1 / 16

ReMi Applied Geophysics Spring Break 2010

ReMi Applied Geophysics Spring Break 2010. Fariha Islam Gretchen Schmauder. Question. Can the ReMi method be used to locate faults in the Reno Basin?. Area Geology. NE trending faults Lacustrine, fluvial, and alluvial fan deposits Tertiary volcanic basement Active hot springs.

leal
Download Presentation

ReMi Applied Geophysics Spring Break 2010

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. ReMi Applied GeophysicsSpring Break 2010 Fariha Islam Gretchen Schmauder

  2. Question • Can the ReMi method be used to locate faults in the Reno Basin?

  3. Area Geology • NE trending faults • Lacustrine, fluvial, and alluvial fan deposits • Tertiary volcanic basement • Active hot springs Abbott and Louie (2000)

  4. Project Constraints • Sedimentary cover can be greater than 1000 meters thick (Abbott and Louie, 2000). • ReMi method typically used to depths less than 100 meters.

  5. ReMi Method • Surface wave velocity spectral analysis used to determine shallow earth structures • Typically used to determine IBC site classification, rippability, void detection, and fault mapping.

  6. ReMi Method Fundamental Mode Rayleigh Wave Transect 3 along lakeside dr.

  7. ReMi Survey Transect 4 along lakeside dr.

  8. Survey location Scott et al. (2004)

  9. 20 Transects along Manzanita Ln and adjacent streets

  10. First order: shear velocity correlates to surficial geology

  11. Second order: shear velocity correlates to depth to bedrock Abbott and Louie (2000) Frary (2009)

  12. Third order: correlation between shear velocity and faults?

  13. Conclusions • Transect velocity models reflect regional geology and depth to bedrock • Correlation between velocity models and faults is inconclusive • Indication that the alluvium has a lower shear velocity due to faulting

  14. Further Work • Additional ReMi lines south of Manzanita Lane to verify higher velocity in alluvium • Better constraint on area faulting

  15. references

More Related