The 1957 Andreanof Islands earthquake occurred at 04:22 local time on March 9 with a moment magnitude estimated at 8.6 and a maximum Modified Mercalli intensity of VIII (Severe). It occurred south of the Andreanof Islands group, which is part of the Aleutian Islands arc. The event occurred along the Aleutian Trench, the convergent plate boundary that separates the Pacific plate and the North American plates near Alaska. A basin-wide tsunami followed, with effects felt in Alaska and Hawaii, and strong waves recorded across the Pacific rim. Total losses were around $5 million (equivalent to $54,241,706 in 2023).
UTC time | 1957-03-09 14:22:33 |
---|---|
ISC event | 886030 |
USGS-ANSS | ComCat |
Local date | March 9, 1957 |
Local time | 04:22:33 |
Magnitude | 8.6 Mw[1] 8.1–8.3 Ms[2][3] 9.0 Mt[4][a] |
Depth | 25 km (16 mi)[1] |
Epicenter | 51°30′N 175°38′W / 51.5°N 175.63°W[1] |
Fault | Aleutian Trench |
Type | Megathrust |
Areas affected | Aleutian Islands & Hawaii |
Total damage | $5 million[6] |
Max. intensity | MMI VIII (Severe)[6] |
Tsunami | 23 m (75 ft)[7] |
Casualties | 2 dead (indirect) |
Tectonic setting
editThe Aleutian Islands lie between Kamchatka and mainland Alaska. They were formed as the result of the 4,000 km (2,500 mi) long convergent boundary that accommodates the subduction of the oceanic Pacific plate underneath the continental North American plate.[8] This oceanic trench runs from the Kuril-Kamchatka Trench in the west to the Yakutat Collision Zone in the east. Most of the trench ruptured in a sequence of earthquakes from east to west.[5] Earthquakes in 1938, 1946, 1948, and 1965 generally progressed westward with smaller earthquakes filling in any gaps.[5] At each terminus of the subduction zone, convergence ends in favor of right-lateral transform faults.[9] In the west, convergence becomes increasingly oblique until the Commander Islands where faulting is nearly completely strike-slip—a 2017 earthquake was associated with this tectonic setting.[10] The plate boundary ends at the Kuril-Kamchatka Trench.[9] In the east, the Pacific plate continues to subduct underneath the North American plate until the Yakutat microplate.[11] There, a transition from subduction to strike-slip faulting exists.[11] When this transition ends, faulting is completely right-lateral transform and is largely accommodated along the Queen Charlotte Fault.[11]
Earthquake
editThe seismic intensity peaked at VIII (Severe) on the Modified Mercalli intensity scale at Adak and Umnak.[2] As the shock occurred before the World Wide Standardised Seismological Network was in operation, few instruments recorded the event, and its mechanism is not understood well as a result. Some effort was made with the limited data to gain an understanding of the rupture area and the distribution of slip. One aspect of the event that was certain was that the 1,200–1,230 km (750–760 mi) aftershock zone was one of the largest that had ever been observed,[12][13] comparable to the approximate lower rupture length limit of the 2004 Indian Ocean earthquake. The aftershock zone may slightly overlap other ruptures, however there is minimal overlap between the aftershocks of the 1946 Aleutian Islands earthquake to the east and the 1965 Rat Islands earthquake to the west.[13] Studies[specify] of the event differ on rupture characteristics. Some suggest a rupture zone greater than 600 km (370 mi), stretching from Amchitka Pass in the east to Unimak Pass in the west.[14] Other studies[specify] have the rupture area at a significantly longer 850 km (530 mi).[12] Yet other studies[specify] conclude that the entirety of the aftershock area ruptured in the earthquake, for a total rupture length of 1,200 km (750 mi).[15] The western portion of the rupture stopped at Bowers Ridge.[16] Studies also disagree on whether the easternmost area near Unalaska ruptured. Some of the early scientific papers[specify] conclude that this area remained unruptured during the event and remains a seismic gap.[12] Others, especially ones written decades after the fact, conclude that slip did occur here,[17] but signals from it were blocked by the coda of the main slip.[12] However, the amount of slip is not agreed upon. Some studies support a low amount of slip,[18] while others conclude that there was large amounts of slip in this area,[19] up to 20 m (66 ft).[20] A maximum slip of 20 m (66 ft) was estimated in the eastern portion of the rupture.[20] If the eastern portion of the megathrust did rupture, then a magnitude of Mw 9.0–9.1 is more reflective of the event.[17] The tsunami created by the earthquake suggests a (Mt9.0) event.[4] The earthquake was previously assigned magnitude 9.1 and subsequent analysis have revised it to magnitude 8.6.[21]
Tsunami
editLocation | Recorded height (m) |
---|---|
Hāʻena, Kauai County, Hawaii, Hawaii | 16.1 |
Wainiha, Hawaii, Hawaii | 11.6 |
Pololu Valley, Hawaii | 9.8 |
Oahu, Hawaii | 7.0 |
Fagasā, American Samoa | 1.5 |
Crescent City, California | 0.7 |
San Diego, California | 0.2 |
Tsunami waves were reported in far way places such as in Chile.[22] The tsunami's strength led to suspicion that a landslide may have contributed to its severity, but there is no evidence of a landslide.[19] A submarine landslide is considered inconsistent with the wave patterns recorded, and the high wave heights could be explained by large amounts of near trench slip.[19]
Alaska
editWave heights were the highest in Alaska. On Unimak Island, waves reached as high as 23 m (75 ft).[7] Also on Unimak, near the Scotch Cap Lighthouse that was destroyed in the 1946 earthquake, run up heights of 12–15 m (39–49 ft) were observed.[14] Trappers Cove recorded wave heights of 13.7 m (45 ft).[23] At Sand Bay, the tsunami reached 8 m (26 ft).[14] Dutch Harbor in Unalaska recorded waves of 0.7 m (2 ft 4 in), Massacre Bay in Attu recorded waves up to 0.6 m (2 ft 0 in) high and Sitka had waves reaching 0.4 m (1 ft 4 in).[14] At Yakutat run-ups measured 0.3 m (1 ft 0 in), while Women's Bay, Kodiak, Seward, and Juneau had recorded tsunami heights of 0.2 m (7.9 in).[14]
Hawaii
editOn the island of Kauai, the wave height reached 16.1 metres (53 ft) at Haena.[14] In northern Oahu, wave heights reached 7 m (23 ft).[14] Various areas around Big Island recorded tsunami waves with heights ranging 1–9.8 m (3 ft 3 in – 32 ft 2 in),[14] including a reading of 3.9 m (13 ft) at Hilo.[24] In Kahului, Maui, tide gauges recorded waves up to 1.8 m (5 ft 11 in).[14] Coconut Island was submerged by 1 m (3 ft 3 in).[14]
California
editCrescent City recorded a tsunami wave of 0.7 m (2 ft 4 in).[14] Los Angeles recorded run-ups of 0.5 m (1 ft 8 in), Santa Monica experienced a 0.5 m (1 ft 8 in)-high tsunami, while Anaheim Bay had 0.4 m (1 ft 4 in) waves.[14] San Francisco's tide gauge recorded run-ups of 0.3 m (1 ft 0 in).[14] In San Diego, a 1 m (3 ft 3 in) wave caused minor damage, however the tide gauge only recorded a wave 0.2 m (7.9 in) high.[14] Other tide gauges across the state recorded run-up heights of 0.1–0.5 m (3.9 in – 1 ft 7.7 in).[14]
Elsewhere
editAt Fagasā, American Samoa, tsunami run-up heights reached 1.5 m (4 ft 11 in).[14] Pago Pago recorded wave heights of 0.3 m (1 ft 0 in), however the amplitude of the wave was 1.2 m (3 ft 11 in).[14] Midway recorded tsunami waves up to 0.5 m (1 ft 8 in) high.[14] Wake Island recorded amplitudes of 0.4 m (1 ft 4 in), Kwajalein and Enewetak recorded heights of 0.3 m (1 ft 0 in).[14] Johnston Atoll experienced waves of 0.1 m (3.9 in), while waves less than 0.1 m (3.9 in) were recorded at Guam and Chuuk Lagoon.[14] In Mexico, the tidal gauge in Ensenada, Baja California recorded the strongest waves at 1.0 m (3.4 ft).[22] Many countries in Central America also recorded tsunami run-ups including 0.24 m (0.8 ft) at Puntarenas, Costa Rica, 0.18 m (0.6 ft) at Puerto San José, Guatemala, and 0.061 m (0.2 ft) waves at La Unión, El Salvador.[22] Peru and Chile were favorably oriented for large waves from the tsunami, and as a result strong waves were recorded. In Peru, the strongest wave heights of 1.3 m (4.2 ft) were recorded at Matarani, with other coastal areas recording wave heights of 0.27–0.79 m (0.9–2.6 ft).[22] Valparaíso, Chile recorded wave heights of 2.0 m (6.7 ft), which were the highest across the country.[22] Across the rest of the country, wave heights of 0.91 m (3.0 ft), 0.91 m (3.0 ft), 1.3 m (4.2 ft), and 1.4 m (4.6 ft) were recorded at Arica, Antofagasta, Caldera, and Talcahuano, respectively.[22]
Damage
editPrompt warnings from the Seismic Sea Wave Warning System were credited with preventing major damage or loss of life.[14] The earthquake caused severe damage to roads and buildings on Adak including a crack 4.5 m (15 ft) in size,[6] however there were no deaths.[14] Two bridges and some oil and fuel-related structures at a dock were also destroyed there.[14] On Umnak, a concrete mixer and some docks were lost.[14] At Chernofski,[25] Trappers Cove, and Vsevidof, strong waves drowned sheep.[23] Oil pipelines were damaged at Sand Bay.[23] Many boats were damaged from strong waves.[23]
The tsunami caused twice the damage the tsunami of the 1946 earthquake did.[14] In Hawaii, damage was much more extensive, including two indirect fatalities that occurred when a pilot and photographer were killed while attempting to document the tsunami's arrival from an airplane. About 50 homes were flooded on the north shore of Oahu and significant effects were seen in Waialua Bay. Buildings and bridges were also flooded in Haleiwa.[14] In Hilo, the tsunami damaged buildings.[24] The total damage cost was over $5 million ($46 million in 2017).[7]
See also
editNotes
editReferences
edit- ^ a b c International Seismological Centre. Bulletin of the ISC. Thatcham, United Kingdom. [Event 886030].
- ^ a b c d Brockman, Espinosa & Michael 1988.
- ^ Kanamori 1977.
- ^ a b Abe 1979.
- ^ a b c Sykes 1971.
- ^ a b c Stover & Coffman 1993.
- ^ a b c d "Tsunami Historical Series: Aleutian Islands – 1957 Dataset | Science on a Sphere". sos.noaa.gov. 28 March 2017. Retrieved 24 January 2020.
- ^ "Aleutian Trench". Archived from the original on February 25, 2014. Retrieved August 7, 2022.
- ^ a b Yeats 2012.
- ^ Lay et al. 2017.
- ^ a b c Doser 2012.
- ^ a b c d Johnson et al. 1994.
- ^ a b Tape & Lomax 2022.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa Lander & Lockridge 1989.
- ^ Hwang & Kanamori 1986.
- ^ Davies et al. 1981.
- ^ a b Witter et al. 2019.
- ^ Boyd & Jacob 1986.
- ^ a b c Witter et al. 2016.
- ^ a b Nicolsky et al. 2016.
- ^ ANSS. "iscgem886030 1957". Comprehensive Catalog. U.S. Geological Survey.
- ^ a b c d e f Salsman 1959.
- ^ a b c d Lander 1996.
- ^ a b "1957 Aleutian Tsunami". Earthweb. University of Washington. Retrieved 29 December 2022.
- ^ "The 9 March 1957 Aleutian Tsunami" (PDF). Intergovernmental Oceanographic Commission United Nations Educational, Scientific and Cultural Organization. Retrieved 30 December 2022.
Sources
Abe, Katsuyuki (1979). "Size of great earthquakes of 1837–1974 inferred from tsunami data". Journal of Geophysical Research. 84 (B4): 1561–1568. Bibcode:1979JGR....84.1561A. doi:10.1029/JB084iB04p01561. Retrieved 31 December 2022.
- Boyd, Thomas M.; Jacob, Klaus (1 April 1986). "Seismicity of the Unalaska region, Alaska". Bulletin of the Seismological Society of America. 76 (2): 463–481. doi:10.1785/BSSA0760020463 (inactive 1 November 2024). Retrieved 31 December 2022.
{{cite journal}}
: CS1 maint: DOI inactive as of November 2024 (link) - Brockman, Stanley R.; Espinosa, A.F.; Michael, J.A. (1988). Catalog of intensities and magnitudes for earthquakes in Alaska and the Aleutian Islands, 1786-1981 (PDF) (Report). United States Geological Survey. doi:10.3133/b1840. Retrieved 31 December 2022.
- Davies, J.; Sykes, Lorraine; House, L.; Jacob, Klaus (10 May 1981). "Shumagin Seismic Gap, Alaska Peninsula: History of great earthquakes, tectonic setting, and evidence for high seismic potential". Journal of Geophysical Research. 86 (B5): 3821–3855. Bibcode:1981JGR....86.3821D. doi:10.1029/JB086iB05p03821. Retrieved 31 December 2022.
- Doser, Diane I. (2012). "Revisiting the 1979 St. Elias, Alaska, Aftershock Sequence and Its Regional Significance". Bulletin of the Seismological Society of America. 102 (6): 2392–2404. Bibcode:2012BuSSA.102.2392D. doi:10.1785/0120120007.
- Hwang, Lorraine J.; Kanamori, Hiroo (December 1986). "Of the May 7, 1986 Andreanof Islands Earthquake source parameters". Geophysical Research Letters. 13 (13): 1426–1429. Bibcode:1986GeoRL..13.1426H. doi:10.1029/GL013i013p01426. Retrieved 31 December 2022.
- Johnson, J. M.; Tanioka, Y.; Ruff, L. J.; Satake, K.; Kanamori, H.; Sykes, L. R. (1994). "The 1957 great Aleutian earthquake" (PDF). Pure and Applied Geophysics. 142 (1): 3, 4. Bibcode:1994PApGe.142....3J. doi:10.1007/bf00875966. hdl:2027.42/43159. S2CID 129109233. Archived from the original (PDF) on 2016-05-31. Retrieved 2016-05-20.
- Kanamori, Hiroo (10 July 1977). "The energy release in great earthquakes". Journal of Geophysical Research. 82 (20): 2981–2987. Bibcode:1977JGR....82.2981K. doi:10.1029/JB082i020p02981. Retrieved 31 December 2022.
- Lander, James F.; Lockridge, P. A. (1989). United States Tsunamis, (including United States possessions) 1690–1988: Publication 41-2 (PDF). United States Department of Commerce. pp. 44–46, 97.
- Lander, James F. (1996). TSUNAMIS AFFECTING ALASKA 1737-1996 (PDF). United States Department of Commerce. pp. 82, 138.
- Lay, Thorne; Ye, Lingling; Bai, Yefei; Cheung, Kwok Fai; Kanamori, Hiroo; Freymueller, Jeffrey; Steblov, Grigory M.; Kogan, Mikhail G. (December 8, 2017). "Rupture Along 400 km of the Bering Fracture Zone in the Komandorsky Islands Earthquake ( M W 7.8) of 17 July 2017: 2017 Mw 7.8 Komandorsky Is. Earthquake". Geophysical Research Letters. 44: 1–4. doi:10.1002/2017GL076148. S2CID 55917937. Retrieved August 8, 2022.
- Nicolsky, D. J.; Freymueller, J. T.; Witter, R. C.; Suleimani, E. N.; Koehler, R. D. (10 September 2016). "Evidence for shallow megathrust slip across the Unalaska seismic gap during the great 1957 Andreanof Islands earthquake, eastern Aleutian Islands, Alaska". Geophysical Research Letters. 43 (9): 10328–10337. Bibcode:2016GeoRL..4310328N. doi:10.1002/2016GL070704. S2CID 132656278.
- Salsman, Garrett G. (July 1959). The Tsunami of March 9, 1957, as Recorded at Tide Stations (PDF) (Report). United States Government Printing Office. pp. 7, 8.
- Stover, C. W.; Coffman, J. L. (1993). Seismicity of the United States, 1568–1989 (Revised) – U.S. Geological Survey Professional Paper 1527. United States Government Printing Office. pp. 29, 54, 55, 63.
- Sykes, Lynn R. (10 November 1971). "Aftershock zones of great earthquakes, seismicity gaps, and earthquake prediction for Alaska and the Aleutians". Journal of Geophysical Research. 76 (32): 8021–8041. Bibcode:1971JGR....76.8021S. doi:10.1029/JB076i032p08021. Retrieved 31 December 2022.
- Tape, Carl; Lomax, Anthony (2022). "Aftershock Regions of Aleutian-Alaska Megathrust Earthquakes, 1938–2021". Journal of Geophysical Research: Solid Earth. 127 (7). Bibcode:2022JGRB..12724336T. doi:10.1029/2022JB024336. S2CID 249857173.
- Witter, Robert C.; Carver, Gary A.; Briggs, Richard W.; Gelfenbaum, Guy; Koehler, Richard D.; la Selle, SeanPaul; Bender, Adrian M.; Engelhart, Simon E.; Hemphill-Haley, Eileen; Hill, Troy D. (16 January 2016). "Unusually large tsunamis frequent a currently creeping part of the Aleutian megathrust". Geophysical Research Letters. 43 (1): 76–84. Bibcode:2016GeoRL..43...76W. doi:10.1002/2015GL066083. S2CID 131231692.
- Witter, Robert C.; Briggs, Rich; Engelhart, Simon E.; Gelfenbaum, Guy; Koehler, Richard D.; Nelson, Alan; la Selle, SeanPaul; Corbett, Reide; Wallace, Kristi (16 November 2019). "Evidence for frequent, large tsunamis spanning locked and creeping parts of the Aleutian megathrust". Geological Society of America Bulletin. 131 (5–6): 707–729. Bibcode:2019GSAB..131..707W. doi:10.1130/B32031.1. S2CID 134362013. Retrieved 31 December 2022.
- Yeats, R. (2012). Active Faults of the World. Cambridge University Press. p. 23. ISBN 978-0521190855.
External links
edit- USGS Earthquake Hazards Program – Andreanof Islands, Alaska, Magnitude 8.6
- Tsunami! – 1957 Aleutian tsunami Archived 2010-06-11 at the Wayback Machine
- The March 9, 1957 Aleutian Tsunami – George Pararas-Carayannis
- The International Seismological Centre has a bibliography and/or authoritative data for this event.