Skip to main content
Dryad

Spectra induce polarization data of bacteria in soil

Data files

May 06, 2022 version files 41.31 KB

Abstract

Real-time monitoring of microbial activity in porous media is still facing critical challenges because conventional analytical procedures are intrusive. Induced polarization (IP) has shown promises as a non-intrusive monitoring approach of such process. However, there is still a lack of quantitative analysis of soil column experiments to show how IP-based parameters can be related to the density of bacteria. The evolution of bacteria density and induced polarization is here performed in a soil-packed column experiment using Pseudomonas Aeruginosa O1 (PAO1).

A quantitative relationship between the quadrature conductivity and the bacteria density is established and then used to assess bacteria growth and decay and infer the Monod kinetic parameters. The Monod kinetic parameters inferred from the column experiments mimicking field conditions are different from those obtained from a batch experiment.