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Impact of microbial growth on water flow and solute transport in unsaturated porous media

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https://ir.library.oregonstate.edu/concern/articles/5x21tg05s

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Abstract
  • A novel analytical method was developed that permitted real-time, noninvasive measurements of microbial growth and associated changes in hydrodynamic properties in porous media under unsaturated flowing conditions. Salicylate-induced, lux gene-based bioluminescence was used to quantify the temporal and spatial development of colonization over a 7-day time course. Water contents were determined daily by measuring light transmission through the system. Hydraulic flow paths were determined daily by pulsing a bromophenol blue dye solution through the colonized region of the sand. Bacterial growth and accumulation had a significant impact on the hydraulic properties of the porous media. Microbial colonization caused localized drying within the colonized zone, with decreases in saturation approaching 50% of antecedent values, and a 25% lowering of the capillary fringe height. Flow was retarded within the colonized zone and diverted around it concurrent with the expansion of the colonized zone between days 3 and 6. The location of horizontal dispersion corresponded with the cell densities of 1–3 × 10⁹ cells g⁻¹ dry sand. The apparent solute velocity through the colonized region was reduced from 0.41 cm min⁻¹ (R² = 0.99) to 0.25 cm min⁻¹ (R² = 0.99) by the sixth day of the experiment, associated with population densities that would occupy approximately 7% of the available pore space within the colonized region. Changes in the extent of colonization occurred over the course of the experiment, including upward migration against flow. The distribution of cells was not determined by water flow alone, but rather by a dynamic interaction between water flow and microbial growth. This experimental system provides rich data sets for the testing of conceptualizations expressed through numerical modeling.
  • Keywords: Bacteria in the subsurface, Vadose zone, Bacteria in porous media
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  • Yarwood, R. R., M. L. Rockhold, M. R. Niemet, J. S. Selker, and P. J. Bottomley (2006), Impact of microbial growth on water flow and solute transport in unsaturated porous media, Water Resources Research., 42, W10405, doi:10.1029/2005WR004550.
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  • 42
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  • W10405
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  • This research was funded by grants from the National Science Foundation (9630293) and the U.S. Department of Energy (DE-FG07-98ER14925) and by the Oregon Agricultural Experiment Station.
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