A physiologically-structured fish population model with size-dependent foraging
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Publication:2328471
DOI10.1016/j.mbs.2019.108233zbMath1425.92213OpenAlexW2964232661WikidataQ92175194 ScholiaQ92175194MaRDI QIDQ2328471
Publication date: 10 October 2019
Published in: Mathematical Biosciences (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.mbs.2019.108233
delay differential equationsfish ecologyphysiologically-structured population modelsize-dependent foraging
Population dynamics (general) (92D25) Stability theory of functional-differential equations (34K20) Environmental economics (natural resource models, harvesting, pollution, etc.) (91B76) Ecology (92D40)
Uses Software
Cites Work
- Steady-state analysis of structured population models
- Optimal control in a multistage physiologically structured insect population model
- Dynamics and management of stage-structured fish stocks
- An innovative multistage, physiologically structured, population model to understand the European grapevine moth dynamics
- Daphnia revisited: Local stability and bifurcation theory for physiologically structured population models explained by way of an example
- Simplifying a physiologically structured population model to a stage-structured biomass model
- Stability patterns for a size-structured population model and its stage-structured counterpart
- Ontogenetic scaling of foraging rates and the dynamics of a size-structured consumer-resource model
- A size dependent predator-prey interaction: Who pursues whom?
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