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Multiplexed chemostat system for quantification of biodiversity and ecosystem functioning in anaerobic digestion

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  • Diane Plouchart
  • Kim Milferstedt
  • Guillaume Guizard
  • Eric Latrille
  • Jérôme Hamelin

Abstract

Continuous cultures in chemostats have proven their value in microbiology, microbial ecology, systems biology and bioprocess engineering, among others. In these systems, microbial growth and ecosystem performance can be quantified under stable and defined environmental conditions. This is essential when linking microbial diversity to ecosystem function. Here, a new system to test this link in anaerobic, methanogenic microbial communities is introduced. Rigorously replicated experiments or a suitable experimental design typically require operating several chemostats in parallel. However, this is labor intensive, especially when measuring biogas production. Commercial solutions for multiplying reactors performing continuous anaerobic digestion exist but are expensive and use comparably large reactor volumes, requiring the preparation of substantial amounts of media. Here, a flexible system of Lab-scale Automated and Multiplexed Anaerobic Chemostat system (LAMACs) with a working volume of 200 mL is introduced. Sterile feeding, biomass wasting and pressure monitoring are automated. One module containing six reactors fits the typical dimensions of a lab bench. Thanks to automation, time required for reactor operation and maintenance are reduced compared to traditional lab-scale systems. Several modules can be used together, and so far the parallel operation of 30 reactors was demonstrated. The chemostats are autoclavable. Parameters like reactor volume, flow rates and operating temperature can be freely set. The robustness of the system was tested in a two-month long experiment in which three inocula in four replicates, i.e., twelve continuous digesters were monitored. Statistically significant differences in the biogas production between inocula were observed. In anaerobic digestion, biogas production and consequently pressure development in a closed environment is a proxy for ecosystem performance. The precision of the pressure measurement is thus crucial. The measured maximum and minimum rates of gas production could be determined at the same precision. The LAMACs is a tool that enables us to put in practice the often-demanded need for replication and rigorous testing in microbial ecology as well as bioprocess engineering.

Suggested Citation

  • Diane Plouchart & Kim Milferstedt & Guillaume Guizard & Eric Latrille & Jérôme Hamelin, 2018. "Multiplexed chemostat system for quantification of biodiversity and ecosystem functioning in anaerobic digestion," PLOS ONE, Public Library of Science, vol. 13(3), pages 1-15, March.
  • Handle: RePEc:plo:pone00:0193748
    DOI: 10.1371/journal.pone.0193748
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    References listed on IDEAS

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    1. P. A. Venail & R. C. MacLean & T. Bouvier & M. A. Brockhurst & M. E. Hochberg & N. Mouquet, 2008. "Diversity and productivity peak at intermediate dispersal rate in evolving metacommunities," Nature, Nature, vol. 452(7184), pages 210-214, March.
    2. Florence Braun & Jérôme Hamelin & Anaïs Bonnafous & Nadine Delgenès & Jean-Philippe Steyer & Dominique Patureau, 2015. "Similar PAH Fate in Anaerobic Digesters Inoculated with Three Microbial Communities Accumulating Either Volatile Fatty Acids or Methane," PLOS ONE, Public Library of Science, vol. 10(4), pages 1-20, April.
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