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Literature DB >> 22881029

The mathematical analysis of a syntrophic relationship between two microbial species in a chemostat.

Tewfik Sari¹, Miled El Hajji, Jerome Harmand.

Abstract

A mathematical model involving a syntrophic relationship between two populations of bacteria in a continuous culture is proposed. A detailed qualitative analysis is carried out as well as the analysis of the local and global stability of the equilibria. We demonstrate, under general assumptions of monotonicity which are relevant from an applied point of view, the asymptotic stability of the positive equilibrium point which corresponds to the coexistence of the two bacteria. A syntrophic relationship in the anaerobic digestion process is proposed as a real candidate for this model.

Mesh：

Year: 2012 PMID： 22881029 DOI： 10.3934/mbe.2012.9.627

Source DB: PubMed Journal: Math Biosci Eng ISSN： 1547-1063 Impact factor: 2.080

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Cited

4 in total

4. A Computational Study of Amensalistic Control of Listeria monocytogenes by Lactococcus lactis under Nutrient Rich Conditions in a Chemostat Setting.

Authors: Hassan Khassehkhan; Hermann J Eberl
Journal: Foods Date: 2016-09-09

4 in total

The mathematical analysis of a syntrophic relationship between two microbial species in a chemostat.

1. Dynamics of Simple Food Webs.

2. Generalised approach to modelling a three-tiered microbial food-web.

3. Quantifying the effects of the division of labor in metabolic pathways.

4. A Computational Study of Amensalistic Control of Listeria monocytogenes by Lactococcus lactis under Nutrient Rich Conditions in a Chemostat Setting.