Comparison of the global dynamics for two chemostat-like models: random temporal variation versus spatial heterogeneity
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Publication:2304047
DOI10.1016/j.nahs.2019.100815zbMath1434.92038arXiv1806.10914OpenAlexW2971889930MaRDI QIDQ2304047
Publication date: 6 March 2020
Published in: Nonlinear Analysis. Hybrid Systems (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1806.10914
Cites Work
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- Lotka-Volterra with randomly fluctuating environments or ``how switching between beneficial environments can make survival harder
- Random switching between vector fields having a common zero
- Competition in the gradostat
- Periodic, quasi-periodic, and chaotic coexistence of two competing microbial populations in a periodically operated chemostat
- Competition in the periodic gradostat
- Ergodic property of the chemostat: a stochastic model under regime switching and with general response function
- Effects of spatial structure and diffusion on the performances of the chemostat
- Coexistence phenomena and global bifurcation structure in a chemostat-like model with species-dependent diffusion rates
- On the stability of planar randomly switched systems
- Global behavior ofNcompeting species with strong diffusion: diffusion leads to exclusion
- On a System of Reaction-Diffusion Equations Arising from Competition in an Unstirred Chemostat
- Regularity of invariant densities for 1D systems with random switching
- How flocculation can explain coexistence in the chemostat
- A Mathematical Model of the Chemostat with Periodic Washout Rate
- Competition in an n-Vessel Gradostat
- A Mathematical Theory for Single-Nutrient Competition in Continuous Cultures of Micro-Organisms
- Limiting Behavior for Competing Species
- Competition in the gradostat: the global stability problem
- Global Asymptotic Behavior of a Chemostat Model with Discrete Delays
- The Theory of the Chemostat
- On the persistence regime for Lotka-Volterra in randomly fluctuating environments
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