Stable long-period cycling and complex dynamics in a single-locus fertility model with genomic imprinting
From MaRDI portal
Publication:938194
DOI10.1007/s00285-008-0156-4zbMath1141.92026OpenAlexW2022852784WikidataQ46769439 ScholiaQ46769439MaRDI QIDQ938194
Marcus W. Feldman, Jeremy Van Cleve
Publication date: 18 August 2008
Published in: Journal of Mathematical Biology (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00285-008-0156-4
population geneticsfrequency dependencegeneralized Hopf bifurcationfertility selectiongene frequency cycling
Problems related to evolution (92D15) Dynamical systems in biology (37N25) Genetics and epigenetics (92D10)
Related Items (1)
Cites Work
- Unnamed Item
- Unnamed Item
- Dynamical behavior of differential equation models of frequency and density dependent populations
- Nonlinear oscillations, dynamical systems, and bifurcations of vector fields
- Quasimonotone systems and convergence to equilibrium in a population genetic model
- Convergence to equilibrium in a genetic model with differential viability between the sexes
- The ``battle of the sexes: A genetic model with limit cycle behavior
- A simple genetic model with non-equilibrium dynamics
- Regular and chaotic cycling in models of ecological genetics
- Cycling in simple genetic systems
- Selection models with fertility differences
- Snap-back repellers imply chaos in \(\mathbb{R}^n\)
- An improved version of the Marotto theorem
- ON AN INEQUALITY IN PARTIAL AVERAGES
- Epidemiology and genetics in the coevolution of parasites and hosts
- Stable cycling in discrete-time genetic models.
- Period Three Implies Chaos
- Simple mathematical models with very complicated dynamics
- Numerical Continuation of Bifurcations of Limit Cycles in MATLAB
- Chaotic Dynamics in an Insect Population
- Elements of applied bifurcation theory
- A Hopf bifurcation theorem for difference equations approximating a differential equation
This page was built for publication: Stable long-period cycling and complex dynamics in a single-locus fertility model with genomic imprinting
