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Quadrature conductivity: A quantitative indicator of bacterial abundance in porous media
Zhang, Chi ; Revil, André ; Fujita, Yoshiko ; Munakata-Marr, Junko ; Redden, George
Zhang, Chi
Revil, André
Fujita, Yoshiko
Munakata-Marr, Junko
Redden, George
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Abstract
The abundance and growth stages of bacteria in subsurface porous media affect the concentrations and distributions of charged species within the solid-solution interfaces. Therefore, spectral induced polarization (SIP) measurements can be used to monitor changes in bacterial biomass and growth stage. Our goal was to gain a better understanding of the SIP response of bacteria present in a porous material. Bacterial cell surfaces possess an electric double layer and therefore become polarized in an electric field. We performed SIP measurements over the frequency range of 0.1–1 kHz on cell suspensions alone and cell suspensions mixed with sand at four pore water conductivities. We used Zymomonas mobilis at four different cell densities (including the background). The quadrature conductivity spectra exhibited two peaks, one around 0.05–0.10 Hz and the other around 1–10 Hz. Because SIP measurements on bacterial suspensions are typically made at frequencies greater than 1 Hz, these peaks have not been previously reported. In the bacterial suspensions in growth medium, the quadrature conductivity at peak I was linearly proportional to the density of the bacteria. For the case of the suspensions mixed with sands, we observed that peak II presented a smaller increase in the quadrature conductivity with the cell density. A comparison of the experiments with and without sand grains illustrated the effect of the porous medium on the overall quadrature conductivity response (decrease in the amplitude and shift of the peaks to the lower frequencies). Our results indicate that for a given porous medium, time-lapse SIP has potential for monitoring changes in bacterial abundance within porous media.
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Date
2014-11
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Society of Exploration Geophysicists
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Keywords
environmental, induced polarization (IP), near surface, resistivity, rock physics
Citation
Zhang, C., Revil, A., Fujita, Y., Munakata-Marr, J., & Redden, G. (2014). Quadrature conductivity: A quantitative indicator of bacterial abundance in porous media. Geophysics, 79(6), D363-D375.