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Monte Cristo Range

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Journal Article
Published: 08 March 2023
Bulletin of the Seismological Society of America (2023) 113 (3): 948–975.
...Israporn Sethanant; Edwin Nissen; Léa Pousse‐Beltran; Eric Bergman; Ian Pierce ABSTRACT The 15 May 2020 M w 6.5 Monte Cristo Range earthquake (MCRE) in Nevada, United States, is the largest instrumental event in the Mina deflection—a zone of east‐trending left‐lateral faults accommodating a right...
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Journal Article
Published: 13 July 2021
Bulletin of the Seismological Society of America (2021) 111 (6): 3226–3236.
...Chengli Liu; Thorne Lay; Fred F. Pollitz; Jiao Xu; Xiong Xiong ABSTRACT The largest earthquake since 1954 to strike the state of Nevada, United States, ruptured on 15 May 2020 along the Monte Cristo range of west‐central Nevada. The M w 6.5 event involved predominantly left‐lateral strike‐slip...
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Journal Article
Published: 07 April 2021
Seismological Research Letters (2021) 92 (3): 1876–1890.
...Christine J. Ruhl; Emily A. Morton; Jayne M. Bormann; Rachel Hatch‐Ibarra; Gene Ichinose; Kenneth D. Smith Abstract On 15 May 2020 an M ww 6.5 earthquake occurred beneath the Monte Cristo Range in the Mina Deflection region of western Nevada. Rapid deployment of eight temporary seismic stations...
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Journal Article
Published: 27 January 2021
Seismological Research Letters (2021) 92 (2A): 810–822.
... azimuthal coverage and near‐field recording of the aftershock sequence beginning 1–3 days after the mainshock. We expect the deployment to remain in the field until May 2021. NSL initially attempted to acquire the Monte Cristo Range deployment data in real time via cellular telemetry; however, unreliable...
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Journal Article
Published: 27 January 2021
Seismological Research Letters (2021) 92 (2A): 823–839.
...Rich D. Koehler; Seth Dee; Austin Elliott; Alexandra Hatem; Alexandra Pickering; Ian Pierce; Gordon Seitz Abstract The M 6.5 Monte Cristo Range earthquake that occurred in the central Walker Lane on 15 May 2020 was the largest earthquake in Nevada in 66 yr and resulted in a multidisciplinary...
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Journal Article
Published: 16 December 2020
Seismological Research Letters (2021) 92 (2A): 647–662.
...William C. Hammond; Geoffrey Blewitt; Corné Kreemer; Richard D. Koehler; Seth Dee Abstract The 15 May 2020, M 6.5 Monte Cristo Range, Nevada earthquake (MCE) occurred inside the footprint of the semicontinuous MAGNET and continuous Network of the Americas Global Positioning System (GPS) networks...
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Journal Article
Published: 01 January 1974
Journal of Paleontology (1974) 48 (1): 149–169.
...R. W. Pierce; R. L. Langenheim Abstract Fourteen species (four subspecies), ranges GeoRef, Copyright 2004, American Geological Institute. 1974 ...
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Tectonic setting of the 2020 <span class="search-highlight">Monte</span> <span class="search-highlight">Cristo</span> <span class="search-highlight">Range</span> earthquake (MCRE). (a) Regi...
Published: 08 March 2023
Figure 1. Tectonic setting of the 2020 Monte Cristo Range earthquake (MCRE). (a) Regional context of the eastern California shear zone (ECSZ) and Walker Lane (WL). (b) A zoom in of the Walker Lane. The red star is our relocated MCRE epicenter, and yellow stars indicate historic earthquake
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Hazard estimates for SA (1.0 s) for the location of the <span class="search-highlight">Monte</span> <span class="search-highlight">Cristo</span> <span class="search-highlight">Range</span> ...
Published: 01 May 2021
Figure 13. Hazard estimates for SA (1.0 s) for the location of the Monte Cristo Range earthquake. All hazard curves are computed using only the ASK14 GMPE.
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Earthquake statistics of the <span class="search-highlight">Monte</span> <span class="search-highlight">Cristo</span> <span class="search-highlight">Range</span> aftershocks. (a) Comparison...
Published: 07 April 2021
Figure 3. Earthquake statistics of the Monte Cristo Range aftershocks. (a) Comparison of NSL local magnitudes ( M L ) with body‐wave‐based moment magnitudes ( M w ) determined from moment tensor solutions. Solid line represents the best‐fit relationship between the magnitude types
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<span class="search-highlight">Monte</span> <span class="search-highlight">Cristo</span> <span class="search-highlight">Range</span> earthquake sequence map. (a) Sequence map showing the lo...
Published: 27 January 2021
Figure 1. Monte Cristo Range earthquake sequence map. (a) Sequence map showing the location of the M ww  6.5 mainshock and 13,000+ aftershocks (gray circles with size scaled by magnitude), surface rupture associated with the M ww  6.5 mainshock (red lines, Dee et al. , 2020
Journal Article
Published: 20 January 2021
Seismological Research Letters (2021) 92 (2A): 840–848.
...Brendan W. Crowell Abstract In early 2020, four moderate sized earthquakes occurred in the Intermountain region of the western United States, two M 6.5 events in Challis, Idaho, and Monte Cristo Range, Nevada; an M 5.7 in Magna, Utah, within the Salt Lake City metropolitan area; and an M 5.8...
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Hazard estimates for peak acceleration for the location of the <span class="search-highlight">Monte</span> <span class="search-highlight">Cristo</span>...
Published: 01 May 2021
Figure 12. Hazard estimates for peak acceleration for the location of the Monte Cristo Range earthquake. All hazard curves are computed using only the ASK14 GMPE.
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P ‐wave detection signal‐to‐noise ratio (SNR) for the eight <span class="search-highlight">Monte</span> <span class="search-highlight">Cristo</span> Ra...
Published: 27 January 2021
Figure 6. P ‐wave detection signal‐to‐noise ratio (SNR) for the eight Monte Cristo Range temporary sites and the two closest permanent, three‐component, telemetered sites (NV31 and LHV) by corresponding event magnitude.
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(a) Regional seismotectonic map showing the location of the     M  w     6....
Published: 07 April 2021
Figure 1. (a) Regional seismotectonic map showing the location of the M w  6.4 Monte Cristo Range mainshock (yellow star), moment tensor, and aftershock sequence in the context of neighboring faults, recent notable seismic sequences (dashed ellipses with year labeled), and digital seismic
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Log residuals between the Global Positioning System (GPS)‐derived velocitie...
Published: 20 January 2021
Figure 1. Log residuals between the Global Positioning System (GPS)‐derived velocities and the ShakeMap‐inferred peak ground velocities (PGVs) as a function of epicentral distance. The symbols denote the different earthquakes; square, Magna; circle, Lone Pine; triangle, Monte Cristo Range
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Adaptive smoothing of three seismicity catalogs in the vicinity of the <span class="search-highlight">Mont</span>...
Published: 01 May 2021
Figure 11. Adaptive smoothing of three seismicity catalogs in the vicinity of the Monte Cristo Range earthquake. (a) USGS a-grid. (b) Our approximation of the a-grid using the USGS C3 catalog with a simplified model, as described in the text. (c) The a-grid obtained from the MSEQ-PGA catalog
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Location quality with time (mmdd) of automatically located, unreviewed eart...
Published: 27 January 2021
. Earthquake depths of 0 km with corresponding 0 km depth error indicate the event depth could not be constrained. Gray boxes highlight the time frame that Monte Cristo Range temporary seismic stations were incorporated into NSL’s real‐time operations.
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(a) GPS‐derived MMI values based on the  Worden  et al.  (2012)  ground mot...
Published: 20 January 2021
Figure 3. (a) GPS‐derived MMI values based on the Worden et al. (2012) ground motion to intensity conversion equation overlaid on the USGS‐published ShakeMap for the M w  6.5 Monte Cristo Range, Nevada, earthquake. The focal mechanism plot is the NEIC W ‐phase solution plotted
Journal Article
Published: 01 March 2021
Seismological Research Letters (2021) 92 (2A): 636–639.
.... doi: 10.1785/0220200316 . Bormann J. M. Morton E. A. Smith K. D. Kent G. M. Honjas W. S. Plank G. L. , and Williams M. C. 2021 . Nevada Seismological Laboratory rapid seismic monitoring deployment and data availability for the 2020 M 6.5 Monte Cristo Range, Nevada...