A novel multi-scale approach to fault network analysis and visualization: test case Franconian Platform (SE Germany)
Wiest J, Köhler S, Köhn D, Stollhofen H, Dengler K, Fazlikhani H (2025)
Publication Type: Journal article
Publication year: 2025
Journal
Book Volume: 199
Article Number: 105481
DOI: 10.1016/j.jsg.2025.105481
Abstract
Faults are essential to reconstruct geologic histories and their presence (or absence) in the subsurface plays a significant role for many societal issues, such as geothermal energy, carbon, hydrogen and hydrocarbon storage or nuclear waste deposition. In the area of the Permo-Mesozoic Franconian Platform (Northern Bavaria, SE Germany) the existence and properties of faults in the subsurface are poorly known due to limited exposure and lack of geophysical data coverage. To address this issue, we have constructed a new fault network based on stratigraphic offsets identified in a network of 18 cross sections. In this contribution, we present our workflow which allows the effective construction of an internally consistent cross-section network covering a study area of >30,000km2, while representing the geology in high detail. Data input is provided by > 3500 (mostly shallow) wells and >250 high-resolution geological maps, complemented by geophysical surveys and field data. We demonstrate how fault segments and their attributes (e.g., fault type, dip direction, offset, certainty of the interpretation, etc.) can be inferred from the profiles, resulting iteratively in consistent profile and fault networks. While we highlight the non-uniqueness of the interpretation and its restriction to vertical offsets, we demonstrate advantages of the fault network, inferred through this pseudo-3D approach, compared to previously available datasets. We discuss the role of newly identified fault populations for Cretaceous inversion tectonics and Cenozoic rifting. Through the incorporation of basic measures of uncertainty and scale-dependency in the resulting fault model, quantification of the fault network can be achieved. This enables the comparison with independent datasets and different model realizations.
Authors with CRIS profile
Johannes Wiest
Professur für Tektonik
Saskia Köhler
Professur für Tektonik
Daniel Köhn
Professur für Tektonik
Harald Stollhofen
Lehrstuhl für Geologie (Exogene Dynamik)
Involved external institutions
Germany (DE)How to cite
APA:
Wiest, J., Köhler, S., Köhn, D., Stollhofen, H., Dengler, K., & Fazlikhani, H. (2025). A novel multi-scale approach to fault network analysis and visualization: test case Franconian Platform (SE Germany). Journal of Structural Geology, 199. https://doi.org/10.1016/j.jsg.2025.105481
MLA:
Wiest, Johannes, et al. "A novel multi-scale approach to fault network analysis and visualization: test case Franconian Platform (SE Germany)." Journal of Structural Geology 199 (2025).
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