• Title of article

    Development of a dilatant damage zone along a thrust relay in a low-porosity quartz arenite

  • Author/Authors

    Cook، نويسنده , , Jennie E. and Dunne، نويسنده , , William M. and Onasch، نويسنده , , Charles M.، نويسنده ,

  • Issue Information
    ماهنامه با شماره پیاپی سال 2006
  • Pages
    17
  • From page
    776
  • To page
    792
  • Abstract
    A damage zone along a backthrust fault system in well-cemented quartz arenite in the Alleghanian foreland thrust system consists of a network of NW-dipping thrusts that are linked by multiple higher-order faults and bound a zone of intense extensional fractures and breccias. The damage zone developed at an extensional step-over between two independent, laterally propagating backthrusts. The zone is unusual because it preserves porous brittle fabrics despite formation at >5 km depth. The presence of pervasive, late-stage fault-normal joints in a fault-bounded horse in the northwestern damage zone indicates formation between two near-frictionless faults. This decrease in frictional resistance was likely a result of increased fluid pressure. In addition to physical effects, chemical effects of fluid also influenced damage zone development. Quartz cements, fluid inclusion data, and Fourier Transform Infrared analysis indicate that both aqueous and methane-rich fluids were present within the damage zone at different times. The backthrust network likely acted as a fluid conduit system, bringing methane-rich fluids up from the underlying unit and displacing resident aqueous fluids. The presence of methane not only enhanced the effects of fluid pressure, which facilitated brittle fracturing, but inhibited formation of later-stage quartz cements, thereby preserving open fractures and porous breccias.
  • Keywords
    Damage zone , Quartz arenite , Extensional relay , Methane , Backthrust , breccia
  • Journal title
    Journal of Structural Geology
  • Serial Year
    2006
  • Journal title
    Journal of Structural Geology
  • Record number

    2226017