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#predatorpreydynamics — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #predatorpreydynamics, aggregated by home.social.

  1. Novak et al. derive a functional response model that unifies Holling’s classical forms. The model clarifies when linearity can be a mechanistically-reasoned description of predator feeding rates and the consequences it has for predator-prey dynamics.

    Read now ahead of print!
    journals.uchicago.edu/doi/10.1

    #PredatorPreyDynamics #Linearity #Holling #EEB

  2. Novak et al. derive a functional response model that unifies Holling’s classical forms. The model clarifies when linearity can be a mechanistically-reasoned description of predator feeding rates and the consequences it has for predator-prey dynamics.

    Read now ahead of print!
    journals.uchicago.edu/doi/10.1

    #PredatorPreyDynamics #Linearity #Holling #EEB

  3. Novak et al. derive a functional response model that unifies Holling’s classical forms. The model clarifies when linearity can be a mechanistically-reasoned description of predator feeding rates and the consequences it has for predator-prey dynamics.

    Read now ahead of print!
    journals.uchicago.edu/doi/10.1

    #PredatorPreyDynamics #Linearity #Holling #EEB

  4. Novak et al. derive a functional response model that unifies Holling’s classical forms. The model clarifies when linearity can be a mechanistically-reasoned description of predator feeding rates and the consequences it has for predator-prey dynamics.

    Read now ahead of print!
    journals.uchicago.edu/doi/10.1

    #PredatorPreyDynamics #Linearity #Holling #EEB

  5. Novak et al. derive a functional response model that unifies Holling’s classical forms. The model clarifies when linearity can be a mechanistically-reasoned description of predator feeding rates and the consequences it has for predator-prey dynamics.

    Read now ahead of print!
    journals.uchicago.edu/doi/10.1

    #PredatorPreyDynamics #Linearity #Holling #EEB