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Subduction Fluids Channelled to Forearc Mantle Corner:

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1 Subduction Fluids Channelled to Forearc Mantle Corner:
ETS and Vp/Vs-defined Silica Deposition in Cascadia R.D. Hyndman1,2, P.A. McCrory3 A.G. Wech4, H. Kao1,2, and J. Ague5 1,2Pacific Geoscience Centre, Geol. Surv. Canada and Univ. Victoria 3U.S. Geological Survey, Menlo Park, Ca 4U.S. Geol. Survey, Alaska Volcano Obs., Anchorage, AK 5Yale University, New Haven, Connecticut R.D. Hyndman Pacific Geoscience Centre Geological Survey of Canada

2 ETS zone is controlled by fluids
expelled into crust at forearc mantle corner Cascadia 3 1 2

3 Episodic Tremor and Slip (ETS)
Seismic tremor with no clear onset Slow slip events on the subd. thrust downdip of seismogenic zone Tremor at 35 km, 500C, where thrust should be aseismic! What generates ETS and what controls controls downdip location? 1. Not continuous with seismogenic zone; ~50 km gap 2. ETS associated with upward fluid expulsion at forearc mantle corner 3. Silica deposition above corner from upward fluid expulsion E Time After Rogers and Dragert (2003)

4 Cascadia Rupture Area Review Hyndman, JGR 2013 Thermal Constraint
Geodetic Data "Locked/transition Zone" 1. Geodetic locked/transition GPS, levelling, tide gauge, etc 2. Thermal constraint, C Heat flow etc. 3. Coseismic subsidence Coastal marsh data 4. Thrust reflection character Thin seismic to thick ductile 5. Forearc basins 6. Landward limit small eqs.

5 Locked/transition zone vs slow slip and tremor
(Wang et al., Kao et al., Wech et al.)

6 Cascadia forearc mantle
corner and ETS tremor Summary McCrory et al., GGG 2014 Corner Tremor Wech et al. (2010)

7 Cascadia forearc mantle corner and ETS tremor
Locked zones: Holtkamp and Brudzinski (2010) Corner: McCrory et al. (2012) transition locked

8 Dehydration fluids of downgoing plate
Channelled to corner by anisotropic sheared serpentinite (based on Kawano et al., 2011)

9 Evidence for fluids in deposited silica
from rising silica saturated fluids SILICA AND SERPENTINITE IN SUBDUCTION FOREARC

10 Quartz veins in Otago Schists accretionary prism
from rising subduction slab-derived water Breeding and Ague (2002)

11 Cascadia shear tomography
Low Poisson's Ratio (and Vp/Vs) over forearc mantle corner <0.22, only silica is that low Poisson's Ratio related to Vp/Vs Ramachandran and Hyndman (2010)

12 Low Poisson’s Ratio corresponds To tremor location

13 Other Hot Subduction Zones
For both SW Japan and Mexico, ETS lies approx. over forearc mantle corner SW Japan has older subducting crust and is cooler than Cascadia. Its thermally limited seismogenic zone extends nearly to forearc mantle corner so a smaller gap Mexico subduction zone has variable age subducting crust; there is a gap between seismogenic zone and ETS (and mantle corner) for hotter northern part

14 Summary 1. Gap between Cascadia seismic rupture zone and ETS slow slip 2. ETS not T controlled 3. ETS Overlies mantle corner 4. Low permeability and anisotropic serpentinite channel fluids from dehydrating ocean crust to the corner 5. Low Poisson's Ratio evidence for silica saturated fluids in crust overlying corner. Quartz veins formed with fluid cooling above corner Thank you Roy Hyndman, PGC-GSC


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