Hauptseminar Soft Matter SS 2019/Transport and accumulation of bacteria in porous media
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- Date
- 2019-07-05
- Time
- 14:00
- Topic
- Transport and accumulation of bacteria in porous media
- Speaker
- Samuel Tovey
- Tutor
- Kartik Jain
- Handout
- [1]
Contents
Microorganisms, like bacteria inherently propel, proliferate and die in fluids like water, and thus influence a number of applications where flow of water is involved. Studies have shown that bacteria accumulate at surfaces and around obstacles [1, 2]. Furthermore, the bacterial dynamics play a pivotal role in precipitation of calcite around surfaces in porous media [3] on one hand, and on the other the trajectory of a bacterium depends largely on the geometrical configuration of a given system [4, 5]. The calcite precipitation only commences once the bacteria has formed a large enough biofilm to create sufficient concentrations of inorganic carbon in the form of carbonate ions by metabolising the urea. Apart from producing the necessary catalysts for the reaction, the biofilm also acts as a nucleation site for the heterogeneous calcite precipitation [6].
In this talk, the dynamics of bacteria, their attraction or repulsion near a surface, that leads to their accumulation around porous media and the development of a calcite thereof will be discussed. The modeling aspects of bacterial dynamics, and the underlying hydrodynamics will be evaluated. The role of hydrodynamic interactions between the bacteria and surfaces, in relation to the local flow field will be characterized.
Literature
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E coli Accumulation behind an Obstacle.
Advances in Microbiology 8:451–464, 2018.
[PDF] (3.6 MB) [DOI] -
Allison P Berke, Linda Turner, Howard C Berg, Eric Lauga.
Hydrodynamic attraction of swimming microorganisms by surfaces.
Physical Review Letters 101(3):038102, 2008.
[PDF] (245 KB) [DOI] -
Lesley A Warren, Patricia A Maurice, Nagina Parmar, F Grant Ferris.
Microbially mediated calcium carbonate precipitation: implications for interpreting calcite precipitation and for solid-phase capture of inorganic contaminants.
Geomicrobiology Journal 18(1):93–115, 2001.
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Jens Elgeti, Gerhard Gompper.
Microswimmers near surfaces.
European Physical Journal Special Topics 225(11-12):2333–2352, 2016.
[PDF] (3.6 MB) [DOI] -
Joost de Graaf, Arnold J. T. M. Mathijssen, Marc Fabritius, Henri Menke, Christian Holm, Tyler N. Shendruk.
Understanding the onset of oscillatory swimming in microchannels.
Soft Matter 12(21):4704–4708, 2016.
[PDF] (2.3 MB) [DOI] -
Navdeep Kaur Dhami, M Sudhakara Reddy, Abhijit Mukherjee.
Biomineralization of calcium carbonate polymorphs by the bacterial strains isolated from calcareous sites.
Journal of Microbiology and Biotechnology 23(5):707–714, 2013.
[DOI]