1932 Cedar Mountain earthquake

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1932 Cedar Mountain earthquake
Relief map of U.S., Nevada.png
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Reno
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Las Vegas
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UTC  time1932-12-21 06:10:10
ISC  event 906508
USGS-ANSS ComCat
Local dateDecember 20, 1932
Magnitude7.3 Ms [1]
Depth10.0 km
Epicenter 38°37′52″N117°54′36″W / 38.631°N 117.910°W / 38.631; -117.910
FaultCentral Nevada Seismic Belt, Walker Lane Seismic Zone
TypeStrike-slip (dextral)
Areas affected Nevada, United States
Total damageLimited
Max. intensity MMI X (Extreme) [2]
Casualtiesat least 1 injured

The Cedar Mountain earthquake of 1932 was one of the largest seismic events in the US state of Nevada. The Ms 7.3 earthquake struck at Cedar Mountain in Western Nevada. Shaking was felt as far as Oregon, Southern California, and the Rocky Mountains area. Nevada is the third most seismically active state in the United States due to ongoing rifting occurring within the North American plate. Extension or thinning of the crust has resulted in numerous faults accommodating strain, at the same time, producing earthquakes. [3] Since the earthquake occurred in a remote part of the state, damage was limited and no deaths were reported.

Contents

Tectonic setting

Western Nevada lies along the edge of the geologic province known as the Basin and Range. This area of rifting within the North American continent does so in a northwest–southeast direction. Extension of the crust has resulted in a diffuse area of low slip rate faults. [4] This network of predominantly strike-slip and normal faults termed the Central Nevada Seismic Belt (CNSB) occasionally undergoes large "beltlike" earthquake sequences to help accommodate regional stresses with multiple sequences having occurred in the past 13,000 years. [5] This earthquake occurred in the beginning portion of the most recent earthquake sequence, with the 1915 Pleasant Valley earthquake and 1954 Rainbow Mountain-Fairview Peak-Dixie Valley earthquakes also being associated. [5] Further to the west near the border with California, earthquakes become predominantly strike slip along a shear zone known as the Walker Lane which has hosted earthquakes such as the 1872 Owens Valley earthquake.

Earthquake

The earthquake occurred along a zone of strike-slip faults creating surface ruptures 60 km (37 mi) long and 6–14 km (3.7–8.7 mi) wide, trending southeast from the epicenter. [6] [7] Rupture was distributed across faults spanning three valleys and several mountain fronts including the Stewart-Monte Cristo Valley Fault Zone, and several small, unnamed faults in the Stewart and Gabbs Valleys. Maximum displacement was recorded at 2.7 m (8 ft 10 in), with some dip-slip (normal) offset at 0.5 m (1 ft 8 in). [6] [8] During the earthquake, many eyewitness reported lightning bolts and "mysterious lights" in Carson Valley. Shaking reached the maximum of X (Extreme) on the Mercalli intensity scale in Nevada, and overall, was felt for an area size of 850,000 square km. [6] [9] This complicated strike-slip earthquake between two mountain ranges was similar to that of the Owens Valley earthquake of 1872.

Impact

At the time of the earthquake, the region was uninhabited however, an adobe and stone cabin were destroyed with no injuries. Some damage to mine property and cabins were observed. [10] At Mina, Hawthorne and Luning, the earthquake collapsed chimneys and shattered windows. Chimney damage were also reported in Fallon and the Reese River Valley. In Rhodes, a man suffered a fractured skull when the earthquake threw him against a train engine. [11] The shaking created panic in Carson City, Virginia City, Reno and even in Sacramento, California. [11]

Related Research Articles

<span class="mw-page-title-main">Earthquake</span> Sudden movement of the Earths crust

An earthquake – also called a quake, tremor, or temblor – is the shaking of the Earth's surface resulting from a sudden release of energy in the lithosphere that creates seismic waves. Earthquakes can range in intensity, from those so weak they cannot be felt, to those violent enough to propel objects and people into the air, damage critical infrastructure, and wreak destruction across entire cities. The seismic activity of an area is the frequency, type, and size of earthquakes experienced over a particular time. The seismicity at a particular location in the Earth is the average rate of seismic energy release per unit volume.

<span class="mw-page-title-main">Garlock Fault</span> Fault running along the margins of the Mojave Desert of Southern California, United States

The Garlock Fault is a left-lateral strike-slip fault running northeast–southwest along the north margins of the Mojave Desert of Southern California, for much of its length along the southern base of the Tehachapi Mountains.

<span class="mw-page-title-main">Fault scarp</span> Small vertical offset on the ground surface

A fault scarp is a small step-like offset of the ground surface in which one side of a fault has shifted vertically in relation to the other. The topographic expression of fault scarps results from the differential erosion of rocks of contrasting resistance and the displacement of land surface by movement along the fault. Differential movement and erosion may occur either along older inactive geologic faults, or recent active faults.

<span class="mw-page-title-main">San Jacinto Fault Zone</span> Southern Californian fault zone

The San Jacinto Fault Zone (SJFZ) is a major strike-slip fault zone that runs through San Bernardino, Riverside, San Diego, and Imperial Counties in Southern California. The SJFZ is a component of the larger San Andreas transform system and is considered to be the most seismically active fault zone in the area. Together they relieve the majority of the stress between the Pacific and North American tectonic plates.

<span class="mw-page-title-main">1931 Valentine earthquake</span> Most powerful earthquake in Texas history

In the early morning hours of August 16, 1931, a powerful earthquake occurred in West Texas with a maximum Mercalli intensity of VIII (Severe). Estimates of its magnitude range between 5.8 and 6.4 mb, making it the most powerful earthquake ever recorded in Texas history. Its epicenter was near the town of Valentine, Texas; there, the earthquake caused damage to many homes and buildings. The earthquake may have been caused by movement along oblique-slip faulting in West Texas, the most seismically active region in the state. Shaking from the earthquake was perceptible within a 400 mi (640 km) radius of the epicenter, affecting four U.S. states and northern Mexico. Several foreshocks and aftershocks accompanied the primary temblor, with the aftershocks continuing until at least November 3, 1931. The main earthquake caused no fatalities, though several people sustained minor injuries; the damage in Valentine amounted to $50,000–$75,000.

The 1986 Chalfant Valley earthquake struck southern Mono County near Bishop and Chalfant, California at 07:42:28 Pacific Daylight Time on July 21. With a moment magnitude of 6.2 and a maximum Mercalli intensity of VI (Strong), the shock injured two people and caused property damage estimated at $2.7 million in the affected areas. There was a significant foreshock and aftershock sequence that included a few moderate events, and was the last in a series of three earthquakes that affected southern California and the northern Owens Valley in July 1986.

The 1812 San Juan Capistrano earthquake, also known simply as the Capistrano earthquake or the Wrightwood earthquake, occurred on December 8 at 15:00 UTC in Alta California. At the time, this was a colonial territory of the Spanish Empire. Damage occurred at several of the missions in the region of Pueblo de Los Ángeles, including Mission San Gabriel Arcángel and Mission San Juan Capistrano, where 40 parishioners were killed during the collapse of a church at an early morning service. Tree ring and paleoseismic evidence show that there is a strong likelihood that the earthquake originated along the Mojave segment of the San Andreas Fault near Wrightwood, but other faults have been suggested as the cause.

The 1892 Vacaville–Winters earthquakes occurred in northern California as a large doublet on April 19 and April 21. Measured on a seismic scale that is based on an isoseismal map or the event's felt area, the 6.4 Mla and 6.2 Mla  events were assigned a maximum Mercalli intensity of IX (Violent), and affected the North Bay and Central Valley areas. The total damage was estimated to be between $225,000 and 250,000 and one person was killed. No evidence of fault movement on the surface of the ground was observed as a result of either of the strong shocks. Both occurred in the domain of the San Andreas strike-slip system of faults, but their focal mechanism is uncertain.

The 1838 San Andreas earthquake is believed to be a rupture along the northern part of the San Andreas Fault in June 1838. It affected approximately 100 km of the fault, from the San Francisco Peninsula to the Santa Cruz Mountains. It was a strong earthquake, with an estimated moment magnitude of 6.8 to 7.2, making it one of the largest known earthquakes in California. The region was lightly populated at the time, although structural damage was reported in San Francisco, Oakland, and Monterey. It is unknown whether there were fatalities. Based on geological sampling, the fault created approximately 1.5 meters of slip.

Meers Fault is a fault in Oklahoma that extends from Kiowa County to Comanche County. It is marked by a 22–26 kilometers (14–16 mi) long conspicuous fault scarp but the fault extends beyond the ends of this scarp. The Meers fault is part of a group of faults that lie between the Anadarko Basin and the Wichita Mountains.

The 2019 Ridgecrest earthquakes of July 4 and 5 occurred north and northeast of the town of Ridgecrest, California located in Kern County and west of Searles Valley. They included three initial main shocks of Mw magnitudes 6.4, 5.4, and 7.1, and many perceptible aftershocks, mainly within the area of the Naval Air Weapons Station China Lake. Eleven months later, a Mw  5.5 aftershock took place to the east of Ridgecrest. The first main shock occurred on Thursday, July 4 at 10:33 a.m. PDT, approximately 18 km (11.2 mi) ENE of Ridgecrest, and 13 km (8.1 mi) WSW of Trona, on a previously unnoticed NE-SW trending fault where it intersects the NW-SE trending Little Lake Fault Zone. This quake was preceded by several smaller earthquakes, and was followed by more than 1,400 detected aftershocks. The M 5.4 and M 7.1 quakes struck on Friday, July 5 at 4:08 a.m. and 8:19 p.m. PDT approximately 10 km (6 miles) to the northwest. The latter, now considered the mainshock, was the most powerful earthquake to occur in the state in 20 years. Subsequent aftershocks extended approximately 50 km (~30 miles) along the Little Lake Fault Zone.

On May 15, 2020, at 4:03:27 local time, a magnitude 6.5 earthquake struck ~35 miles (56 km) west of Tonopah, Nevada in the Monte Cristo Range near the California-Nevada border. It was Nevada's largest earthquake in 66 years.

The 1934 Hansel Valley earthquake occurred on March 12 at approximately 8:05 a.m. MST with a moment magnitude of 6.6 and a maximum Mercalli intensity of VIII (Severe). The shock originated in the Hansel Valley at the north end of the Great Salt Lake in Utah in the United States. Damage was mostly confined to vulnerable buildings, and two people died. The dip-slip (normal) fault that generated the shock ruptured the surface of the ground and other geologic features were documented. A large aftershock occurred three hours after the initial event and may have caused additional damage.

The 2020 Central Idaho earthquake occurred in the western United States on March 31, 2020, at 5:52 PM MDT, near Ruffneck Peak in the Sawtooth Mountains of central Idaho, 72 miles (116 km) northeast of Boise and 19 miles (31 km) northwest of Stanley. It had a magnitude of 6.5 and was felt with a maximum intensity of VIII.

In 1954, the state of Nevada was struck by a series of earthquakes that began with three magnitude 6.0+ events in July and August that preceded the Mw  7.1–7.3 mainshock and M 6.9 aftershock, both on December 12. All five earthquakes are among the largest in the state, and the largest since the Cedar Mountain earthquake of 1932 and Pleasant Valley event in 1915. The earthquake was felt throughout much of the western United States.

The 1968 Borrego Mountain earthquake occurred on April 8, at 18:28 PST in the geologically active Salton Trough of Southern California. The Salton Trough represents a pull-apart basin formed by movements along major faults. This region is dominated by major strike-slip faults one of them being the San Jacinto Fault which produced the 1968 earthquake. The mainshock's epicenter was near the unincorporated community of Ocotillo Wells in San Diego County. The moment magnitude (Mw ) 6.6 strike-slip earthquake struck with a focal depth of 11.1 km (6.9 mi). The zone of surface rupture was assigned a maximum Modified Mercalli intensity (MMI) of VII.

The 1997 Bojnurd earthquake occurred on 4 February at 14:07 IRST in Iran. The epicenter of the Mw 6.5 earthquake was in the Kopet Dag mountains of North Khorasan, near the Iran–Turkmenistan border, about 579 km (360 mi) northeast of Tehran. The earthquake is characterized by shallow strike-slip faulting in a zone of active faults. Seismic activity is present as the Kopet Dag is actively accommodating tectonics through faulting. The earthquake left 88 dead, 1,948 injured, and affected 173 villages, including four which were destroyed. Damage also occurred in Shirvan and Bojnord counties. The total cost of damage was estimated to be over US$ 30 million.

The Keichō–Fushimi earthquake struck Japan on September 5, 1596. The earthquake measuring 7.5 ± 0.25 MJMA produced intense shaking across the Kansai region. Devastation was recorded in Kyoto and over 1,200 people perished.

The 1871–72 Quchan earthquakes which affected present-day Razavi Khorasan province occurred less than a month apart. The first earthquake, measuring Mw 7.1, occurred on 23 December 1871, was followed by a Mw  7.0 earthquake in the same area on 6 January 1872. Altogether, these earthquakes killed at least 6,000 people in the Quchan area.

References

  1. International Seismological Centre. Event Bibliography. Thatcham, United Kingdom.[Event  906508 ].
  2. "M 6.8 – The 1932 Cedar Mountain Earthquake, Nevada". United States Geological Survey. Retrieved 17 February 2022.
  3. Price, Jon (2004). "Geology of Nevada" (PDF). University of Nevada, Reno. Retrieved 29 November 2020.
  4. Price, Jonathan G. (2004). "Geology of Nevada" (PDF). University of Nevada, Reno.
  5. 1 2 Bell, John W.; Caskey, John S.; Ramelli, Alan R.; Guerrieri, Luca (1 August 1994). "Pattern and Rates of Faulting in the Central Nevada Seismic Belt, and Paleoseismic Evidence for Prior Beltlike Behavior". Bulletin of the Seismological Society of America. 94 (4): 1229–1254. doi:10.1785/012003226 . Retrieved 20 August 2022.
  6. 1 2 3 DEPOLO, CRAIG M.; CLARK, DOUGLAS G.; SLEMMONS, D. BURTON; RAMELLI, ALAN R. (20 June 1990). "Historical surface faulting in the Basin and Range province, western North America: implications for fault segmentation". Journal of Structural Geology. 13: 128. CiteSeerX   10.1.1.508.4239 .
  7. Molinari, Mark Philip (December 1984). "Late Cenozoic geology and tectonics of Stewart and Monte Cristo Valleys, west-central Nevada" (PDF). Dissertation. University of Nevada, Reno.
  8. J.W. Bell; C.M. DePolo; A.R. Ramelli; A. M. Sarna-Wojcicki; C.E. Meyer (1999). "Surface faulting and paleoseismic history of the 1932 Cedar Mountain earthquake area, west-central Nevada, and implications for modern tectonics of the Walker Lane". Geological Society of America Bulletin. 111 (6). United States Geological Survey: 17. Bibcode:1999GSAB..111..791B. doi:10.1130/0016-7606(1999)111<0791:SFAPHO>2.3.CO;2.
  9. "Significant Earthquake Information NEVADA: CEDAR MOUNTAIN". NOAA NCEI. Retrieved 29 November 2020.
  10. "Earthquake History of Nevada". CarsonWeather.com. Retrieved 29 November 2020.
  11. 1 2 "Nevada's Earthquake History" (PDF). shakeout.org. Retrieved 29 November 2020.

Further reading