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2016 Alboran Sea earthquake: Difference between revisions

Coordinates: 35°38′56″N 3°40′55″W / 35.649°N 3.682°W / 35.649; -3.682
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2016 Alboran Sea earthquake
epicenter.
epicenter.
2016 Alboran Sea earthquake (Morocco)
epicenter.
epicenter.
2016 Alboran Sea earthquake (Spain)
UTC time2016-01-25 04:22:02
ISC event608278395
USGS-ANSSComCat
Local dateJanuary 25, 2016 (2016-01-25)
MagnitudeMw 6.3–6.4, Ms 6.3[1]
Depth12 km (7.5 mi)
Epicenter35°38′56″N 3°40′55″W / 35.649°N 3.682°W / 35.649; -3.682
TypeStrike-slip
Areas affectedMorocco & Spain
Max. intensityMMI VI (Strong)[2]
ForeshocksOne recorded
Aftershocks>2350 recorded from 25 Jan to 13 May
Casualties1 dead, ~30 injured

The 2016 Alborian Sea earthquake struck offshore, north northeast of Al Hoceïma, Morocco in the Strait of Gibraltar on January 25 at 04:22:02 UTC, or roughly 05:22:02 West Africa Time. The strongest in the Alboran Sea, the earthquake measured 6.3 or 6.4 on the moment magnitude scale (Mw ) at a shallow hypocenter depth of 12 km (7.5 mi).[3][1] Assigned a maximum Modified Mercalli scale intensity of VI (Strong),[2] the earthquake caused one fatality, at least 30 injuries, and moderate damage in Morocco and Spain.

Background

The Strait of Gibraltar sits atop a convergent boundary where the Nubian Plate, a fragment of the African Plate, is collidng with the Iberian Plate (part of the Eurasian Plate) at a rate of 5 mm/yr. The northwest-southeast convergence between the two plates result in the occurrence of active shallow faulting offshore and onshore. The Trans-Alboran Shear Zone; a seismic zone measuring 500-km-long by 80-km-wide accommodates the interaction between the two plates. Seismic activity associated with these shallow faults are characterized by their small to moderately size in magnitudes with thrust, strike-slip or normal focal mechanisms.[4] Historical earthquakes associated with the seismogenic zone have been locally devastating, causing large loss of life. The most damaging earthquake in recent history occurred on 24 February 2004 when a Mw  6.4 quake struck Al Hoceïma, killing at least 628 people. Major events also occurred in 1804, 1910 and 1994. The deadly 1522 Almería earthquake in southern Spain is associated with shallow faulting within this seismic one.[5]

Besides the presence of shallow seismicity, intermediate to deep-focus earthquakes have occurred in the surrounding area as well. The largest deep-focus quake was an Mw  7.8 which struck the Province of Málaga in Andalusia, Spain at a great depth of 626.2 km (389.1 mi).[6] Little is known about the origins of deep-focus earthquakes beneath the Alboran Sea, with theories suggesting an oceanic lithosphere is subducting to the east along the Gibraltar Arc at a near-vertical dip at depth, or some complex slab delamination processes.[5]

Earthquake

The Mw  6.3–6.4 mainshock resulted from shallow left-lateral strike-slip faulting along the 100-km-long Al-Idrissi Fault.[7] The mainshock ruptured for a length of approximately 21 km (13 mi) in a northeast direction at a velocity of 3.0 km/s.[8] A maximum fault displacement of 0.6 is estimated near the hypocenter of the quake on the fault.[4]

Foreshock and aftershocks

Four days prior (January 21) to the mainshock, an Mwr  5.1 earthquake struck with an epicenter southeast of the mainshock at a depth of 10 km (6.2 mi). The foreshock caused no damage but was felt III (Weak) at its maximum in Málaga, Spain. It was also felt in Nador and Tangier, Morocco.[9] This foreshock was the first recorded in the 2016 Alboran earthquake sequence.

Twenty-four aftershocks measuring 4.0 or greater were recorded by the U.S. Geological Survey. Four of the aftershocks had magnitudes greater than 5.0, with the largest measuring a 5.3 just over ten minutes after the mainshock.[2][10] The aftershocks were strong enough to be felt in Morocco and Spain. The focal mechanisms for the largest aftershocks featured shallow reverse faulting. A total of more than 2350 aftershocks were recorded from 25 January to 13 May the same year, 197 of them greater or equal to magnitude 3.0.[4][8]

Impact

In Al Hoceima, a 12-year-old boy suffered a heart attack caused by panic during the earthquake, and died after arriving at a hospital.[11] A woman was injured after jumping from a two-storey building for fears that it would collapse.[12]

In Melilla, a Spanish city in North Africa, emergency services recieved over 200 calls from residents reporting damage to homes and buildings. Power supply was disrupted in some areas in the city. At least 26 people were treated for their injuries that consisted of mainly cuts and bruises. According to the Mayor-President of Melilla, Juan Jose Imbroda, schools in the city were closed for damage inspections.[13] Damage including concrete blocks falling from an apartment building was reported in the city. The homes of 160 residents sustained serious damage but they were occupied shortly after the quake. The total damage in the city is estimated at 12 million Euros.[14]

See also

References

  1. ^ a b GCMT. "Global CMT Catalog Search". globalcmt.org. Global Centroid Moment Tensor. Retrieved 6 September 2021.
  2. ^ a b c U.S. Geological Survey (25 January 2016). "M 6.3 - 49 km NNE of Al Hoceïma, Morocco". earthquake.usgs.gov. USGS–ANSS. Retrieved 6 September 2021.
  3. ^ EMSC (25 January 2016). "M 6.3 - STRAIT OF GIBRALTAR - 2016-01-25 04:22:02 UTC". emsc-csem.org. European-Mediterranean Seismological Centre. Retrieved 6 September 2021.
  4. ^ a b c Eulàlia Gràcia; Ingo Grevemeyer; Rafael Bartolomé; Hector Perea; Sara Martínez-Loriente; Laura Gómez de la Peña; Antonio Villaseñor; Yann Klinger; Claudio Lo Iacono; Susana Diez; Alcinoe Calahorrano; Miquel Camafort; Sergio Costa; Elia d’Acremont; Alain Rabaute; César R. Ranero (2 September 2019). "Earthquake crisis unveils the growth of an incipient continental fault system". Nature Communications. 10 (3482). doi:10.1038/s41467-019-11064-5.
  5. ^ a b "Tectonics of the Alboran Sea". ign.es. Instituto Geográfico Nacional. Retrieved 6 September 2021.
  6. ^ U.S. Geological Survey. "M 7.8 - 4 km W of Dúrcal, Spain". earthquake.usgs.gov. USGS–ANSS. Retrieved 6 September 2021.
  7. ^ Rafael Espino (14 January 2020). "Terremotos: una falla activa en el Mar de Alborán no para de crecer". Almería, Spain. Diario de Almeria. Retrieved 6 September 2021.
  8. ^ a b Daniel Stich; Rosa Martín; Jose Morales; José Ángel López-Comino; Flor de Lis Mancilla (2020). "Slip Partitioning in the 2016 Alboran Sea Earthquake Sequence (Western Mediterranean)". Frontiers in Earth Science. 8 (587356). doi:10.3389/feart.2020.587356.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  9. ^ U.S. Geological Survey. "M 5.1 - 48 km NNE of Al Hoceïma, Morocco". earthquake.usgs.gov. USGS–ANSS. Retrieved 6 September 2021.
  10. ^ U.S. Geological Survey. "M 5.3 - 51 km NNE of Al Hoceïma, Morocco". earthquake.usgs.gov. USGS-ANSS. Retrieved 6 September 2021.
  11. ^ Simon Hunter (26 January 2016). "Earthquake measuring 6.3 rocks Andalusia and Melilla". Madrid, Spain. El País. Retrieved 6 September 2021.
  12. ^ "Un niño de 12 años muere al sufrir un infarto durante el terremoto" (in Spanish). El Mundo. 26 January 2016. Retrieved 6 September 2021.
  13. ^ "Spain: Magnitude 6.2 earthquake felt in African enclave". Madrid, Spain. Associated Press. 25 January 2021. Retrieved 6 September 2021.
  14. ^ "Melilla cierra muchas heridas pero sin olvidar el terremoto un año después". EFE. 24 January 2017. Retrieved 6 September 2021.

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