leads to rapid demographic compensation and recovery in an experimental population of guppies

Emma L B Rogowski, Andy D. Van Alst, Joseph Travis, David N. Reznick, Tim Coulson, Ronald D. Bassar

2020Proceedings of the National Academy of Sciences14 citationsDOIOpen Access PDF

Abstract

). By comparing the newly infected population with a control population that was not infected, we show that decreases in the density of the infected guppy population were transient. The guppy population compensated for the decreased survival by a density-dependent increase in recruitment of new individuals into the population, without any change in the underlying recruitment function. Increased recruitment was related to an increase in the somatic growth of uninfected fish. Twenty months into the new invasion, the population had fully recovered to preinvasion densities even though the prevalence of infection of fish in the population remained high (72%). These results show that density-mediated indirect effects of novel parasites can be positive, not negative, which makes it difficult to extrapolate to how pathogens will affect species interactions in communities. We discuss possible hypotheses for the rapid recovery.

Topics & Concepts

Parasite hostingBiologyPredationPopulationHost (biology)Population densityZoologyEcologyDemographyWorld Wide WebComputer scienceSociologyParasite Biology and Host InteractionsAnimal Behavior and ReproductionAnimal Ecology and Behavior Studies
Novel parasite invasion leads to rapid demographic compensation and recovery in an experimental population of guppies | Litcius