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Coordinates: 37°N 16°W / 37°N 16°W / 37; -16
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{{Short description|Geological feature in the Atlantic Ocean}}
{{Location map+ | North Atlantic | relief = 1
{{Location map+ | North Atlantic | relief = 1
| caption = The Azores–Gibraltar Transform Fault stretches between the Strait of Gibraltar and the Azores Triple Junction
| caption = The Azores–Gibraltar transform fault stretches between the Strait of Gibraltar and the Azores triple junction
| places =
| places =
{{Location map~ | North Atlantic
{{Location map~ | North Atlantic
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}}
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The '''Azores–Gibraltar Transform Fault''' ('''AGFZ'''), also called a [[fault (geology)|fault zone]] and a [[fracture zone]], is a major seismic fault in the Central [[Atlantic Ocean]] west of the [[Strait of Gibraltar]]. It is the product of the complex interaction between the [[African Plate|African]], [[Eurasian Plate|Eurasian]], and [[Iberian Plate|Iberian]] plates.<ref name="Rich-etal">{{Harvnb|Richardson|Musson|Horsburgh|2006|loc=Appendix A, Tectonics of the Azores-Gibraltar fault zone, pp. 94–97}}</ref>
The '''Azores–Gibraltar transform fault''' ('''AGFZ'''), also called a [[fault (geology)|fault zone]] and a [[fracture zone]], is a major [[seismic zone]] in the eastern [[Atlantic Ocean]] between the [[Azores]] and the [[Strait of Gibraltar]]. It is the product of the complex interaction between the [[African plate|African]], [[Eurasian plate|Eurasian]], and [[Iberian plate|Iberian]] plates.<ref name="Rich-etal">{{Harvnb|Richardson|Musson|Horsburgh|2006|loc=Appendix A, Tectonics of the Azores-Gibraltar fault zone, pp. 94–97}}</ref> The AGFZ produced these large-magnitude earthquakes and, consequently, a number of large tsunamis: [[1755 Lisbon earthquake|1755 Lisbon]], [[1761 Lisbon earthquake|1761 Lisbon]], [[1816 North Atlantic earthquake|1816 North Atlantic]], [[1941 Gloria Fault earthquake]], [[1969 Portugal earthquake|1969 Horseshoe]] and [[1975 North Atlantic earthquake|1975]].<ref name="MartLori-intro" />
The AGFZ produced the large-magnitude [[1755 Lisbon earthquake|1755 Lisbon]] and [[1969 Portugal earthquake|1969 Horseshoe]] earthquakes and, consequently, a number of large tsunamis.<ref name="MartLori-intro" />


==Geologic setting==
==Geologic setting==
Forming the Atlantic segment of the boundary between the African and Eurasian plates, the AGFZ is largely dominated by compressional forces between these converging ({{Convert|3.8|to|5.6|mm/yr|abbr=on|in/year}}) plates, but it is subject of a dynamic tectonic regime also involving extension and [[transform fault|transform faulting]]. The [[oceanic crust|oceanic]] [[lithosphere]] in the area is directly related to the [[opening of the North Atlantic Ocean]] and one of the oldest preserved on Earth.<ref name="MartLori-intro">{{Harvnb|Martínez‐Loriente|Sallarès|Gràcia|Bartolome|2014|loc=Introduction, p. 127}}</ref>
Forming the Atlantic segment of the boundary between the African and Eurasian plates, the AGFZ is largely dominated by compressional forces between these converging ({{Convert|3.8|to|5.6|mm/yr|abbr=on|in/year}}) plates, but it is subject to a dynamic tectonic regime that also involves extension and [[transform fault|transform faulting]]. The [[oceanic crust|oceanic]] [[lithosphere]] in the area is directly related to the [[opening of the North Atlantic Ocean]] and is one of the oldest preserved on Earth.<ref name="MartLori-intro">{{Harvnb|Martínez‐Loriente|Sallarès|Gràcia|Bartolome|2014|loc=Introduction, p. 127}}</ref>


The western end of the AGFZ, the [[Azores Triple Junction]] on the [[Mid-Atlantic Ridge]] (MAR), is where the North American, African, and Eurasian plates meet. Spreading in the MAR is faster south of the AGFZ than north of it, which results in a trancurrent movement along the AGFZ at about {{convert|4|mm/yr|abbr=on|in/year}}.<ref name="Rich-etal" />
The western end of the AGFZ, the [[Azores triple junction]] on the [[Mid-Atlantic Ridge]] (MAR), is where the North American, African, and Eurasian plates meet.<ref>{{Cite book|date=2021-01-01|chapter=North-East Atlantic Islands: The Macaronesian Archipelagos|chapter-url=https://www.sciencedirect.com/science/article/pii/B9780081029084000278|language=en|pages=674–699|doi=10.1016/B978-0-08-102908-4.00027-8|title=Encyclopedia of Geology |last1=Carracedo |first1=Juan Carlos |last2=Troll |first2=Valentin R. |isbn=9780081029091 |s2cid=226588940 }}</ref> Spreading in the MAR is faster south of the AGFZ than north of it, which results in a transcurrent movement along the AGFZ at about {{convert|4|mm/yr|abbr=on|in/year}}.<ref name="Rich-etal" /> The eastern segment of the fault is complex and characterised by a series of seamounts and ridges separating the [[Tores Abyssal Plain|Tores]] and [[Horseshoe Abyssal Plain|Horseshoe]] abyssal plains. The active compressional deformation in this segment is an extremely rare example of compression between two oceanic lithospheres.<ref name="Rich-etal" />
The eastern segment of the fault is complex and characterised by a series of seamounts and ridges separating the [[Tores Abyssal Plain|Tores]] and [[Horseshoe Abyssal Plain|Horseshoe]] abyssal plains. The active compressional deformation in this segment is an extremely rare example of compression between two oceanic litospheres.<ref name="Rich-etal" />


==Plate tectonics==
==Plate tectonics==
The Atlantic Ocean is surrounded by [[passive margin]]s with the exception of three subduction zones: the [[Lesser Antilles Volcanic Arc|Lesser Antilles Arc]] in the Caribbean, the [[Scotia Arc]] in the South Atlantic, and the [[Gibraltar Arc]] in the western [[Mediterranean]]. The Gibraltar Arc is propagating westward into the Atlantic over an east-dipping oceanic slab (one of the remainders of the [[Tethys Ocean]]). This subduction/[[back-arc basin]] system is developing in front of the Alboran Block (under the [[Alboran Sea]]) at a rate faster than that of the Africa-Iberia convergence. Consequently, this area is a rare case of a passive margin slowly being transformed into an [[active margin]].<ref name="Duarte-intro">{{Harvnb|Duarte|Rosas|Terrinha|Schellart|2013|loc=Introduction, pp. 839–840}}</ref>
The Atlantic Ocean is surrounded by [[passive margin]]s with the exception of three subduction zones: the [[Lesser Antilles Volcanic Arc|Lesser Antilles Arc]] in the Caribbean, the [[Scotia Arc]] in the South Atlantic, and the [[Gibraltar Arc]] in the western [[Mediterranean]]. The Gibraltar Arc is propagating westward into the Atlantic over an east-dipping oceanic slab (one of the remainders of the [[Tethys Ocean]]). This subduction/[[back-arc basin]] system is developing in front of the Alboran Block (under the [[Alboran Sea]]) at a rate faster than that of the Africa-Iberia convergence. Consequently, this area is a rare case of a passive margin slowly being transformed into an [[active margin]].<ref name="Duarte-intro">{{Harvnb|Duarte|Rosas|Terrinha|Schellart|2013|loc=Introduction, pp. 839–840}}</ref> The extension of this subduction system, known as the "allochthonous unit of the Gulf of Cadiz" (AUGC), marks the continuing propagation of the [[Alpide belt]] into the Atlantic along the AGFZ.<ref>{{Harvnb|Hernández-Molina|Sierro|Llave|Roque|2016|loc=Geologic framework, p. 4}}</ref> In the context of the [[Wilson Cycle]], this suggests that the beginning of the closure of the Atlantic is taking place in front of the three Atlantic subduction zones.<ref name="Duarte-intro" />

The extension of this subduction system, known as the "allochthonous unit of the Gulf of Cadiz" (AUGZ), marks the continuing propagation of the [[Alpide belt]] into the Atlantic along the AGFZ.<ref>{{Harvnb|Hernández-Molina|Sierro|Llave|Roque|2016|loc=Geologic framework, p. 4}}</ref>
==See also==
In the context of the [[Wilson Cycle]], this suggests that the beginning of the closure of the Atlantic is taking place in front of the three Atlantic subduction zones.<ref name="Duarte-intro" />
* [[Fifteen-Twenty fracture zone]]


==References==
==References==

===Notes===
===Notes===
{{Reflist}}
{{Reflist}}
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| year = 2013 | journal = Geology | volume = 41 | issue = 8 | pages = 839–842
| year = 2013 | journal = Geology | volume = 41 | issue = 8 | pages = 839–842
| url = https://www.researchgate.net/publication/237145222
| url = https://www.researchgate.net/publication/237145222
| doi = 10.1130/G34100 | ref = harv| doi-broken-date = 2019-02-20
| doi = 10.1130/G34100.1 | bibcode = 2013Geo....41..839D
}}<!-- {{Harvnb|Duarte|Rosas|Terrinha|Schellart|2013}} -->
}}<!-- {{Harvnb|Duarte|Rosas|Terrinha|Schellart|2013}} -->
* {{Cite journal
* {{Cite journal
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| year = 2016 | journal = Marine Geology | volume = 377 | pages = 7–39
| year = 2016 | journal = Marine Geology | volume = 377 | pages = 7–39
| url = https://www.researchgate.net/publication/283148552 | access-date = 29 October 2015
| url = https://www.researchgate.net/publication/283148552 | access-date = 29 October 2015
| doi = 10.1016/j.margeo.2015.09.013 | ref = harv| bibcode = 2016MGeol.377....7H
| doi = 10.1016/j.margeo.2015.09.013 | bibcode = 2016MGeol.377....7H
}}<!-- {{Harvnb|Hernández-Molina|Sierro|Llave|Roque|2016}} -->
| doi-access = free| hdl = 2164/13991| hdl-access = free}}<!-- {{Harvnb|Hernández-Molina|Sierro|Llave|Roque|2016}} -->
* {{Cite journal
* {{Cite journal
| last1 = Martínez‐Loriente | first1 = S.
| last1 = Martínez‐Loriente | first1 = S.
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| year = 2014 | journal = Journal of Geophysical Research: Solid Earth | volume = 119 | issue = 1 | pages = 127–149
| year = 2014 | journal = Journal of Geophysical Research: Solid Earth | volume = 119 | issue = 1 | pages = 127–149
| url = https://www.researchgate.net/publication/259534320 | access-date = 29 October 2016
| url = https://www.researchgate.net/publication/259534320 | access-date = 29 October 2016
| doi = 10.1002/2013JB010476 | ref = harv| bibcode = 2014JGRB..119..127M
| doi = 10.1002/2013JB010476 | bibcode = 2014JGRB..119..127M
| hdl = 10261/108896
}}<!-- {{Harvnb|Martínez‐Loriente|Sallarès|Gràcia|Bartolome|2014}} -->
| s2cid = 284607
| hdl-access = free}}<!-- {{Harvnb|Martínez‐Loriente|Sallarès|Gràcia|Bartolome|2014}} -->
* {{Cite conference
* {{Cite conference
| last1 = Richardson | first1 = S.
| last1 = Richardson | first1 = S.
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| title = Tsunamis–Assessing the hazard for the UK and Irish coast
| title = Tsunamis–Assessing the hazard for the UK and Irish coast
| year = 2006 | conference = 41st Defra Flood and Coastal Management Conference | location = York, UK
| year = 2006 | conference = 41st Defra Flood and Coastal Management Conference | location = York, UK
| url = http://archive.defra.gov.uk/environment/flooding/documents/risk/tsunami06.pdf | archive-url = http://webarchive.nationalarchives.gov.uk/20130123162956/http://archive.defra.gov.uk/environment/flooding/documents/risk/tsunami06.pdf | dead-url = yes | archive-date = 23 January 2013 | format = PDF (7.8Mb) | access-date = 29 October 2016
| url = http://archive.defra.gov.uk/environment/flooding/documents/risk/tsunami06.pdf | archive-url = http://webarchive.nationalarchives.gov.uk/20130123162956/http://archive.defra.gov.uk/environment/flooding/documents/risk/tsunami06.pdf | url-status = dead | archive-date = 23 January 2013 | format = PDF (7.8Mb) | access-date = 29 October 2016
| ref = harv}}<!-- {{Harvnb|Richardson|Musson|Horsburgh|2006}} -->
}}<!-- {{Harvnb|Richardson|Musson|Horsburgh|2006}} -->
{{Refend}}
{{Refend}}
* {{Cite journal
| last1 = Ribeiro | first1 = J. R.
| last2 = Correia | first2 = A. P. S.
| last3 = Ribeiro | first3 = A. I. C.
| title = 2 February 1816, an Overlooked North Atlantic M 8 Earthquake
| year = 2020 | journal = Seismological Research Letters | volume = 91 | issue = 5 | pages = 2912–2921
| url = https://pubs.geoscienceworld.org/ssa/srl/article-standard/91/5/2912/588074/2-February-1816-an-Overlooked-North-Atlantic-M-8
| doi = 10.1785/0220200201
| bibcode = 2020SeiRL..91.2912R
| s2cid = 225211860
}}

==Further reading==
*{{citation
|last1=i. c. Ribeiro|first1=Ana
|last2=p. s. Correia|first2=Ana
|last3=Ribeiro|first3=José R.
|title=2 February 1816, an Overlooked North Atlantic M 8 Earthquake
|year=2020|journal=Seismological Research Letters
|volume=91
|issue=5
|pages=2912–2921
|doi=10.1785/0220200201|bibcode=2020SeiRL..91.2912R
|s2cid=225211860
}}


{{Gibraltar topics}}
{{Gibraltar topics}}
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{{DEFAULTSORT:Azores-Gibraltar Transform Fault}}
{{DEFAULTSORT:Azores-Gibraltar Transform Fault}}
[[Category:Plate tectonics]]
[[Category:Geology of the Atlantic Ocean]]
[[Category:Seismic faults of Europe]]
[[Category:Seismic faults of Europe]]
[[Category:Geology of Gibraltar]]
[[Category:Geology of Gibraltar]]

Latest revision as of 05:19, 13 December 2024

Azores–Gibraltar transform fault is located in North Atlantic
Azores–Gibraltar transform fault
Azores–Gibraltar transform fault
The Azores–Gibraltar transform fault stretches between the Strait of Gibraltar and the Azores triple junction

The Azores–Gibraltar transform fault (AGFZ), also called a fault zone and a fracture zone, is a major seismic zone in the eastern Atlantic Ocean between the Azores and the Strait of Gibraltar. It is the product of the complex interaction between the African, Eurasian, and Iberian plates.[1] The AGFZ produced these large-magnitude earthquakes and, consequently, a number of large tsunamis: 1755 Lisbon, 1761 Lisbon, 1816 North Atlantic, 1941 Gloria Fault earthquake, 1969 Horseshoe and 1975.[2]

Geologic setting

[edit]

Forming the Atlantic segment of the boundary between the African and Eurasian plates, the AGFZ is largely dominated by compressional forces between these converging (3.8 to 5.6 mm/a (0.15 to 0.22 in/year)) plates, but it is subject to a dynamic tectonic regime that also involves extension and transform faulting. The oceanic lithosphere in the area is directly related to the opening of the North Atlantic Ocean and is one of the oldest preserved on Earth.[2]

The western end of the AGFZ, the Azores triple junction on the Mid-Atlantic Ridge (MAR), is where the North American, African, and Eurasian plates meet.[3] Spreading in the MAR is faster south of the AGFZ than north of it, which results in a transcurrent movement along the AGFZ at about 4 mm/a (0.16 in/year).[1] The eastern segment of the fault is complex and characterised by a series of seamounts and ridges separating the Tores and Horseshoe abyssal plains. The active compressional deformation in this segment is an extremely rare example of compression between two oceanic lithospheres.[1]

Plate tectonics

[edit]

The Atlantic Ocean is surrounded by passive margins with the exception of three subduction zones: the Lesser Antilles Arc in the Caribbean, the Scotia Arc in the South Atlantic, and the Gibraltar Arc in the western Mediterranean. The Gibraltar Arc is propagating westward into the Atlantic over an east-dipping oceanic slab (one of the remainders of the Tethys Ocean). This subduction/back-arc basin system is developing in front of the Alboran Block (under the Alboran Sea) at a rate faster than that of the Africa-Iberia convergence. Consequently, this area is a rare case of a passive margin slowly being transformed into an active margin.[4] The extension of this subduction system, known as the "allochthonous unit of the Gulf of Cadiz" (AUGC), marks the continuing propagation of the Alpide belt into the Atlantic along the AGFZ.[5] In the context of the Wilson Cycle, this suggests that the beginning of the closure of the Atlantic is taking place in front of the three Atlantic subduction zones.[4]

See also

[edit]

References

[edit]

Notes

[edit]
  1. ^ a b c Richardson, Musson & Horsburgh 2006, Appendix A, Tectonics of the Azores-Gibraltar fault zone, pp. 94–97
  2. ^ a b Martínez‐Loriente et al. 2014, Introduction, p. 127
  3. ^ Carracedo, Juan Carlos; Troll, Valentin R. (2021-01-01). "North-East Atlantic Islands: The Macaronesian Archipelagos". Encyclopedia of Geology. pp. 674–699. doi:10.1016/B978-0-08-102908-4.00027-8. ISBN 9780081029091. S2CID 226588940.
  4. ^ a b Duarte et al. 2013, Introduction, pp. 839–840
  5. ^ Hernández-Molina et al. 2016, Geologic framework, p. 4

Sources

[edit]

Further reading

[edit]

37°N 16°W / 37°N 16°W / 37; -16