A community model of ciliateTetrahymena and bacteriaE. coli: Part II. Interactions in a batch system |
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| Authors: | Joanna S. Jaworska Thomas G. Hallam T. Wayne Schultz |
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| Affiliation: | (1) Graduate Program in Environmental Toxicology, University of Tennessee, Knoxville, Tennessee, USA;(2) Department of Mathematics and Graduate Program in Ecology, University of Tennessee, Knoxville, Tennessee, USA;(3) College of Veterinary Medicine, University of Tennessee, Knoxville, Tennessee, USA;(4) Present address: Environmental Sciences Division, Oak Ridge National Laboratory, 37831-6038 Oak Ridge, TN |
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| Abstract: | Premised on relatively simple assumptions, mathematical models like those of Monod, Pirt or Droop inadequately explain the complex transient behavior of microbial populations. In particular, these models fail to explain many aspects of the dynamics of aTetrahymena pyriformis-Escherichia coli community. In this study an alternative approach, an individual-based model, is employed to investigate the growth and interactions ofTetrahymena pyriformis andE. coli in a batch culture. Due to improved representation of physiological processes, the model provides a better agreement with experimental data of bacterial density and ciliate biomass than previous modeling studies. It predicts a much larger coexistence domain than rudimentary models, dependence of biomass dynamics on initial conditions (bacteria to ciliate biomasses ratio) and appropriate timing of minimal bacteria density. Moreover, it is found that accumulation ofE. coli sized particles andE. coli toxic metabolites has a stabilizing effect on the system. |
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