Extensional fault-propagation folding in mechanically layered rocks: The case against the frictional drag mechanism

Extensional fault-propagation folding in mechanically layered rocks: The case against the frictional drag mechanism

“Fault drag” (deflection of beds or other markers into folds that are convex in the direction of relative slip) is often interpreted as the product of frictional sliding along a fault and progressive tilting of beds with increased amount of displacement along a fault. We analyze two sets of normal f...

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Veröffentlicht in:Tectonophysics 2012-11, Vol.576-577, p.78-85
Hauptverfasser: Ferrill, David A., Morris, Alan P., McGinnis, Ronald N.
Format: Artikel
Sprache:eng
Schlagworte:
Boudinage
Clay (material)
Clay smear
Dipping
Displacement
Drag
Extensional fault-propagation fold
Fault drag
Faults
Folding
Mechanical stratigraphy
Normal fault
Rocks
Shale
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Zusammenfassung:“Fault drag” (deflection of beds or other markers into folds that are convex in the direction of relative slip) is often interpreted as the product of frictional sliding along a fault and progressive tilting of beds with increased amount of displacement along a fault. We analyze two sets of normal faults, with throws ranging from 0.5m to 5m, and associated fault-related folds in mechanically layered upper Cretaceous carbonate, anhydrite, and shale in central Texas. For each fault set, we interpret the fault displacement and fault-related folds exposed in outcrop to represent different stages in the developmental sequence. In both fault sets, faults in dolostone or limestone lose displacement and tip into less competent anhydrite or shale where deformation is accommodated by folding and smaller scale deformation. Fold wavelength is established early and at small displacement (
ISSN:0040-1951
1879-3266
DOI:10.1016/j.tecto.2012.05.023