3:00 PM - 3:15 PM
[SGL35-06] Repeated coseismic injection of pulverized fault rocks and infiltration of fluids including meteoric and sea-waters within fault damage zones
Keywords:coseismic injection of pulverized fault rocks, coseismic infiltration of fluid, seismic fault suction-pumping model
In this presentation, I will review the previous studies and report the recent progresses on the fluid infiltration concerning with coseismic faulting and recent activity on two seismogenic faults that recently triggered the large earthquakes, one from the active faults of the Longmen Shan Thrust Belt that triggered the 2008 Mw 7.9 Wenchaun earthquake in the Sichuan basin, China, the other is the Nojima Fault that triggered the 1995 Mw7.2 Kobe earthquake. Circulating fluids deposit fine-grained sediments including clay and carbonate material and pulverized rock materials into cracks within the fault zones. Such crack-fill fine-grained materials, calcite veins, and oxidized/weathered open cracks have well been observed in the drill cores, from both the Nojima Fault and the active faults of the Longme Shan Thrust Best. 3D micro-X-ray scanning data and powder X-ray diffraction analyses show that the fault core zone contains a numerous of veinlets which are composed of fine-grained materials, carbonate material and clay minerals. Isotopic analyses of carbonate material within the fine-grained materials and calcite veins reveal that the calcite veins are sourced from typical meteoric and seawater. 14C dating ages of 10 calcite vein samples range from 35.0 to 58.4 kyr B.P. Geological, petrological, stable isotopic, and 14C data suggest that these crack-fill fine-grained materials and calcite veins and brown open cracks were developed by the repeated infiltration of O2- and CO2-bearing meteoric and seawater downward into the deep fault zone during the last 35–60 kyr. We propose a seismic fault suction-pumping model to interpret the infiltration of subsurface waters being carried down into the deep fault zone by rapid potential change during episodes of seismic faulting.
Lin et al. (2003). Repeated coseismic infiltration of meteoric and seawater into deep fault zones: a case study of the Nojima fault zone, Japan. Chem. Geol., 202, 139-153.
Lin et al. (2013). Coseismic dehydration of serpentinite during large earthquakes: Evidence from high-velocity friction experiments. Chemical Geology, 344, 50-62.