Christina Flechsig scite author profile

Abstract. Microbial life in the continental "deep biosphere" is closely linked to geodynamic processes, yet this interaction is poorly studied. The Cheb Basin in the western Eger Rift (Czech Republic) is an ideal place for such a study because it displays almost permanent seismic activity along active faults with earthquake swarms up to M L 4.5 and intense degassing of mantle-derived CO 2 in conduits that show up at the surface in form of mofettes. We hypothesize that microbial life is significantly accelerated in active fault zones and in CO 2 conduits, due to increased fluid and substrate flow. To test this hypothesis, pilot hole HJB-1 was drilled in spring 2016 at the major mofette of the Hartoušov mofette field, after extensive pre-drill surveys to optimize the well location. After drilling through a thin caprock-like structure at 78.5 m, a CO 2 blowout occurred indicating a CO 2 reservoir in the underlying sandy clay. A pumping test revealed the presence of mineral water dominated by Na + , Ca 2+ , HCO The cored sediments are mudstones with minor carbonates, sandstones and lignite coals that were deposited in a lacustrine environment. Deformation structures and alteration features are abundant in the core. Ongoing studies will show if they result from the flow of CO 2 -rich fluids or not.

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Fluid flow in the resurgent dome of Long Valley Caldera: implications from thermal data and deep electrical sounding

Pribnow

Schütze

Hurter

et al. 2003

Journal of Volcanology and Geothermal Research

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Integrated geophysical and geological methods to investigate the inner and outer structures of the Quaternary Mýtina maar (W-Bohemia, Czech Republic)

Flechsig

Heinicke

Mrlina

et al. 2015

Int J Earth Sci (Geol Rundsch)

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Fluid injection monitoring using electrical resistivity tomography — five years of injection at Ketzin, Germany

Bergmann

Schmidt‐Hattenberger

Labitzke

et al. 2016

Geophysical Prospecting

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Between the years 2008 and 2013, approximately 67 kilotons of CO2 have been injected at the Ketzin site, Germany. As part of the geophysical monitoring programme, time‐lapse electrical resistivity tomography has been applied using crosshole and surface‐downhole measurements of electrical resistivity tomography. The data collection of electrical resistivity tomography is partly based on electrodes that are permanently installed in three wells at the site (one injection well and two observation wells). Both types of ERT measurements consistently show the build‐up of a CO2‐related resistivity signature near the injection point. Based on the imaged resistivity changes and a petrophysical model, CO2 saturation levels are estimated. These CO2 saturations are interpreted in conjunction with CO2 saturations inferred from neutron‐gamma loggings. Apart from the CO2–brine substitution response in the observed resistivity changes, significant imprints from the dynamic behaviour of the CO2 in the reservoir are observed.

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