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Epistemic uncertainty in California-wide simulations of synthetic seismicity Fred Pollitz, USGS Menlo Park Acknowledgments: David Schwartz, Steve Ward.

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Presentation on theme: "Epistemic uncertainty in California-wide simulations of synthetic seismicity Fred Pollitz, USGS Menlo Park Acknowledgments: David Schwartz, Steve Ward."— Presentation transcript:

1 Epistemic uncertainty in California-wide simulations of synthetic seismicity Fred Pollitz, USGS Menlo Park Acknowledgments: David Schwartz, Steve Ward

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3 Ward (2000)

4 Rundle et al. (2008)

5 Capabilities of this simulator

6 Inherently discrete fault zone Inherently discrete fault zone (Ben-Zion and Rice model) (Ben-Zion and Rice model) Homogeneous, planar faults Homogeneous, planar faults Viscoelasticity of lower crust/upper mantle Viscoelasticity of lower crust/upper mantle --> loading through backslip in the --> loading through backslip in the fully relaxed limit fully relaxed limit

7 Fault network and slip rates courtesy of Steve Ward (June, 2009) Original set of ~4 x 3 km 2 patches are re-grouped and subdivided into set of smoothly-connected, non-overlapping ~1 x 1 km 2 patches 101208 fault patches

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16 Stress history on a single fault patch Static frictional stress Dynamic frictional stress Arrest stress Dynamic overshoot parameter: Stress reduction parameter:  =  s -  a D =  s -  a )/(  s -  d )

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19 Simulator parameters Dynamic overshoot parameter: Stress reduction parameter:  =  s -  a D =  s -  a )/(  s -  d ) Shape of slip-weakening curve Mantle viscosity  m

20 Twenty consecutive M>6.7 ruptures M6.9

21 M7.2

22 M7.0

23 M7.6

24 M6.7

25 M7.5

26 M7.6

27 M7.2

28 M6.7

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30 M7.7

31 M7.3

32 M7.5

33 M7.3

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35 M7.2

36 M6.7

37 M7.2

38 M7.3

39 M7.5

40 mean recurrence interval (for given magnitude threshold) magnitude-frequency statistics, e.g. b-value coefficient of variation conditional rupture probability Simulator results

41 Hanks and Bakun (2007 )

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44 Magnitude-frequency statistics

45 magnitude log 10 [earthquake production rate (yr -1 )] With slip weakening D=1.25  m = 1.2 x 10 19 Pa s

46 With slip weakening D=1.25  m = 1.2 x 10 19 Pa s

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48 Low Mantle Viscosity

49 High Mantle Viscosity

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52 magnitude log 10 [earthquake production rate (yr -1 )]

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55 Fault system behavior is sensitive to simple parameters Simulations capture Gutenberg-Richter and characteristic-earthquake behavior Comparison of slip maps for the southern SAF suggests that the ‘slip barrier’ nature of a segment boundary depends substantially on mantle viscosity Characteristic magnitude and mean recurrence interval may exhibit a systematic dependence on mantle viscosity Conclusions

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