Weathering history of an exposed bedrock fault surface interpreted from its topography |
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| Institution: | 1. Departamento de Estratigrafía y Paleontología, Universidad de Granadan, Fuente Nueva s/, 18002 Granada, Spain;2. Pamukkale University, Dept. of Geology, 20070 Denizli, Turkey;3. Naturalis Biodiversity Center, P.O. Box 9517, 2300 RA Leiden, The Netherlands |
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| Abstract: | Morphologic features of bedrock fault scarps are underutilized in studying faulting and weathering history, partly because of a lack of accurate quantitative parameters for topography. The study employs ground-based LiDAR to measure five patches at different levels on the same fault surface and then calculates roughness in the form of power spectral density in directions parallel and perpendicular to the slip. The power spectral density and spatial frequency typically follow a power law for each fault patch, showing approximately linear relationships in a log–log plot. However, due to additional power introduced by weathering, all spectral curves, especially those parallel to the slip, can be divided into two segments, lower-frequency (wavelengths of several centimeters – several meters) and higher-frequency (wavelengths of several centimeters and below) domains. This shows that the topographic features at different spatial scales are dominated by different mechanical processes: faulting abrasion in the lower-frequency domain and the weathering process in the higher-frequency domain. Moreover, we develop two parameters to quantify the degree of weathering of a fault outcrop, which is significant to describe the evolution of the fault-scarp and infer the date of faulting under calibration. |
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| Keywords: | Bedrock fault surface Weathering Roughness Faulting |
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