fbpx
Wikipedia

1741 eruption of Oshima–Ōshima and the Kampo tsunami

January 01, 1970

The devastating eruption of Oshima–Ōshima began on 18 August 1741 and ended on 1 May the next year.[4] Eleven days into the eruption, the Kampo tsunami (Japanese: 寛保津波, Hepburn: Kampo tsunami) with estimated maximum heights of over 90 m (300 ft) swept across neighboring islands in Japan and the Korean Peninsula.

1741 eruption of Oshima–Ōshima and the Kampo megatsunami
VolcanoOshima Oshima
Start date18 August 1741
End date1 May 1742
TypeUnknown
LocationOff the coast of Hokkaido.
Sea of Japan, Japan
VEI4[1][2]
ImpactSector collapse and regional tsunami
Deaths1,467–2,033 dead[3]
Ōshima

Background edit

Japan is situated along a zone of convergence between at least four major and minor tectonic plates. The Philippine Sea Plate dives beneath the Amurian Plate and Okinawa Plate along the Nankai Trough and Ryukyu Trench in southern Japan. In northern Japan, the Pacific Plate subducts beneath the Okhotsk Plate, part of the larger North American Plate, along the Japan and Kuril trenches. The subduction process is related to the production of volcanoes in Japan as the downgoing oceanic slab undergoes dehydration at depths of roughly 90 to 100 km (55 to 60 mi) beneath the overriding plate.[5] Water in the structure of hydrated minerals interact with the upper mantle, lowering its melting point. As the mantle begins to melt, its density decreases and rises through the upper crust, forming a volcanic vent.

Oshima Island edit

 
Oshima Oshima island seen in 2011.

Oshima is the uninhabited island located in the Sea of Japan, approximately 60 km west of the Oshima Peninsula on the larger island Hokkaidō.[6] The island consists of two basaltic-to-andesitic stratovolcanoes, the highest measuring 737 meters (2,418 ft) above sea level. No records of eruptions prior to the 1741–42 eruption exists due to the remoteness of the island although some fumaroles were documented. The most recent record of an eruption was in 1790. Activity resurfaced in 1996 with seismic unrest beneath the island but no eruption occurred.[1]

Kampo tsunami edit

The initial eruption began on 18 August and was visible from Hokkaido by 23 August. By 25 August, so much ash had been ejected that sunlight was blocked out. Ash fall measured up to over 20 centimeters at places. On August 29 at 05:00, a second and more violent eruption took place on the island and was followed–up by a large tsunami up to 90 m (300 ft).[3][4] The tsunami engulfed many coastal villages and towns along the shores of the Sea of Japan. While the eruption itself did not result in any casualties, the ensuing tsunami drowned over 2,000 people.[6]

In Kaminokuni, the waves reportedly wiped out 50 homes and drowned all but one of its residents. Ishizaki, a city separated from the sea by a ridge 19.4 m (64 ft) above sea level, was also engulfed by the tsunami. Around the Matsumae Peninsula, heavy ash fall from the eruption blocked out the sun and plunged villages into darkness. A tsunami arrived along the shores at some time between 20:00 and 22:00. More than 729 homes were washed away and 33 others were seriously damaged. The tsunami also took with it two warehouses and destroyed 25. Wave heights reportedly exceeded 9 m (30 ft). One document states that approximately 120 km (75 mi) was inundated, and that at least 1,467 inhabitants lost their lives, a figure that excludes native Ainu inhabitants that left no written records. Estimates of the total casualties including Ainu suggest that over 2,000 people lost their lives.[7] Some 1,521 fishing boats and ships near the erupting volcanic island were also destroyed by the waves. One hundred and forty people were killed while 53 vessels and 83 houses were lost to the waves in Tsugaru on the island of Honshu.[8]

Run–up heights of 60–90 m (200–300 ft) were apparently observed by eyewitnesses at Sado Island in Niigata, at least 400 km (250 mi) from Oshima Oshima, according to a 1984 catalogue.[9][10] Oral records, however, suggest the highest tsunami waves topped 34 m (112 ft) and written documentation on the tsunami presented a height of 13 m (43 ft).[11]

On the Korean Peninsula, the tsunami slammed into the east coast, flooding nine villages and destroying many fishing vessels.[12][13] The tsunami was documented five times in the annals of the Joseon dynasty.[14] Estimation of wave heights along the coast range from 3–4 m (9.8–13.1 ft).[11]

Origins edit

The source of the Kampo Tsunami is still debated among scientists, claiming an earthquake, debris avalanche, or some other phenomenon caused the tsunami. There is still no consensus in the debate but much evidence points to a landslide and debris avalanche along the flank of the volcano.

Earthquake edit

Off the western coast of Hokkaidō and northern Honshu, at the eastern brink of the Sea of Japan lies a convergent plate boundary between the Amurian and Okhotsk plates, microplates of the Eurasian and North American plates respectively. The convergent boundary is the source for many historically documented tsunamigenic earthquakes in 1833, 1940, 1964, 1983, and most recently, the 1993 southwest off Hokkaido earthquake.[11]

Based on analyzing records of the tsunami heights, a large magnitude 7.5–8.4 earthquake along the eastern margin of the Sea of Japan would have been sufficient enough to generate the wave heights as observed in 1741.[15][16][17][18] The earthquake hypothesis, however, is challenged because no records of shaking from an earthquake exist.[8] A 1995 research article suggested the 1741 tsunami may have been caused by an earthquake that ruptured a present–day seismic gap on the plate boundary between the rupture zones of the 1833 and 1983 earthquakes.[19][3] Because of the absence of documented shaking caused by a possibly large earthquake (Mt  7.5–8.4), scientists interpreted the event had characteristics similar to a tsunami earthquake.[20] Initially proposed in 1972 by Hiroo Kanamori, these events release seismic energy in long periods.[21] Such events involve a slower-than-usual rupture propagation along the shallow segment of a subduction zone. An event of this sort would go undetected by humans because of the low–frequency ground motions. Tsunami earthquakes rupture the shallowest section of the subduction boundary, which generates large tsunami run-ups.[21]

The earthquake theory also did not rule out the possibility of the volcano collapsing because of the extreme tsunami run–ups. However, there has been no attempt to conduct submarine surveys in the Sea of Japan to confirm the claim of seismic activity along the plate boundary.[20]

Sector collapse edit

A landslide and debris avalanche involving a subaerial and submerged portion of the volcanic island has been the more accepted source mechanism of the large tsunami. With an initial height of 850 m (2,790 ft), the event reduced the elevation of Hishi–yama peak to 722 m (2,369 ft). An estimated 2.4 km3 (0.58 cu mi) section of the volcano came loose and fell into the seafloor and settled towards the north of the island, similar to that during the 1980 eruption of Mount St. Helens, which was 2.3 km3 (0.55 cu mi).[22] The slide deposit on the seafloor has a thickness of 36 ± 2 m (118.1 ± 6.6 ft) on average and 182 ± 10 m (597 ± 33 ft) at maximum. The debris field presently covers an area calculated at 69 ± 4 km2 (26.6 ± 1.5 sq mi) and extends 16 km (9.9 mi) away from the island.[11] This would make it the second largest historical volcanic sector failure in history, alongside the 1888 eruption of Ritter Island.[23]

A more recent study in 2019, however, stated that the slide volume was 2.2 km3 (0.53 cu mi), a significant difference from the 2001 research. The same paper also implied that the maximum thickness of the landslide is 300 m (980 ft) and an area 14 km (8.7 mi) by 9 km (5.6 mi) was buried under debris.[24]

See also edit

References edit

  1. ^ a b "Oshima-Oshima". Global Volcanism Program. Smithsonian Institution. Retrieved 2022-03-20.
  2. ^ "渡島大島 有史以降の火山活動". Japan Meteorological Agency. Retrieved 30 March 2021.
  3. ^ a b c Sang-Shin Byun; Kyeong Ok Kim (25 February 2021). "A study on the effects of the 1741 tsunami recorded in the Annals of the Joseon Dynasty". Journal of Korean Society of Coastal and Ocean Engineers. 33 (1): 30–37. doi:10.9765/KSCOE.2021.33.1.30. S2CID 233955868. Retrieved 30 March 2021.
  4. ^ a b "Significant Volcanic Eruption". NGDC NCEI. Retrieved 30 March 2021.
  5. ^ Tatsumi, Y.; Suenaga, N.; Yoshioka, S. (14 September 2020). "Contrasting volcano spacing along SW Japan arc caused by difference in age of subducting lithosphere". Scientific Reports. 10 (15005): 15005. doi:10.1038/s41598-020-72173-6. PMC 7490715. PMID 32929150.
  6. ^ a b 北海道・渡島大島大噴火の巨大津波 絵図に残った凄まじい風景 建築研究所特別客員研究員・都司嘉宣. Sankei Shimbun (in Japanese). Sankei Shimbun. 6 June 2016. Retrieved 30 March 2021.
  7. ^ Satake, Kenji (June 8, 2007). "Volcanic origin of the 1741 Oshima-Oshima tsunami in the Japan Sea" (PDF). Earth, Planets and Space. 59 (5): 381–390. Bibcode:2007EP&S...59..381S. doi:10.1186/BF03352698.
  8. ^ a b "Tsunami Event Information W. Hokkaido Island". NGDC NCEI. Retrieved 30 March 2021.
  9. ^ "Tsunami Event W. Hokkaido Island". NGDC NCEI. Retrieved 30 March 2021.
  10. ^ "Catalog of Tsunamis in Japan and its Neighboring Countries". Tsunami Digital Library. 1984. Retrieved 30 March 2021.
  11. ^ a b c d Satake, Kenji (19 January 2007). "Volcanic origin of the 1741 Oshima-Oshima tsunami in the Japan Sea" (PDF). Earth Planets Space. 59 (5): 381–390. Bibcode:2007EP&S...59..381S. doi:10.1186/BF03352698. Retrieved 30 March 2021.
  12. ^ "1st article celebrated on July 27, 17, Yeongjo". The Annals of King Yeongjo. 54. Retrieved 31 March 2021.
  13. ^ "1st article in Gyeongjin on July 18, 17, Yeongjo". The Annals of Yeongjo. 54. Retrieved 31 March 2021.
  14. ^ Min Kyu Kim; Hyun-Me Rhee; In-Kil Choi (2013). "The effect analysis of 1741 Oshima-Oshima tsunami in the West Coast of Japan to Korea" (PDF). Transactions of the Korean Nuclear Society Spring Meeting. Retrieved 30 March 2021.
  15. ^ Im Sang Oh; Alexander B. Rabinovich (1994). "Manifestation of Hokkaido Southwest (Okushiri) Tsunami, 12 July, 1993, at the Coast of Korea: Statistsl Characteristics Spectul Analysis, and Energy Decay" (PDF). The International Journal of the Tsunami Society. 12 (2). Seoul National University: 93–116. ISSN 0736-5306. Retrieved 30 March 2021.
  16. ^ Katsui, Yoshio; Yamamoto, Masatsugu (1981). "The 1741-1742 Activity of Oshima-Ōshima Volcano, North Japan" (PDF). Journal of the Faculty of Science, Geology and Mineralogy. 19 (4). Japan: Hokkaido University: 527–536. Retrieved 30 March 2021.
  17. ^ 日本海における大規模地震に関する調査検討会 報告書 (PDF). Ministry of Land, Infrastructure, Transport and Tourism (in Japanese). August 2014. Retrieved 30 March 2021.
  18. ^ Abe, Katsuyuki (1989). "Quantification of tsunamigenic earthquakes by the Mt scale". Tectonophysics. 166 (1–3): 27–34. Bibcode:1989Tectp.166...27A. doi:10.1016/0040-1951(89)90202-3. ISSN 0040-1951. Retrieved 30 March 2021.
  19. ^ Ohtake, Masakazu (13 March 1995). "A seismic gap in the eastern margin of the Sea of Japan as inferred from the time-space distribution of past seismicity". Island Arc. 4 (3): 156–165. Bibcode:1995IsArc...4..156O. doi:10.1111/j.1440-1738.1995.tb00140.x.
  20. ^ a b Yukinobu Okamura (1998). 日本海東縁海域の活構造およびその地震との関係 [Active structure in the eastern margin of the Sea of Japan and its relationship with earthquakes] (PDF). Geological Survey Monthly Report (in Japanese). 49 (1). Geological Survey of Japan, National Institute of Advanced Industrial Science and Technology. Retrieved 31 March 2021.
  21. ^ a b Hiroo Kanamori (1972). "Mechanism of tsunami earthquakes". Physics of the Earth and Planetary Interiors. 6 (5): 346–359. Bibcode:1972PEPI....6..346K. doi:10.1016/0031-9201(72)90058-1.
  22. ^ Kenji Satake; Yukihiro Kato (1 February 2001). "The 1741 Oshima-Oshima Eruption: Extent and volume of submarine debris avalanche". Geophysical Research Letters. 28 (3): 427–430. Bibcode:2001GeoRL..28..427S. doi:10.1029/2000GL012175.
  23. ^ Raphaël Paris; Kazuhisa Goto; James Goff; Hideaki Yanagisawa (2020). "Advances in the study of mega-tsunamis in the geological record" (PDF). Earth-Science Reviews. 210: 103381. Bibcode:2020ESRv..21003381P. doi:10.1016/j.earscirev.2020.103381. ISSN 0012-8252. S2CID 224925006.
  24. ^ Yuichiro Tanioka; Hideaki Yanagisawa; Gentaro Kawakami (28 January 2019). "Numerical Simulation of the Landslide and Tsunami Due to the 1741 Oshima-Oshima Eruption in Hokkaido, Japan". Journal of Geophysical Research: Solid Earth. 124 (2): 1991–2002. Bibcode:2019JGRB..124.1991I. doi:10.1029/2018JB016166. S2CID 134267212.

January 01, 1970
1741, eruption, oshima, Ōshima, kampo, tsunami, devastating, eruption, oshima, Ōshima, began, august, 1741, ended, next, year, eleven, days, into, eruption, kampo, tsunami, japanese, 寛保津波, hepburn, kampo, tsunami, with, estimated, maximum, heights, over, swept. The devastating eruption of Oshima Ōshima began on 18 August 1741 and ended on 1 May the next year 4 Eleven days into the eruption the Kampo tsunami Japanese 寛保津波 Hepburn Kampo tsunami with estimated maximum heights of over 90 m 300 ft swept across neighboring islands in Japan and the Korean Peninsula 1741 eruption of Oshima Ōshima and the Kampo megatsunamiVolcanoOshima OshimaStart date18 August 1741End date1 May 1742TypeUnknownLocationOff the coast of Hokkaido Sea of Japan JapanVEI4 1 2 ImpactSector collapse and regional tsunamiDeaths1 467 2 033 dead 3 Ōshima Contents 1 Background 1 1 Oshima Island 2 Kampo tsunami 3 Origins 3 1 Earthquake 3 2 Sector collapse 4 See also 5 ReferencesBackground editJapan is situated along a zone of convergence between at least four major and minor tectonic plates The Philippine Sea Plate dives beneath the Amurian Plate and Okinawa Plate along the Nankai Trough and Ryukyu Trench in southern Japan In northern Japan the Pacific Plate subducts beneath the Okhotsk Plate part of the larger North American Plate along the Japan and Kuril trenches The subduction process is related to the production of volcanoes in Japan as the downgoing oceanic slab undergoes dehydration at depths of roughly 90 to 100 km 55 to 60 mi beneath the overriding plate 5 Water in the structure of hydrated minerals interact with the upper mantle lowering its melting point As the mantle begins to melt its density decreases and rises through the upper crust forming a volcanic vent Oshima Island edit nbsp Oshima Oshima island seen in 2011 Oshima is the uninhabited island located in the Sea of Japan approximately 60 km west of the Oshima Peninsula on the larger island Hokkaidō 6 The island consists of two basaltic to andesitic stratovolcanoes the highest measuring 737 meters 2 418 ft above sea level No records of eruptions prior to the 1741 42 eruption exists due to the remoteness of the island although some fumaroles were documented The most recent record of an eruption was in 1790 Activity resurfaced in 1996 with seismic unrest beneath the island but no eruption occurred 1 Kampo tsunami editThe initial eruption began on 18 August and was visible from Hokkaido by 23 August By 25 August so much ash had been ejected that sunlight was blocked out Ash fall measured up to over 20 centimeters at places On August 29 at 05 00 a second and more violent eruption took place on the island and was followed up by a large tsunami up to 90 m 300 ft 3 4 The tsunami engulfed many coastal villages and towns along the shores of the Sea of Japan While the eruption itself did not result in any casualties the ensuing tsunami drowned over 2 000 people 6 In Kaminokuni the waves reportedly wiped out 50 homes and drowned all but one of its residents Ishizaki a city separated from the sea by a ridge 19 4 m 64 ft above sea level was also engulfed by the tsunami Around the Matsumae Peninsula heavy ash fall from the eruption blocked out the sun and plunged villages into darkness A tsunami arrived along the shores at some time between 20 00 and 22 00 More than 729 homes were washed away and 33 others were seriously damaged The tsunami also took with it two warehouses and destroyed 25 Wave heights reportedly exceeded 9 m 30 ft One document states that approximately 120 km 75 mi was inundated and that at least 1 467 inhabitants lost their lives a figure that excludes native Ainu inhabitants that left no written records Estimates of the total casualties including Ainu suggest that over 2 000 people lost their lives 7 Some 1 521 fishing boats and ships near the erupting volcanic island were also destroyed by the waves One hundred and forty people were killed while 53 vessels and 83 houses were lost to the waves in Tsugaru on the island of Honshu 8 Run up heights of 60 90 m 200 300 ft were apparently observed by eyewitnesses at Sado Island in Niigata at least 400 km 250 mi from Oshima Oshima according to a 1984 catalogue 9 10 Oral records however suggest the highest tsunami waves topped 34 m 112 ft and written documentation on the tsunami presented a height of 13 m 43 ft 11 On the Korean Peninsula the tsunami slammed into the east coast flooding nine villages and destroying many fishing vessels 12 13 The tsunami was documented five times in the annals of the Joseon dynasty 14 Estimation of wave heights along the coast range from 3 4 m 9 8 13 1 ft 11 Origins editThe source of the Kampo Tsunami is still debated among scientists claiming an earthquake debris avalanche or some other phenomenon caused the tsunami There is still no consensus in the debate but much evidence points to a landslide and debris avalanche along the flank of the volcano Earthquake edit Off the western coast of Hokkaidō and northern Honshu at the eastern brink of the Sea of Japan lies a convergent plate boundary between the Amurian and Okhotsk plates microplates of the Eurasian and North American plates respectively The convergent boundary is the source for many historically documented tsunamigenic earthquakes in 1833 1940 1964 1983 and most recently the 1993 southwest off Hokkaido earthquake 11 Based on analyzing records of the tsunami heights a large magnitude 7 5 8 4 earthquake along the eastern margin of the Sea of Japan would have been sufficient enough to generate the wave heights as observed in 1741 15 16 17 18 The earthquake hypothesis however is challenged because no records of shaking from an earthquake exist 8 A 1995 research article suggested the 1741 tsunami may have been caused by an earthquake that ruptured a present day seismic gap on the plate boundary between the rupture zones of the 1833 and 1983 earthquakes 19 3 Because of the absence of documented shaking caused by a possibly large earthquake Mt 7 5 8 4 scientists interpreted the event had characteristics similar to a tsunami earthquake 20 Initially proposed in 1972 by Hiroo Kanamori these events release seismic energy in long periods 21 Such events involve a slower than usual rupture propagation along the shallow segment of a subduction zone An event of this sort would go undetected by humans because of the low frequency ground motions Tsunami earthquakes rupture the shallowest section of the subduction boundary which generates large tsunami run ups 21 The earthquake theory also did not rule out the possibility of the volcano collapsing because of the extreme tsunami run ups However there has been no attempt to conduct submarine surveys in the Sea of Japan to confirm the claim of seismic activity along the plate boundary 20 Sector collapse edit A landslide and debris avalanche involving a subaerial and submerged portion of the volcanic island has been the more accepted source mechanism of the large tsunami With an initial height of 850 m 2 790 ft the event reduced the elevation of Hishi yama peak to 722 m 2 369 ft An estimated 2 4 km3 0 58 cu mi section of the volcano came loose and fell into the seafloor and settled towards the north of the island similar to that during the 1980 eruption of Mount St Helens which was 2 3 km3 0 55 cu mi 22 The slide deposit on the seafloor has a thickness of 36 2 m 118 1 6 6 ft on average and 182 10 m 597 33 ft at maximum The debris field presently covers an area calculated at 69 4 km2 26 6 1 5 sq mi and extends 16 km 9 9 mi away from the island 11 This would make it the second largest historical volcanic sector failure in history alongside the 1888 eruption of Ritter Island 23 A more recent study in 2019 however stated that the slide volume was 2 2 km3 0 53 cu mi a significant difference from the 2001 research The same paper also implied that the maximum thickness of the landslide is 300 m 980 ft and an area 14 km 8 7 mi by 9 km 5 6 mi was buried under debris 24 See also edit nbsp Earth sciences portal nbsp Tsunamis portal nbsp Volcanoes portal nbsp Japan portal List of tsunamis List of deadly volcanic eruptionsReferences edit a b Oshima Oshima Global Volcanism Program Smithsonian Institution Retrieved 2022 03 20 渡島大島 有史以降の火山活動 Japan Meteorological Agency Retrieved 30 March 2021 a b c Sang Shin Byun Kyeong Ok Kim 25 February 2021 A study on the effects of the 1741 tsunami recorded in the Annals of the Joseon Dynasty Journal of Korean Society of Coastal and Ocean Engineers 33 1 30 37 doi 10 9765 KSCOE 2021 33 1 30 S2CID 233955868 Retrieved 30 March 2021 a b Significant Volcanic Eruption NGDC NCEI Retrieved 30 March 2021 Tatsumi Y Suenaga N Yoshioka S 14 September 2020 Contrasting volcano spacing along SW Japan arc caused by difference in age of subducting lithosphere Scientific Reports 10 15005 15005 doi 10 1038 s41598 020 72173 6 PMC 7490715 PMID 32929150 a b 北海道 渡島大島大噴火の巨大津波 絵図に残った凄まじい風景 建築研究所特別客員研究員 都司嘉宣 Sankei Shimbun in Japanese Sankei Shimbun 6 June 2016 Retrieved 30 March 2021 Satake Kenji June 8 2007 Volcanic origin of the 1741 Oshima Oshima tsunami in the Japan Sea PDF Earth Planets and Space 59 5 381 390 Bibcode 2007EP amp S 59 381S doi 10 1186 BF03352698 a b Tsunami Event Information W Hokkaido Island NGDC NCEI Retrieved 30 March 2021 Tsunami Event W Hokkaido Island NGDC NCEI Retrieved 30 March 2021 Catalog of Tsunamis in Japan and its Neighboring Countries Tsunami Digital Library 1984 Retrieved 30 March 2021 a b c d Satake Kenji 19 January 2007 Volcanic origin of the 1741 Oshima Oshima tsunami in the Japan Sea PDF Earth Planets Space 59 5 381 390 Bibcode 2007EP amp S 59 381S doi 10 1186 BF03352698 Retrieved 30 March 2021 1st article celebrated on July 27 17 Yeongjo The Annals of King Yeongjo 54 Retrieved 31 March 2021 1st article in Gyeongjin on July 18 17 Yeongjo The Annals of Yeongjo 54 Retrieved 31 March 2021 Min Kyu Kim Hyun Me Rhee In Kil Choi 2013 The effect analysis of 1741 Oshima Oshima tsunami in the West Coast of Japan to Korea PDF Transactions of the Korean Nuclear Society Spring Meeting Retrieved 30 March 2021 Im Sang Oh Alexander B Rabinovich 1994 Manifestation of Hokkaido Southwest Okushiri Tsunami 12 July 1993 at the Coast of Korea Statistsl Characteristics Spectul Analysis and Energy Decay PDF The International Journal of the Tsunami Society 12 2 Seoul National University 93 116 ISSN 0736 5306 Retrieved 30 March 2021 Katsui Yoshio Yamamoto Masatsugu 1981 The 1741 1742 Activity of Oshima Ōshima Volcano North Japan PDF Journal of the Faculty of Science Geology and Mineralogy 19 4 Japan Hokkaido University 527 536 Retrieved 30 March 2021 日本海における大規模地震に関する調査検討会 報告書 PDF Ministry of Land Infrastructure Transport and Tourism in Japanese August 2014 Retrieved 30 March 2021 Abe Katsuyuki 1989 Quantification of tsunamigenic earthquakes by the Mt scale Tectonophysics 166 1 3 27 34 Bibcode 1989Tectp 166 27A doi 10 1016 0040 1951 89 90202 3 ISSN 0040 1951 Retrieved 30 March 2021 Ohtake Masakazu 13 March 1995 A seismic gap in the eastern margin of the Sea of Japan as inferred from the time space distribution of past seismicity Island Arc 4 3 156 165 Bibcode 1995IsArc 4 156O doi 10 1111 j 1440 1738 1995 tb00140 x a b Yukinobu Okamura 1998 日本海東縁海域の活構造およびその地震との関係 Active structure in the eastern margin of the Sea of Japan and its relationship with earthquakes PDF Geological Survey Monthly Report in Japanese 49 1 Geological Survey of Japan National Institute of Advanced Industrial Science and Technology Retrieved 31 March 2021 a b Hiroo Kanamori 1972 Mechanism of tsunami earthquakes Physics of the Earth and Planetary Interiors 6 5 346 359 Bibcode 1972PEPI 6 346K doi 10 1016 0031 9201 72 90058 1 Kenji Satake Yukihiro Kato 1 February 2001 The 1741 Oshima Oshima Eruption Extent and volume of submarine debris avalanche Geophysical Research Letters 28 3 427 430 Bibcode 2001GeoRL 28 427S doi 10 1029 2000GL012175 Raphael Paris Kazuhisa Goto James Goff Hideaki Yanagisawa 2020 Advances in the study of mega tsunamis in the geological record PDF Earth Science Reviews 210 103381 Bibcode 2020ESRv 21003381P doi 10 1016 j earscirev 2020 103381 ISSN 0012 8252 S2CID 224925006 Yuichiro Tanioka Hideaki Yanagisawa Gentaro Kawakami 28 January 2019 Numerical Simulation of the Landslide and Tsunami Due to the 1741 Oshima Oshima Eruption in Hokkaido Japan Journal of Geophysical Research Solid Earth 124 2 1991 2002 Bibcode 2019JGRB 124 1991I doi 10 1029 2018JB016166 S2CID 134267212 Retrieved from https en wikipedia org w index php title 1741 eruption of Oshima Ōshima and the Kampo tsunami amp oldid 1223886528, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.