Recent faulting in western Nevada revealed by multi-scale seismic reflection

Roxanna N. Frary; John N. Louie; William J. Stephenson; Jackson K. Odum; Annie Kell; Amy Eisses; Graham M. Kent; Neal W. Driscoll; Robert Karlin; Robert L. Baskin; Satish Pullammanappallil; Lee M. Liberty

doi:10.1190/1.3627458

Recent faulting in western Nevada revealed by multi-scale seismic reflection

Roxanna N. Frary, John N. Louie, William J. Stephenson, Jackson K. Odum, Annie Kell, Amy Eisses, Graham M. Kent, Neal W. Driscoll, Robert Karlin, Robert L. Baskin, Satish Pullammanappallil, Lee M. Liberty

Geosciences Department

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

The main goal of this study is to compare different reflection methods used to image subsurface structure within different physical environments in western Nevada. With all the methods employed, the primary goal is fault imaging for structural information toward geothermal exploration and seismic hazard estimation. We use seismic CHIRP a swept-frequency marine acquisition system, weight drop an accelerated hammer source, and two different vibroseis systems to characterize fault structure. We focused our efforts in the Reno metropolitan area and the area within and surrounding Pyramid Lake in northern Nevada. These different methods have provided valuable constraints on the fault geometry and activity, as well as associated fluid movement. These are critical in evaluating the potential for large earthquakes in these areas, and geothermal exploration possibilities near these structures.

Original language	English
Pages (from-to)	1373-1377
Number of pages	5
Journal	SEG Technical Program Expanded Abstracts
Volume	30
Issue number	1
DOIs	https://doi.org/10.1190/1.3627458
State	Published - Jan 2011

Keywords

Acquisition
Earthquake
Faults
Geothermal
Water

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1190/1.3627458

Cite this

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title = "Recent faulting in western Nevada revealed by multi-scale seismic reflection",

abstract = "The main goal of this study is to compare different reflection methods used to image subsurface structure within different physical environments in western Nevada. With all the methods employed, the primary goal is fault imaging for structural information toward geothermal exploration and seismic hazard estimation. We use seismic CHIRP a swept-frequency marine acquisition system, weight drop an accelerated hammer source, and two different vibroseis systems to characterize fault structure. We focused our efforts in the Reno metropolitan area and the area within and surrounding Pyramid Lake in northern Nevada. These different methods have provided valuable constraints on the fault geometry and activity, as well as associated fluid movement. These are critical in evaluating the potential for large earthquakes in these areas, and geothermal exploration possibilities near these structures.",

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AU - Frary, Roxanna N.

AU - Louie, John N.

AU - Stephenson, William J.

AU - Odum, Jackson K.

AU - Kell, Annie

AU - Eisses, Amy

AU - Kent, Graham M.

AU - Driscoll, Neal W.

AU - Karlin, Robert

AU - Baskin, Robert L.

AU - Pullammanappallil, Satish

AU - Liberty, Lee M.

PY - 2011/1

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N2 - The main goal of this study is to compare different reflection methods used to image subsurface structure within different physical environments in western Nevada. With all the methods employed, the primary goal is fault imaging for structural information toward geothermal exploration and seismic hazard estimation. We use seismic CHIRP a swept-frequency marine acquisition system, weight drop an accelerated hammer source, and two different vibroseis systems to characterize fault structure. We focused our efforts in the Reno metropolitan area and the area within and surrounding Pyramid Lake in northern Nevada. These different methods have provided valuable constraints on the fault geometry and activity, as well as associated fluid movement. These are critical in evaluating the potential for large earthquakes in these areas, and geothermal exploration possibilities near these structures.

AB - The main goal of this study is to compare different reflection methods used to image subsurface structure within different physical environments in western Nevada. With all the methods employed, the primary goal is fault imaging for structural information toward geothermal exploration and seismic hazard estimation. We use seismic CHIRP a swept-frequency marine acquisition system, weight drop an accelerated hammer source, and two different vibroseis systems to characterize fault structure. We focused our efforts in the Reno metropolitan area and the area within and surrounding Pyramid Lake in northern Nevada. These different methods have provided valuable constraints on the fault geometry and activity, as well as associated fluid movement. These are critical in evaluating the potential for large earthquakes in these areas, and geothermal exploration possibilities near these structures.

KW - Acquisition

KW - Earthquake

KW - Faults

KW - Geothermal

KW - Water

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JO - SEG Technical Program Expanded Abstracts

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Recent faulting in western Nevada revealed by multi-scale seismic reflection

Abstract

Keywords

UN SDGs

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