Comparison of Geogases in Two Cenozoic Sedimentary Basins

• Published in: Geosciences (Basel) Vol. 12; no. 10; p. 388
• Main Authors: Berberich, Gabriele M., Berberich, Martin B.
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.10.2022
• Subjects: Anomalies; Ants; Basins; Carbon dioxide; Cenozoic; Cenozoic Era; Clusters; CO2; Comparative analysis; Corridors; Deformation; Degassing; Earth science; Earthquakes; Environmental aspects; Fault lines; Fault zones; Fractures; Gases; Geological faults; Helium; Lakes; Lower Rhine Embayment (LRE); Meinweg; Natural gas; Nests; Pattern analysis; Plate tectonics; Prototypes; Radon; Respiration; Sedimentary basins; Sediments; Seismic activity; Seismicity; Soil analysis; Soil gas; soil gas anomalies; Soil gases; Spatial analysis; Tectonics; Germany; Netherlands; Europe
• ISSN: 2076-3263; 2076-3263
• DOI: 10.3390/geosciences12100388

We investigated fault gases (helium, radon, CO2) in two seismically active Cenozoic sedimentary basins: (a) Meinweg (in 2015), at a tectonically quiescent horst structure in the Lower Rhine Embayment; and (b) Bodanrück (in 2012; Lake of Constance), in the Molasse Basin and part of the seismically active Freiburg–Bonndorf–Bodensee Fault Zone (FBBFZ). Both study areas were selected because recent “GeoBio-Interactions” findings showed that red wood ants (RWA) are biological indicators of otherwise undetected degassing systems. We combined presence/absence data of RWA nests, their spatial pattern analysis (prototype lines), seismicity and known tectonic settings with soil gas analyses (a total of 817 samples) to unveil geochemical anomalies related to tectonic developments unknown so far. Currently, Meinweg can be considered “no ants land” due to the very low background-level of geogas concentrations. Thus, anomalies (Rn-CO2) weakly trending in NE-SW extension direction emerged. This could probably indicate the onset of (re)activation of the NE-SW-trending (Variscan) structures or the development of new fractures as an aftershock process of the 1992 Roermond earthquake that occurred about 15 km to the west. Results at Bodanrück (three RWA clusters and two RWA-free corridors) revealed degassing patterns in NW-SE and NNE-SSW directions in the clusters corresponding to re-activated and recent strike-slip fault systems. No gas anomalies were found in RWA-free corridors. The RWA nest distribution was shown to be a valuable tool for identifying areas of even actively degassing spotty anomalies caused by macro- and microscale brittle deformation masked by sediment cover.