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Geology 492/692 Field Project Hoping to put Fernley and Hazen on the Fault Map ReMi Data.

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Presentation on theme: "Geology 492/692 Field Project Hoping to put Fernley and Hazen on the Fault Map ReMi Data."— Presentation transcript:

1 Geology 492/692 Field Project Hoping to put Fernley and Hazen on the Fault Map ReMi Data

2 Refraction Microtremor (ReMi) Method Developed to provide quick an easy site specific shaking hazard assessment. Uses microtremor noise as source. Rayleigh-wave phase-velocity dispersion curves are picked to determine the slowest surface wave velocities at any given frequency. Forward modeled to produce a shear-velocity-depth sounding. Can estimate shear velocity with 20% accuracy to depths of up to 100m. Average V 30 can be estimated.

3 Using ReMi to Find Faults? Theoretically possible if fault offset displaces units with observably different shear wave velocities. Might be able to detect rubble zones or flower structures. Likely not a marketable method for fault hunting.

4 This Study Characterized V 30 at 20 sites. –8 Northern Fernley Hills –12 Hazen Flat Fernley studies conducted with 24 channel, 10 m spacing, Bison line. Hazen Studies conducted with a 20 Texan, 10 m spacing array.

5 Location

6 Results (Fernley)

7 Results (Hazen)

8 Data Comparison (Fernley West)

9 Data Comparison (Fernley East)

10 Data Comparison (Hazen South)

11 Data Comparison (Hazen North)

12 Conclusions ReMi “anomalies” do align themselves with observed anomalies from other techniques about 75% of the time. However, ReMi did not confidently determine the location of any structures. Best as a corroborative technique for fault hunting.

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