Predation on infected host promotes evolutionary branching of virulence and pathogens' biodiversity
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Publication:292694
DOI10.1016/j.jtbi.2012.04.023zbMath1337.92190OpenAlexW2080746245WikidataQ34266743 ScholiaQ34266743MaRDI QIDQ292694
Publication date: 9 June 2016
Published in: Journal of Theoretical Biology (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jtbi.2012.04.023
Related Items (7)
Evolution of pathogen virulence under selective predation: a construction method to find eco-evolutionary cycles ⋮ A Generalist Predator Regulating Spread of a Wildlife Disease: Exploring Two Infection Transmission Scenarios ⋮ Revealing evolutionarily optimal strategies in self-reproducing systems via a new computational approach ⋮ Modelling evolution of virulence in populations with a distributed parasite load ⋮ Construction of multiple trade-offs to obtain arbitrary singularities of adaptive dynamics ⋮ The evolution of host resistance to disease in the presence of predators ⋮ Adaptive dynamics of saturated polymorphisms
Cites Work
- A competitive exclusion principle for pathogen virulence
- The geometric theory of adaptive evolution: trade-off and invasion plots
- Adaptive walks on changing landscapes: Levins' approach extended
- Superinfections can induce evolutionarily stable coexistence of pathogens
- On the evolutionary coexistence of parasite strains
- Evolutionary branching of virulence in a single-infection model
- The influence of trade-off shape on evolutionary behaviour in classical ecological scenarios
- Evolution of virulence driven by predator-prey interaction: possible consequences for population dynamics
- Adaptive Dynamics of Infectious Diseases
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