Active breaching of a geometric segment boundary in the Sawatch Range normal fault, Colorado, USA

Martin G. Miller, 1999
Journal of Structural Geology, v. 21, p. 769-776.

ABSTRACT
The northwest-trending Sawatch Range normal fault system is the principal range-bounding fault of the northern Rio Grande Rift of central Colorado. It displays a geometric segment boundary in the form of a prominent en echelon step at the Chalk Cliffs, a zone of highly fractured and hydrothermally altered quartz monzonite. There, the modern fault geometry suggests that the Sawatch Range fault is presently breaching the boundary. Immediately north of the Chalk Cliffs, the range front fault is active whereas immediately south, the range front fault is inactive. Instead, it is replaced by a north-trending break that transects much of the boundary.

The Chalk Cliffs also display a 4-stage history of faulting and alteration/ mineralization that appears to track the boundaryıs evolution. First-stage chlorite-filled faults and second-stage laumontite-filled faults affect the entire boundary and likely pre-date the breach. They record a change of fluid chemistry during oblique extension associated with the boundaryıs early history. Third stage, calcite-filled fractures are generally restricted to the eastern half of the boundary, between the breaching faultıs projection into the Chalk Cliffs and the active range front fault. These fractures probably coincide with initiation of the breach. Modern (fourth stage) hydrothermal activity occurs at, and slightly beyond, the eastern edge. This coincidence of hydrothermal events with changes in large-scale fault geometry illustrates how normal fault zones, through breaching, can simplify their geometries and localize associated deformation and hydrothermal activity.


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