Timea Katona scite author profile

Abstract. Biogeochemical hotspots are defined as areas where biogeochemical processes occur with anomalously high reaction rates relative to their surroundings. Due to their importance in carbon and nutrient cycling, the characterization of hotspots is critical for predicting carbon budgets accurately in the context of climate change. However, biogeochemical hotspots are difficult to identify in the environment, as methods for in situ measurements often directly affect the sensitive redox-chemical conditions. Here, we present imaging results of a geophysical survey using the non-invasive induced polarization (IP) method to identify biogeochemical hotspots of carbon turnover in a minerotrophic wetland. To interpret the field-scale IP signatures, geochemical analyses were performed on freeze-core samples obtained in areas characterized by anomalously high and low IP responses. Our results reveal large variations in the electrical response, with the highest IP phase values (> 18 mrad) corresponding to high concentrations of phosphates (> 4000 µM), an indicator of carbon turnover. Furthermore, we found a strong relationship between the electrical properties resolved in IP images and the dissolved organic carbon. Moreover, analysis of the freeze core reveals negligible concentrations of iron sulfides. The extensive geochemical and geophysical data presented in our study demonstrate that IP images can track small-scale changes in the biogeochemical activity in peat and can be used to identify hotspots.

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Delineation of hydrocarbon contaminants with multi-frequency complex conductivity imaging

Orozco

Ciampi

Katona

et al. 2021

Science of The Total Environment

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Quantitative water content estimation in landfills through joint inversion of seismic refraction and electrical resistivity data considering surface conduction

et al. 2022

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Anwendung der Induzierten Polarisation in der Graphitexploration

Flores-Orozco

Katona

Aigner

et al. 2021

Berg Huettenmaenn Monatsh

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ZusammenfassungDiese Studie präsentiert die Anwendung der Induzierten Polarisation (IP) für die Charakterisierung einer Graphitlagerstätte. Basierend auf Labormessungen zeigen wir die Sensitivität von IP-Messungen hinsichtlich Veränderungen der Korngröße und der spezifischen Oberfläche von Graphit in Gesteinsproben und auf der Feldskala. Des Weiteren demonstrieren wir, dass IP-Feldmessungen eine klarere Abgrenzung von graphitreichen Untergrundbereichen ermöglichen als die alleinige Bestimmung der elektrischen Leitfähigkeit.

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Timea Katona

High-resolution induced polarization imaging of biogeochemical carbon turnover hotspots in a peatland

Delineation of hydrocarbon contaminants with multi-frequency complex conductivity imaging

Quantitative water content estimation in landfills through joint inversion of seismic refraction and electrical resistivity data considering surface conduction

Anwendung der Induzierten Polarisation in der Graphitexploration

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