Spatial dispersal in chemostat systems with agent-based asymmetry
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Publication:6121850
DOI10.1016/j.cnsns.2024.107847OpenAlexW4390837523WikidataQ130008950 ScholiaQ130008950MaRDI QIDQ6121850
Shi-Kun Wang, Quanen Wu, Yuanshi Wang
Publication date: 27 February 2024
Published in: Communications in Nonlinear Science and Numerical Simulation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cnsns.2024.107847
Applications of graph theory (05C90) Biomedical imaging and signal processing (92C55) Stability of solutions to ordinary differential equations (34D20) Biotechnology (92C75)
Cites Work
- Effects of prey's diffusion on predator-prey systems with two patches
- Invasibility of nectar robbers in pollination-mutualisms
- Global-stability problem for coupled systems of differential equations on networks
- Population dynamics in two-patch environments: Some anomalous consequences of an optimal habitat distribution
- Asymmetric dispersal in the multi-patch logistic equation
- Persistence of pollination mutualisms under pesticides
- Dynamics of intraguild predation systems with intraspecific competition
- Dynamics of a chemostat system with two patches
- Persistence of pollination mutualisms in the presence of ants
- Population abundance of a two-patch chemostat system with asymmetric diffusion
- Evolution of dispersal in advective patchy environments
- Uniformly Persistent Systems
- Mathematical Models of Population Interactions with Dispersal. I: Stability of Two Habitats with and without a Predator
- Evolutionary Games and Population Dynamics
- The chemical basis of morphogenesis
- DYNAMICAL MODEL FOR VIRUS SPREAD
- Effects of heterogeneity and spatial pattern in multi-patch consumer-resource systems with asymmetric diffusion
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