What life cycle graphs can tell about the evolution of life histories
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Publication:1937892
DOI10.1007/s00285-012-0509-xzbMath1258.92028OpenAlexW2000035221WikidataQ51428841 ScholiaQ51428841MaRDI QIDQ1937892
Tom J. M. Van Dooren, Claus Rueffler, J. A. J. (Hans) Metz
Publication date: 1 February 2013
Published in: Journal of Mathematical Biology (Search for Journal in Brave)
Full work available at URL: http://pure.iiasa.ac.at/id/eprint/10704/1/IR-13-063.pdf
matrix modeladaptive dynamicsfrequency dependencedensity dependenceevolutionary optimisationlife history theory
Problems related to evolution (92D15) Applications of graph theory (05C90) Probabilistic models, generic numerical methods in probability and statistics (65C20) Numerical optimization and variational techniques (65K10)
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Cites Work
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- Steady-state analysis of structured population models
- On the determination of evolutionary outcomes directly from the population dynamics of the resident
- Necessary and sufficient conditions for the existence of an optimisation principle in evolution
- Adaptive walks on changing landscapes: Levins' approach extended
- An analysis of life history evolution in terms of the density-dependent Lefkovitch matrix model
- On the formulation and analysis of general deterministic structured population models. II. Nonlinear theory
- Theorems on the invasion process in stage-structured populations with density-dependent dynamics
- On the formulation and analysis of general deterministic structured population models. I: Linear theory
- Invasion dynamics and attractor inheritance
- Resident-invader dynamics and the coexistence of similar strategies
- The dynamical theory of coevolution: A derivation from stochastic ecological processes
- Competitive exclusion and limiting similarity: A unified theory
- A multilocus-multiallele analysis of frequency-dependent selection induced by intraspecific competition
- Surprising evolutionary predictions from enhanced ecological realism
- Matrix Analysis
- A simple fitness proxy for structured populations with continuous traits, with case studies on the evolution of haplo-diploids and genetic dimorphisms
