The effect of the Holling type II functional response on apparent competition
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Publication:884305
DOI10.1016/j.tpb.2006.07.004zbMath1112.92063OpenAlexW2059979766WikidataQ51721596 ScholiaQ51721596MaRDI QIDQ884305
Publication date: 13 June 2007
Published in: Theoretical Population Biology (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.tpb.2006.07.004
Chaosideal free distributionPopulation dynamicsPatch dynamicsEvolutionary ecologyMultiple attractorsOptimal foraging
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Uses Software
Cites Work
- A predator-prey model for zookplankton grazing on competing algal populations
- The impact of consumer-resource cycles on the coexistence of competing consumers
- The prevalence of asymmetrical indirect effects in two-host-one-parasitoid systems
- Coexistence of species competing for shared resources
- Optimal foraging and predator-prey dynamics. II
- Chaos in one-predator, two-prey models: General results from bifurcation theory
- Optimal foraging and predator-prey dynamics
- Lyapunov functions for Lotka-Volterra predator-prey models with optimal foraging behavior
- Adaptive omnivory and species coexistence in tri-trophic food webs
- Simulating, Analyzing, and Animating Dynamical Systems
- Persistence in dynamical systems
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