The spreading speed of single-species models with resource-dependent dispersal and a free boundary
From MaRDI portal
Publication:6540943
DOI10.1016/j.aml.2024.109003zbMath1540.35474MaRDI QIDQ6540943
Publication date: 17 May 2024
Published in: Applied Mathematics Letters (Search for Journal in Brave)
Initial-boundary value problems for second-order parabolic equations (35K20) Free boundary problems for PDEs (35R35) Semilinear parabolic equations (35K58)
Cites Work
- Spreading-vanishing dichotomy in a diffusive logistic model with a free boundary, II
- Spreading speed revisited: analysis of a free boundary model
- Dynamics for a two-species competitive Keller-Segel chemotaxis system with a free boundary
- Logistic type attraction-repulsion chemotaxis systems with a free boundary or unbounded boundary. II: Spreading-vanishing dichotomy in a domain with a free boundary
- On the Lotka-Volterra competition system with dynamical resources and density-dependent diffusion
- Population dynamics with resource-dependent dispersal: single- and two-species models
- Spreading-Vanishing Dichotomy in the Diffusive Logistic Model with a Free Boundary
- LOGISTIC TYPE EQUATIONS ON ℝN BY A SQUEEZING METHOD INVOLVING BOUNDARY BLOW-UP SOLUTIONS
- Unbounded principal eigenfunctions and the logistic equation on RN
- Spatial Ecology via Reaction‐Diffusion Equations
- Boundedness, Stabilization, and Pattern Formation Driven by Density-Suppressed Motility
- Global dynamics and spatio-temporal patterns of predator–prey systems with density-dependent motion
- Propagation and reaction–diffusion models with free boundaries
- Semi-infinite travelling waves arising in a general reaction–diffusion Stefan model
This page was built for publication: The spreading speed of single-species models with resource-dependent dispersal and a free boundary
