Steady-state coexistence of three pure and simple competitors in a four- membered reactor network
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Publication:1340481
DOI10.1016/0025-5564(94)90009-4zbMath0805.92029OpenAlexW1963822405WikidataQ52370810 ScholiaQ52370810MaRDI QIDQ1340481
Publication date: 19 December 1994
Published in: Mathematical Biosciences (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/0025-5564(94)90009-4
competitioncoexistencecompetitive exclusion principlespatially heterogeneous environmentstable steady statenetwork of four interconnected bioreactorsthree microbial populations
Related Items (3)
Coexistence of three microbial populations competing for three complementary nutrients in a chemostat ⋮ Oscillations of two competing microbial populations in configurations of two interconnected chemostats ⋮ On the coexistence of three microbial populations competing for two complementary substrates in configurations of interconnected chemostats
Cites Work
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- Competition for fluctuating nutrient
- Competition in the gradostat: The role of the communication rate
- Coexistence of two microbial populations competing for a renewable resource in a non-predator-prey system
- Competition in the gradostat
- A decomposition method for the stability analysis of large microbial systems
- A stochastic analysis of the growth of competing microbial populations in a continuous biochemical reactor
- Convergence results and a Poincaré-Bendixson trichotomy for asymptotically autonomous differential equations
- The growth of pure and simple microbial competitors in a moving distributed medium
- Asymptotically autonomous differential equations in the plane
- Coexistence of competing predators in a chemostat
- Microbial Competition
- A Mathematical Model of the Chemostat with Periodic Washout Rate
- Competitive Coexistence in an Oscillating Chemostat
- 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
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