Emergent behaviour in a chlorophenol-mineralising three-tiered microbial `food web'
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Publication:304758
DOI10.1016/J.JTBI.2015.10.032zbMath1343.92553arXiv1503.01580OpenAlexW2116806719WikidataQ41863247 ScholiaQ41863247MaRDI QIDQ304758
F. Blanchet-Sadri, M. Dambrine
Publication date: 26 August 2016
Published in: Journal of Theoretical Biology (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1503.01580
Related Items (15)
Performance study of two serial interconnected chemostats with mortality ⋮ Generalised approach to modelling a three-tiered microbial food-web ⋮ The productivity of two serial chemostats ⋮ Steady state analysis of a syntrophic model: the effect of a new input substrate concentration ⋮ Properties of the Chemostat Model with Aggregated Biomass and Distinct Removal Rates ⋮ Rich dynamics of a three-tiered anaerobic food-web in a chemostat with multiple substrate inflow ⋮ The operating diagram for a model of competition in a chemostat with an external lethal inhibitor ⋮ The operating diagram of a model of two competitors in a chemostat with an external inhibitor ⋮ A density-dependent model of competition for one resource in the chemostat ⋮ A Mathematical Model of Anaerobic Digestion with Syntrophic Relationship, Substrate Inhibition, and Distinct Removal Rates ⋮ Mathematical analysis of a three-tiered food-web in the chemostat ⋮ Effect of control parameters on biogas production during the anaerobic digestion of protein-rich substrates ⋮ Mathematical Analysis of a Three-Tiered Model of Anaerobic Digestion ⋮ Operating diagrams for a three-tiered microbial food web in the chemostat ⋮ Mortality can produce limit cycles in density-dependent models with a predator-prey relationship
Cites Work
- Coexistence of two microbial populations competing for a renewable resource in a non-predator-prey system
- Bifurcation and stability analysis of an anaerobic digestion model
- Modelling the interaction of two biological species in a polluted environment
- A mathematical study of a syntrophic relationship of a model of anaerobic digestion process
- Maintenance affects the stability of a two-tiered microbial `food chain'?
- Mathematical model of anaerobic digestion in a chemostat: effects of syntrophy and inhibition
- A Mathematical Model of Competition for Two Essential Resources in the Unstirred Chemostat
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