Ikari, Matt J.; Saffer, Demian M. (2012): Permeability contrasts between sheared and normally consolidated sediments in the Nankai accretionary prism. Elsevier, Amsterdam, Netherlands, Marine Geology, 295-298, 1-13, georefid:2012-045484

Abstract:
At subduction zones, the permeability of major fault zones influences pore pressure generation, controls fluid flow pathways and rates, and affects fault slip behavior and mechanical strength by mediating effective normal stress. Therefore, there is a need for detailed and systematic permeability measurements of natural materials from fault systems, particularly measurements that allow direct comparison between the permeability of sheared and unsheared samples from the same host rock or sediment. We conducted laboratory experiments to compare the permeability of sheared and uniaxially consolidated (unsheared) marine sediments sampled during IODP Expedition 316 and ODP Leg 190 to the Nankai Trough offshore Japan. These samples were retrieved from: (1) The decollement zone and incoming trench fill offshore Shikoku Island (the Muroto transect); (2) Slope sediments sampled offshore SW Honshu (the Kumano transect) approximately 25km landward of the trench, including material overriden by a major out-of-sequence thrust fault, termed the "megasplay"; and (3) A region of diffuse thrust faulting near the toe of the accretionary prism along the Kumano transect. Our results show that shearing reduces fault-normal permeability by up to 1 order of magnitude, and this reduction is largest for shallow (<500mbsf) samples. Shearing-induced permeability reduction is smaller in samples from greater depth, where pre-existing fabric from compaction and lithification may be better developed. Our results indicate that localized shearing in fault zones should result in heterogeneous permeability in the uppermost few kilometers in accretionary prisms, which favors both the trapping of fluids beneath and within major faults, and the channeling of flow parallel to fault structure. These low permeabilities promote the development of elevated pore fluid pressures during accretion and underthrusting, and will also facilitate dynamic hydrologic processes within shear zones including dilatancy hardening and thermal pressurization. Abstract Copyright (2012) Elsevier, B.V.
Coverage:
West: 134.0000 East: 137.0000 North: 34.0000 South: 32.0000
Relations:
Expedition: 190
Site: 190-1173
Site: 190-1174
Expedition: 196
Site: 196-1173
Expedition: 314
Site: 314-C0001
Site: 314-C0004
Expedition: 315
Site: 315-C0001
Expedition: 316
Site: 316-C0004
Site: 316-C0008
Data access:
Provider: SEDIS Publication Catalogue
Data set link: http://sedis.iodp.org/pub-catalogue/index.php?id=10.1016/j.margeo.2011.11.006 (c.f. for more detailed metadata)
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