Underwood, Michael B. (2002): Strike-parallel variations in clay minerals and fault vergence in the Cascadia subduction zone

Leg/Site/Hole:
ODP 146
ODP 168
DSDP 18
DSDP 18 174
ODP 146 892
Identifier:
2002-014646
georefid
Creator:
Underwood, Michael B.
University of Missouri at Columbia, Department of Geological Sciences, Columbia, MO, United States
author
Identification:
Strike-parallel variations in clay minerals and fault vergence in the Cascadia subduction zone
2002
Geology (Boulder)
Geological Society of America (GSA), Boulder, CO, United States
30
2
155-158
Clay minerals probably affect the zonation of mechanical properties within a thick unit of abyssal-plain deposits as they enter the Cascadia subduction zone. Landward-vergent thrust faults develop above a deeper decollement because smectite-rich mudrocks within that corridor release more water during clay dehydration, which in turn elevates pore pressure and reduces basal shear stress relative to wedge strength. Conversely, dilution of smectite by illite and chlorite increases the frictional coefficient, and fluid overpressure should drop where smectite dehydration is volumetrically reduced. Thus, thrust faults within chlorite-rich segments of the margin are seaward vergent.
English
Serial
Coverage:Geographic coordinates:
North:44.5330
West:-126.2048East: -125.0705
South:44.4026
Solid-earth geophysics; Oceanography; accretionary wedges; Cascadia Basin; Cascadia subduction zone; clastic rocks; clay mineralogy; clay minerals; decollement; Deep Sea Drilling Project; deep-sea environment; dehydration; diagenesis; DSDP Site 174; East Pacific; faults; Leg 146; Leg 168; Leg 18; marine environment; marine sediments; mudstone; North Pacific; Northeast Pacific; Ocean Drilling Program; ODP Site 892; Pacific Ocean; plate boundaries; plate tectonics; pore pressure; sedimentary rocks; sediments; segmentation; shear stress; sheet silicates; silicates; smectite; strength; subduction zones; thrust faults;
.