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- Title
CO degassing in the Hartoušov mofette area, western Eger Rift, imaged by CO mapping and geoelectrical and gravity surveys.
- Authors
Nickschick, Tobias; Kämpf, Horst; Flechsig, Christina; Mrlina, Jan; Heinicke, Jens
- Abstract
Strong, subcontinental mantle-dominated CO degassing occurs in the Hartoušov and Bublák mofette fields in the western Eger Rift. The combination of CO gas flux and soil gas measurements as well as gravity and geoelectric surveys provides insight into the surface and subsurface of this unique mofette area. CO soil gas and gas flux measurements reveal that large amounts of carbon dioxide are released via channels with diameters below 1 m. Carbon dioxide emissions of several tens and up to more than 100 kg day are ejected via these small seeps. Measurements with small spacings are necessary to account for the point like, focused gas discharge in the lesser degassing surrounding. We estimate that between 23 and 97 tons of CO are released over an area of about 350,000 m each day in the Hartoušov mofette field. The application of widely used geostatistical tools leads to estimations of the CO discharge with very high standard deviations due to the strong positive skewness of the data distribution. Geophysical investigations via electrical resistivity tomography and gravity measurements were carried out over areas of strong seepage and reveal distinct anomalies in the subsurface below mofettes, indicating rock and sediment alterations and/or sediment transport by pressurised, ascending CO and water mobilised by it. This study reveals that the gas emanations only occur west of a morphological step which is related to a N-S-oriented fault zone, the Počatky-Plesná fault zone. The results of CO mapping and the geophysical studies can track the course of this fault zone in this area. Our results fit into a tectonic model in which the mofette fields are in the centres of two independent pull-apart basin-like structures. We hypothesise that the sinistral strike-slip movement of the Počatky-Plesná fault zone leads to a pull-apart basin-like opening, at which the strong, mantle-derived CO degassing occurs nowadays. Since the Hartoušov and Bublák mofette fields only illustrate examples along the N-S-striking Počatky-Plesná fault zone, its role and other N-S-striking faults' roles of the Regensburg-Leipzig-Rostock zone for upper mantle degassing might have been underestimated previously.
- Subjects
CARBON monoxide; GRAVITY; DEGASSING of metals; INDUSTRIAL surveys; ELECTRICAL resistivity
- Publication
International Journal of Earth Sciences, 2015, Vol 104, Issue 8, p2107
- ISSN
1437-3254
- Publication type
Article
- DOI
10.1007/s00531-014-1140-4