Jump to content

Main menu Navigation ●Main page ●Contents ●Current events ●Random article ●About Wikipedia ●Contact us ●Donate Contribute ●Help ●Learn to edit ●Community portal ●Recent changes ●Upload file

●Create account ●Log in ●Create account ● Log in Pages for logged out editors learn more ●Contributions ●Talk

(Top) 1 Geology 2 Damage 2.1 Fire and liquefaction 2.2 Showa bridge 3 Characteristics 3.1 Earthquake 3.2 Tsunami 4 Vestiges 5 See also 6 References 7 External links

1964 Niigata earthquake

●অসমীয়া ●Español ●فارسی ●Français ●한국어 ●日本語 ●Svenska ●ไทย ●Українська ●Tiếng Việt ●中文 Edit links ●Article ●Talk ●Read ●Edit ●View history Tools Actions ●Read ●Edit ●View history General ●What links here ●Related changes ●Upload file ●Special pages ●Permanent link ●Page information ●Cite this page ●Get shortened URL ●Download QR code ●Wikidata item Print/export ●Download as PDF ●Printable version In other projects ●Wikimedia Commons Appearance Coordinates: 38°22′N 139°13′E / 38.37°N 139.22°E From Wikipedia, the free encyclopedia

1964 Niigata earthquake
Effects of soil liquefaction caused by the earthquake on apartment buildings in Niigata

UTC time	1964-06-16 04:01:43
ISC event	866844
USGS-ANSS	ComCat
Local date	16 June 1964 (1964-06-16)
Local time	13:01:43
Magnitude	7.6 M_w
Depth	34 km (21.1 mi)
Epicenter	38°22′N 139°13′E / 38.37°N 139.22°E / 38.37; 139.22
Type	Dip-slip
Areas affected	Japan, Niigata Prefecture
Max. intensity	MMI VIII (Severe)^[1]
Tsunami	yes
Casualties	36 dead or missing (385 injured)^[2]

The 1964 Niigata earthquake (Japanese: 新潟地震) struck at 13:01 local time (04:01 UTC) on 16 June with a magnitude of either 7.5 or 7.6. The epicenter was on the continental shelf off the northwest coast of Honshu, Japan, in Niigata Prefecture, about 50 kilometres (31 mi) north of the city of Niigata. The earthquake caused liquefaction over large parts of the city.

Geology[edit]

The northwestern side of Honshu lies on the southeastern margin of the Sea of Japan, an area of oceanic crust created by back-arc spreading from the late Oligocenetomiddle Miocene. The extensional tectonics associated with the spreading formed a series of N–S trending extensional faults and associated basins. Currently the area is being deformed by contractional tectonics, causing inversion of these earlier basins, forming anticlinal structures.^[3] The earthquake is thought to have occurred due to reverse movement on one of these reactivated faults.^[4]

Damage[edit]

There were 3,534 houses destroyed and a further 11,000 were damaged.^[2] This level of damage is explained by the influence of poor sub-soil conditions. Most of the lower part of the city of Niigata is built on recent deltaic deposits from the Shinano and Agano rivers, mainly consisting of unconsolidated sand. Shaking during the earthquake caused liquefaction with instantaneous compaction and formation of many sand volcanoes.^[2]^[4] Maps of areas of subsidence and sand volcanoes were found to match closely with old maps of the position of former river channels. Subsidence of up to 140 cm was measured over wide areas associated with the liquefaction. In one area of apartment buildings built on reclaimed land by the Shinano River, most of the apartment blocks became inclined and one of them was completely overturned. This was despite relatively low levels of ground acceleration recorded by strong motion accelerographs placed in one of these buildings.^[4]

Fire and liquefaction[edit]

Niigata City, which had just recovered from the Great Niigata Fire of 1955, sustained considerable damage from fire and liquefaction that resulted from the earthquake. Aside from the buildings destroyed by liquefaction on the left bank of the Shinano River, there was also extensive damage on the right bank. The runway of the Niigata Airport, which was near the hypocenter, was flooded due to liquefaction and the tsunami; and a fire broke out inside the airport. Most devastatingly, the pipes of a gasoline tank owned by Showa Shell Sekiyu, located between the airport and the harbor, were also damaged by the shaking. Gasoline from the tank was brought to the sea surface by the tsunami and underground water released by the liquefaction, and ignited five hours after the earthquake. The fire spread to nearby tanks and induced explosions that fed the fire, allowing it to continue for 12 days. The fire spread to nearby residential areas, leaving 1407 people displaced.^[5] This fire is said to be the worst industrial complex fire in the country's history. At the time the cause of the fire was said to be caused by the liquefaction, but later research into large earthquakes revealed that long period ground motion also played a role.

At the time of the fire, the new specially-designed fire truck for fighting chemical fires had not yet been deployed to Niigata City. A request was sent to the Fire and Disaster Management Agency and troops were dispatched from the Tokyo division. There was a danger of the fire spreading to an attached oxygen tank, but the troops from Tokyo managed to stop it from spreading to the tank, after a 20-hour battle.

Showa bridge[edit]

Collapse of the Showa bridge, Niigata caused by the earthquake

The collapse of the Showa bridge in Niigata has been analysed in detail.^[6]^[7] From eyewitness reports it appears that failure began 70 seconds after the start of the earthquake, suggesting that ground motion was not responsible. Movement of piles beneath the bridge piers, due to lateral spreading caused by liquefaction, is regarded as the main cause of the failure.^[6]^[7]

Characteristics[edit]

Earthquake[edit]

The earthquake had a magnitude of 7.6 on the moment magnitude scale, but the relatively deep focal depth of 34 km meant that the perceived intensities on the coast of Honshu were generally VIII (Severe) or less on the Mercalli intensity scale, on consolidated ground.^[4] The calculated focal mechanism indicates reverse faulting on a west-dipping fault trending N20°E.^[8] The rupture area was similar to the 1833 Shōnai earthquake, and partially overlapped it.^[9]

Tsunami[edit]

The first wave of the tsunami hit Niigata City approximately 15 minutes after the earthquake. It caused flooding damage on Sado Island, Awa Island, and as far away as the Oki IslandsinShimane Prefecture. The wave reached heights of 3 m at Ryōtsu Harbor, 4 m at Shiotani and near Iwafune Harbor, and between 1 and 2 m at Naoetsu. It was also reported that due to the run-up that occurs on sandy beaches, the wave reached 6 m in some places.^[10] The first wave was the highest in many places, but the third was reportedly higher in others. The ensuing waves came at intervals of 20 and 50 minutes.^[11] Flooding caused by the tsunami persisted in some areas for up to a month.

Vestiges[edit]

This section does not cite any sources. Please help improve this sectionbyadding citations to reliable sources. Unsourced material may be challenged and removed. (June 2021) (Learn how and when to remove this message)

Due to urbanization and modernization in Niigata City and the surrounding area, water pumping quickly increased in 1950, in order to extract water-soluble natural gas in the groundwater. As a result, land subsidence became a serious problem. Since 1959, due to restrictions on the extractions of natural gas and groundwater in the Niigata city area, large-scale land subsidence has lessened. However, in that period the ground was observed to settle an average of 20 cm per year. This land subsidence, the liquefaction in the inner city, and the tsunami all contributed to the massive inundation damage during the earthquake.

The Bandai Bridge, one of the commuter bridges spanning the Shinano River in the city, survived the earthquake intact, but not unscathed. The streets that cross under the bridge on each side and run parallel to the river are approximately 1 meter different in elevation. The bridge itself only sank about 10 cm during the earthquake, but coupled with the aforementioned land subsidence it has sunk a total of 1.2 meters.

New laws concerning earthquake insurance were enacted in June 1966 in response to this earthquake.

References[edit]

^ "M 7.6 – 24 km NW of Murakami, Japan – Impact". earthquake.usgs.gov. United States Geological Survey. Retrieved 18 November 2021.

^ ^a ^b ^c USGS. "Historic Earthquakes – Niigata, Japan 1964 June 16 04:01 UTC Magnitude 7.5". Archived from the original on 28 January 2010. Retrieved 10 June 2010.

^ Sato, H.; Yoshida T.; Takaya I.; Sato T.; Ikeda Y. & Umino N. (2004). "Late Cenozoic tectonic development of the back arc region of central northern Honshu, Japan, revealed by recent deep seismic profiling". Journal of the Japanese Association for Petroleum Technology. 69 (2): 145–154. doi:10.3720/japt.69.145. ISSN 0370-9868.

^ ^a ^b ^c ^d Kawasumi, H. (1968). "1. Introduction" (PDF). In Kawasumi H. (ed.). General Report on the Niigata Earthquake of 1964. Tokyo, Japan: Tokyo Electrical Engineering College Press. Archived (PDF) from the original on 4 June 2010. Retrieved 10 June 2010.

^ 津波ディジタルライブラリィ^{[permanent dead link]} 津波ディジタルライブラリィ作成委員会

^ ^a ^b Yoshida, N.; Tazoh T.; Wakamatsu K.; Yasuda S.; Towhata I.; Nakazawa H. & Kiku H. (2007). "Causes of Showa Bridge collapse in the 1964 Niigata earthquake based on eyewitness testimony". Soils and Foundations. 47 (6): 1075–1087. Bibcode:2007SoFou..47.1075Y. doi:10.3208/sandf.47.1075. Retrieved 10 June 2010.

^ ^a ^b Kazama, M.; Sento, S.; Uzuoka, R.; Ishimaru M. (2008). "Progressive damage simulation of foundation pile of the Showa Bridge caused by lateral spreading during the 1964 Niigata earthquake". In Liu H.; Deng A.; Chu J. (eds.). Geotechnical Engineering for Disaster Mitigation and Rehabilitation: Proceedings of the 2nd International Conference GEDMAR08, Nanjing, China. Beijing / Berlin: Science Press and Springer-Verlag. pp. 170–176. ISBN 978-3-540-79846-0.

^ Ruff, L.; Kanamori, H. (1983). "The rupture process and asperity distribution of three great earthquakes from long-period diffracted P-waves" (PDF). Physics of the Earth and Planetary Interiors. 31 (3): 202–230. Bibcode:1983PEPI...31..202R. doi:10.1016/0031-9201(83)90099-7. Archived from the original (PDF) on 23 July 2010. Retrieved 10 June 2010.

^ Hatori, Tokutaro (1990). "Magnitudes of the 1833 Yamagata-Oki Earthquake in the Japan Sea and its Tsunami". Zisin (Journal of the Seismological Society of Japan). Second Series (in Japanese). 43 (2): 227–232. doi:10.4294/zisin1948.43.2_227.

^ National Geophysical Data Center / World Data Service: NCEI/WDS Global Historical Tsunami Database. NOAA National Centers for Environmental Information. "Tsunami Event Information". NOAA National Centers for Environmental Information. doi:10.7289/V5PN93H7. Retrieved 22 March 2024.

^ 昭和39年6月16日新潟地震調査概報 (新潟地震による津波) 東京大学地震研究所地震研究所研究速報. 第8号, 1964-09, pp. 58–62

External links[edit]

The International Seismological Centre has a bibliography and/or authoritative data for this event.

← Earthquakes in 1964 →

Baihe (6.3, Jan 18) †
Alaska (9.2, March 27) †‡
Niigata (7.6, June 16) †
Guerrero (7.2, July 6) †
Manyas (6.8, Oct 6)

† indicates earthquake resulting in at least 30 deaths
‡ indicates the deadliest earthquake of the year

v t e Earthquakes in Japan
Historical	679 Tsukushi 684 Hakuho 869 Jōgan 1293 Kamakura 1361 Shōhei 1498 Meiō 1586 Tenshō 1596 Fushimi 1605 Keichō 1611 Aizu 1611 Sanriku 1662 Kanbun 1662 Hyūga-nada 1677 Bōsō 1703 Genroku 1707 Hōei 1741 Kampo 1751 Takada 1771 Great Yaeyama 1792 Unzen 1804 Kisakata 1828 Sanjō 1833 Shōnai 1847 Zenkoji 1854 Iga–Ueno 1854 Nankai 1854 Tōkai 1855 Edo 1858 Hietsu 1872 Hamada 1889 Kumamoto 1891 Mino–Owari 1894 Tokyo 1894 Shōnai 1896 Sanriku 1896 Rikuu
20th century	1909 Anegawa 1911 Kikai Island 1914 Senboku 1922 Shimabara 1923 Great Kantō 1925 North Tajima 1927 North Tango 1930 North Izu 1933 Sanriku 1936 Miyagi 1939 Oga 1940 Shakotan 1941 Hyūga-nada 1943 Tottori 1944 Tōnankai 1945 Mikawa 1946 Nankai 1948 Fukui 1952 Tokachi 1961 North Mino 1963 Kuril Islands 1964 Niigata 1968 Ebino 1968 Hyūga-nada 1968 Tokachi 1973 Nemuro Peninsula 1974 Izu Peninsula 1978 Izu Ōshima 1978 Miyagi 1982 Urakawa 1983 Sea of Japan 1984 Nagano 1993 Kushiro 1993 Okushiri 1994 offshore Sanriku 1995 Hanshin 2000 Izu Islands 2000 Tottori
21st century	2001 Geiyo 2003 Miyagi 2003 Tokachi 2004 Chūetsu 2005 Fukuoka 2005 Miyagi 2006 Kuril Islands 2007 Chūetsu 2007 Kuril Islands 2007 Noto 2008 Iwate–Miyagi 2008 Iwate 2009 Shizuoka 2011 Tōhoku 2011 Nagano 2011 Shizuoka 2011 Miyagi 2011 Fukushima 2012 Chiba 2012 Sanriku 2014 Nagano 2015 Ogasawara 2016 Kumamoto 2016 Tottori 2016 Fukushima 2018 Osaka 2018 Hokkaido Eastern Iburi 2019 Yamagata 2021 Fukushima 2021 Miyagi 2021 Chiba 2022 Fukushima 2023 Noto 2024 Noto
Related articles	Nankai megathrust earthquakes Tōkai earthquakes Tōnankai earthquakes Nankai earthquakes South Kantō earthquakes Matsushiro earthquake swarm

Retrieved from "https://en.wikipedia.org/w/index.php?title=1964_Niigata_earthquake&oldid=1227088783" Categories: ●1964 earthquakes ●1964 in Japan ●1960s tsunamis ●June 1964 events in Asia ●Tsunamis in Japan ●Earthquakes of the Showa period Hidden categories: ●Pages using gadget WikiMiniAtlas ●All articles with dead external links ●Articles with dead external links from February 2019 ●Articles with permanently dead external links ●CS1 Japanese-language sources (ja) ●Articles with short description ●Short description matches Wikidata ●Use dmy dates from September 2020 ●Articles using Mw magnitude scale ●Coordinates on Wikidata ●Articles containing Japanese-language text ●Articles needing additional references from June 2021 ●All articles needing additional references ●This page was last edited on 3 June 2024, at 16:49 (UTC). ●Text is available under the Creative Commons Attribution-ShareAlike License 4.0; additional terms may apply. By using this site, you agree to the Terms of Use and Privacy Policy. Wikipedia® is a registered trademark of the Wikimedia Foundation, Inc., a non-profit organization. ●Privacy policy ●About Wikipedia ●Disclaimers ●Contact Wikipedia ●Code of Conduct ●Developers ●Statistics ●Cookie statement ●Mobile view