1965 Puget Sound earthquake

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1965 Puget Sound earthquake
USA Washington relief location map.jpg
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Olympia
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Seattle
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UTC  time1965-04-29 15:28:45
ISC  event 858143
USGS-ANSS ComCat
Local dateApril 29, 1965 (1965-04-29)
Local time08:28:45 PDT
Magnitude6.7 Mw [1]
Depth59 km (37 mi) [2]
Epicenter 47°24′N122°18′W / 47.4°N 122.3°W / 47.4; -122.3
Type Dip-slip
Areas affected Puget Sound region
Washington
United States
Total damage$12.5–28 million [2]
Max. intensity VIII (Severe)
Peak acceleration0.204 g at Olympia
AftershocksNone
Casualties7 dead

The 1965 Puget Sound earthquake occurred at 08:28 AM PDT (15:28 UTC) on April 29 within the Puget Sound region of Washington state. It had a magnitude of 6.7 on the moment magnitude scale and a maximum perceived intensity of VIII (Severe) on the Mercalli intensity scale. It caused the deaths of seven people and about $12.5–28 million in damage. [2] [3] There were no recorded aftershocks. [4]

Contents

Tectonic setting

The western part of Washington State lies above the Cascadia subduction zone, where the Juan de Fuca Plate is being subducted beneath the North American Plate. The seismicity of this region consists of rare great megathrust earthquakes, like the 1700 Cascadia earthquake and more common earthquakes originating from within the subducting slab. These events relate to normal faulting, associated with the bending of the slab, possibly related to a phase change below about 40 km from basalt/gabbro to eclogite. [5]

Earthquake

The earthquake had an estimated magnitude of 6.6 Ms , 6.5 mb and 6.7 Mw . [1] [2] At 10–20 seconds the duration of strong ground motion was relatively short. [6] The earthquake's focal mechanism indicates that it resulted from normal faulting within the Juan de Fuca slab. There were no recorded aftershocks, similar to observations from the 1949 Olympia and 2001 Nisqually earthquakes and a characteristic of such intraslab events. [5]

Damage to the Union Pacific Railway occurred when fill slid away from beneath part of a branch line just outside Olympia 1965 Seattle EQ damage.tif
Damage to the Union Pacific Railway occurred when fill slid away from beneath part of a branch line just outside Olympia

Intensity

The pattern of shaking intensity was somewhat variable, with a large region with an intensity of VII (Very strong) containing localized areas of intensity VIII (Severe). [3] These variations generally relate closely to the underlying geology, with higher intensities recorded where there was either artificial fill or alluvium, although there were some exceptions. [4] The observed pattern of intensities was very similar to those from the 1949 Olympia and 2001 Nisqually earthquakes. [1]

Damage

Three people were killed by falling debris in the Duwamish valley floor area of Seattle, [6] and four others died from heart attacks. [7] There was minor damage recorded over a large area, including fallen chimneys and cracked mortar. The two Boeing plants at Renton and Seattle, both built on artificial fill and mudflats, suffered major damage. [4] The State Capitol building in Olympia suffered cracking to the dome and supporting buttresses, leaving it in a condition where a major aftershock could have caused complete collapse. [8] Single-story unreinforced brick buildings performed the worst in the earthquake with wood-framed structures generally performing very well. [3] Major highways had relatively little damage, with some sections of U.S. Route 101 sinking 1 to 2 feet (0.30 to 0.61 m). The Tacoma Narrows Bridge was closed for 30 minutes as a precaution but reopened with only damage to light fixtures and weather seals on cables. [9]

Ground acceleration

A peak ground acceleration of 0.204g was measured at Olympia. [4]

Aftermath

The damage and deaths in the 1965 earthquake helped bring about the installation of the Pacific Northwest Seismic Network in 1969. [10]

See also

Related Research Articles

<span class="mw-page-title-main">Puget Sound</span> Deep water sound of the Salish Sea in northwestern Washington, United States

Puget Sound is a sound on the northwestern coast of the U.S. state of Washington. It is a complex estuarine system of interconnected marine waterways and basins. A part of the Salish Sea, Puget Sound has one major and two minor connections to the Strait of Juan de Fuca, which in turn connects to the open Pacific Ocean. The major connection is Admiralty Inlet; the minor connections are Deception Pass and the Swinomish Channel.

<span class="mw-page-title-main">Intraplate earthquake</span> Earthquake that occurs within the interior of a tectonic plate

An intraplate earthquake is an earthquake that occurs in the interior of a tectonic plate, in contrast to an interplate earthquake on the boundary of a tectonic plate. It is also called an intraslab earthquake, especially when occurring in a microplate.

<span class="mw-page-title-main">2001 Nisqually earthquake</span> Severe earthquake in Washington, US

The 2001 Nisqually earthquake occurred at 10:54:32 local time on February 28, 2001, and lasted nearly a minute. The intraslab earthquake had a moment magnitude of 6.8 and a maximum Mercalli intensity of VIII (Severe). The epicenter was in the southern Puget Sound, northeast of Olympia, but the shock was felt in Oregon, British Columbia, eastern Washington, and Idaho. This was the most recent of several large earthquakes that occurred in the Puget Sound region over a 52-year period and caused property damage valued at $1–4 billion. One person died of a heart attack and several hundred were injured.

<span class="mw-page-title-main">1700 Cascadia earthquake</span> Megathrust earthquake in the North West Pacific region

The 1700 Cascadia earthquake occurred along the Cascadia subduction zone on January 26, 1700, with an estimated moment magnitude of 8.7–9.2. The megathrust earthquake involved the Juan de Fuca Plate from mid-Vancouver Island, south along the Pacific Northwest coast as far as northern California. The plate slipped an average of 20 meters (66 ft) along a fault rupture about 1,000 kilometers long.

<span class="mw-page-title-main">Seattle Fault</span> Zone of multiple thrust faults that passes through Seattle

The Seattle Fault is a zone of multiple shallow east–west thrust faults that cross the Puget Sound Lowland and through Seattle in the vicinity of Interstate Highway 90. The Seattle Fault was first recognized as a significant seismic hazard in 1992, when a set of reports showed that about 1,100 years ago it was the scene of a major earthquake of about magnitude 7 – an event that entered Native American oral traditions. Extensive research has since shown the Seattle Fault to be part of a regional system of faults.

<span class="mw-page-title-main">Cascadia subduction zone</span> Convergent plate boundary that stretches from northern Vancouver Island to Northern California

The Cascadia subduction zone is a 960 km (600 mi) fault at a convergent plate boundary, about 110–160 km (70–100 mi) off the Pacific coast, that stretches from northern Vancouver Island in Canada to Northern California in the United States. It is capable of producing 9.0+ magnitude earthquakes and tsunamis that could reach 30 m (98 ft). The Oregon Department of Emergency Management estimates shaking would last 5–7 minutes along the coast, with strength and intensity decreasing further from the epicenter. It is a very long, sloping subduction zone where the Explorer, Juan de Fuca, and Gorda plates move to the east and slide below the much larger mostly continental North American Plate. The zone varies in width and lies offshore beginning near Cape Mendocino, Northern California, passing through Oregon and Washington, and terminating at about Vancouver Island in British Columbia.

The Pacific Northwest Seismic Network, or PNSN, collects and studies ground motions from about 400 seismometers in the U.S. states of Oregon and Washington. PNSN monitors volcanic and tectonic activity, gives advice and information to the public and policy makers, and works to mitigate earthquake hazard.

The 1949 Olympia earthquake occurred on April 13 at 11:55:44 local time with a moment magnitude of 6.7 and a maximum Mercalli Intensity of VIII (Severe). The shock was located in the area between Olympia and Tacoma, and was felt throughout the state, as well as parts of Oregon, British Columbia, Idaho, and Montana. It is the largest recorded earthquake to occur in the Puget Sound region of Washington. Eight people were killed, a minimum of 64 people were injured, and the total damage is estimated at $25 million.

<span class="mw-page-title-main">Tacoma Fault</span> Active east–west striking north dipping reverse fault

The Tacoma Fault, just north of the city of Tacoma, Washington, is an active east–west striking north dipping reverse fault with approximately 35 miles (56 km) of identified surface rupture. It is believed capable of generating earthquakes of at least magnitude Mw 7, and there is evidence of such a quake approximately 1,000 years ago, possibly the same earthquake documented on the Seattle Fault 24 miles (38 km) to the north.

<span class="mw-page-title-main">Puget Sound faults</span> Seismic faults in Washington State

The Puget Sound faults under the heavily populated Puget Sound region of Washington state form a regional complex of interrelated seismogenic (earthquake-causing) geologic faults. These include the:

The 1872 North Cascades earthquake occurred at 9:40 p.m. local time on December 14 in central Washington Territory. A maximum Mercalli intensity of VIII (Severe) was assessed for several locations, though less intense shaking was observed at many other locations in Washington, Oregon, and British Columbia. Some of these intermediate outlying areas reported V (Moderate) to VII shaking, but intensities as high as IV (Light) were reported as far distant as Idaho and Montana. Due to the remote location of the mainshock and a series of strong aftershocks, damage to structures was limited to a few cabins close to the areas of the highest intensity.

The 1935 Helena earthquake occurred at 22:48:02 MDT on October 18 in Montana, with an epicenter near Helena. It had a magnitude of 6.2 on the surface wave magnitude scale and a maximum perceived intensity of VIII (Severe) on the Mercalli intensity scale. The temblor on that date was the largest of a series of earthquakes that also included a large aftershock on October 31 of magnitude 6.0 and a maximum intensity of VIII. Two people died in the mainshock and two others died as a result of the October 31 aftershock. Property damage was over $4 million.

An earthquake occurred on 1 June 1786 in and around Kangding, in what is now China's Sichuan province. It had an estimated magnitude of about 7.75 and a maximum perceived intensity of X (Extreme) on the Mercalli intensity scale. The initial quake killed 435 people. After an aftershock ten days later, a further 100,000 died when a landslide dam collapsed across the Dadu river.

<span class="mw-page-title-main">2002 Afyon earthquake</span> Earthquake in Turkey

The Afyon Province of western Turkey was struck by an earthquake measuring 6.5 Mw on 3 February 2002 at 10:11 local time. It had a maximum felt intensity of VIII (Severe) on the Modified Mercalli intensity scale. It damaged hundreds of buildings and caused the deaths of 44 people and a further 318 injuries.

The 1965 Valparaíso earthquake struck near La Ligua in Valparaíso Region, Chile, about 140 km (87 mi) from the capital Santiago on Sunday, March 28 at 12:33 local time. The moment magnitude (Mw ) 7.4–7.6 earthquake killed 400–500 people and inflicted US$1 billion in damage. Many deaths were from El Cobre, a mining location that was wiped out after a series of dam failures caused by the earthquake spilled mineral waste onto the area, burying hundreds of residents. The shock was felt throughout the country and along the Atlantic coast of Argentina.

<span class="mw-page-title-main">1920 Xalapa earthquake</span> Earthquake in Mexico

The 1920 Xalapa earthquake was the deadliest in Mexico's history prior to 1985—killing at least 648 people. It occurred on January 3 at 22:25 local time, during a period of political unrest in the country. Mudflows and landslides triggered by the shock destroyed buildings in rural towns across the states of Veracruz and Puebla, causing most of the deaths. The earthquake was attributed to a shallow fault in the Trans-Mexican Volcanic Belt. It measured moment magnitude 6.3–6.4 and had a hypocenter depth of <15 km (9.3 mi). The Mexican government took immediate action in the aftermath—providing assistance and establishing communication services. Severely damaged towns including Xalapa were rebuilt, while others had to be abandoned. Help to survivors also came from civil society groups, civilians, and the Catholic Church. The earthquake's aftershocks were studied by scientists to determine its seismological characteristics.

The 1942 Ecuador earthquake or the Guayaquil earthquake occurred on 13 May at 9:06 or 9:13 pm local time with a moment magnitude of Mw  7.9. The temblor struck the coastal (Esmeraldas) region of Manabí Province, Ecuador. It caused damage mainly to cities including Guayaquil, Portoviejo and Guaranda. More than 300 people were killed and the total cost of damage was about US$2.5 million. Ecuador's largest city Guayaquil was the most affected despite the significant distantce from the epicenter. Many reinforced concrete structures in a particular area in the city were completely destroyed, contributing to fatalities.

<span class="mw-page-title-main">1867 Java earthquake</span> Earthquake in the Dutch East Indies (present-day Indonesia)

The 1867 Central Java earthquake occurred on June 10 at between 04:20 and 04:30 local time. It struck off the southern coast of the Indonesian island with an estimated moment magnitude of 7.8 (Mw ). Widespread devastation occurred in Central Java, where as many as 700 people were killed. The intermediate-depth intraslab earthquake did not cause a tsunami.

The 1979 Saint Elias earthquake occurred near noon local time on 28 February. It measured Mw 7.4–7.6. Though the maximum recorded Modified Mercalli intensity was VII, damage was minimal and there were no casualties due to the remoteness of the faulting. The epicenter lies near the Alaskan border between the United States and Canada.

References

  1. 1 2 3 Dewey, J.W.; Hopper, M.G.; Wald, D.J.; Quitoriano V. & Adams E.R. (2002). Intensity Distribution and Isoseismal Maps for the Nisqually, Washington, Earthquake of 28 February 2001 (PDF). Open-File Report. Vol. 02–346. United States Geological Survey. p. 15.
  2. 1 2 3 4 National Geophysical Data Center / World Data Service (NGDC/WDS): NCEI/WDS Global Significant Earthquake Database. NOAA National Centers for Environmental Information. "Significant Earthquake Information". doi:10.7289/V5TD9V7K . Retrieved March 22, 2024.
  3. 1 2 3 United States Geological Survey (October 21, 2009). "Puget Sound area, Washington 1965 04 29 15:28:43.7 UTC Magnitude 6.5 Intensity VIII". Historic Earthquakes. Retrieved January 8, 2012.
  4. 1 2 3 4 Oakeshott, G.B. (July 1965). "The Seattle Earthquake" (PDF). Mineral Information Service. 18 (7): 140–141. Archived from the original (PDF) on March 12, 2020. Retrieved January 8, 2012.
  5. 1 2 Wong, I.G. (2005). "Low Potential for Large Intraslab Earthquakes in the Central Cascadia Subduction Zone" (PDF). Bulletin of the Seismological Society of America. 95 (5): 1880–1902. Bibcode:2005BuSSA..95.1880W. doi:10.1785/0120040132. Archived from the original (PDF) on March 2, 2012. Retrieved January 8, 2012.
  6. 1 2 Mullineaux, D.R.; Bonilla, M.G.; Schlocker, J. (1967). "Relation of building damage to geology in Seattle, Washington during the April 1965 earthquake". Geological Survey Research 1967. United States Geological Survey Professional paper. Vol. 575-D. United States Government Printing Office. pp. 183–191. Retrieved January 8, 2012.
  7. Cascadia Region Earthquake Workshop (2008). "Cascadia Deep Earthquakes" (PDF). Open File Report 2008-1. Washington Division of Geology and Earth Resources. p. 8. Archived from the original (PDF) on March 2, 2012. Retrieved January 8, 2012.
  8. David Postman (March 4, 2001). "Is Capitol dome at risk? Huge stone columns knocked out of line". The Seattle Times. Archived from the original on December 9, 2012. Retrieved January 8, 2012.
  9. "All The Fear A Word Can Make—Earthquake!". Washington Highway News. Vol. 12, no. 4. Washington State Department of Highways. May 1965. p. 14. Retrieved August 17, 2022 via WSDOT Library Digital Collections.
  10. United States Geological Survey (July 27, 2011). "ANSS – Advanced National Seismic System Pacific Northwest Region" . Retrieved January 8, 2012.
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