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Geology of Reykjanes Peninsula

January 01, 1970

The Reykjanes Peninsula (Icelandic: Reykjanesskagi [ˈreiːcaˌnɛːsˌskaijɪ]) in southwest Iceland is the continuation of the mostly submarine Reykjanes Ridge, a part of the Mid-Atlantic Ridge, on land and reaching from Esja in the north and Hengill in the east to Reykjanestá in the west.[1] Suðurnes (transl. Southern Peninsula) is an administrative unit covering part of Reykjanes Peninsula.

Rifting and hot spot activity in Iceland
Volcanism at Reykjanes Peninsula: Craters and lavas from the 13th century, acidic lake from geothermal power station, steam vents and hydrothermal alteration (Reykjanes volcanic system)
Öskjuhlíð
Þráinskjöldur displaying its very gentle slope with Keilir and mountains of the Krýsuvík Volcanic System
Keilir subglacial cone, surrounded by lavas and other volcanic landforms of Holocene shield volcano Þráinskjóldur as well as fissures and faults
Other subglacial volcanoes on Reykjanes Peninsula: Litla Sandfell with tuya Geitafell (Brennisteinsfjöll) behind

A great deal of volcanic activity was occurring in the Reykjanes Peninsula in 2020 and into 2021, after nearly 800 years of inactivity. After the eruption of the Fagradalsfjall volcano on 19 March 2021, National Geographic's experts predicted that this "may mark the start of decades of volcanic activity". The eruption was small leading to a prediction that this volcano was unlikely to threaten "any population centers".[2]

Origin edit

The two most important factors for the existence of Iceland, rifting in combination with the Iceland hotspot, were responsible for the existence of Reykjanesskagi.[3] Reykjanes Peninsula originated in a so-called rift jump 6-7 million years ago. At this time, the Snæfellsnes-Skagi rift had drifted so far to the west and away from the presumed steady place hot spot, that activity shifted eastwards in direction of this mantle plume which is now thought to be situated under the big glacier shield of Vatnajökull.[1] Outcropping rocks have ages from 3.2 million years to the present.[4]

Volcanism and glaciations edit

The topography of Reykjanes Peninsula was formed by glaciers and volcanism, basaltic lava fields covering a good part of the peninsula, in between volcanoes of subglacial as well as subaerial origin, namely tuyas, hyaloclastic ridges (tindars), shield volcanoes and crater rows.[1] Some volcanic systems are submarine, so that there is a pronounced continuation between the volcanism of Reykjanes Ridge, a part of the Mid-Atlantic Ridge, and the Reykjanes Peninsula.

Reykjavík region edit

Famous in the area of Reykjavík is the Grágrýti ([ˈkrauːˌkriːtɪ], Gray Lava). These tertiary basalt lava layers cover much of the ground around and under Reykjavík, but their origin is unknown.[5] It is thought that the small hills within the city, some of which were islands during periods of glaciation, could be small shield volcanoes from warm spells of the glaciations.[6] But it is known that during the Plio-Pleistocene (from 3.2 – 1.8 million years BP) two central volcanoes were active in the Reykjavík region, Viðey volcano and Stardals volcano. Both volcanoes partially formed Esja and the smaller mountains near Reykjavík and the hills on the islands and small peninsulas like Viðey and Kjarlarnes.[5] Volcanic and glacial sediments outcrop at some places around Reykjavík, especially in Fossvogur.[7]

Subglacial volcanoes edit

Iceland was heavily ice covered during the glaciations and even completely ice covered during parts of them. As a result, there are hundreds of subglacially formed volcanoes on Iceland. On Reykjanes Peninsula, glaciers were present until around 15,000 -12,000 years ago.[1] Most subglacial edifices are thought to be Weichselian, with a few being older.[1]

The subglacial volcanoes can be identified according to type as tuyas (bigger edifices whose upper parts are covered by the products of subaerial eruptions), hyaloclastite ridges (also called tindars) which means elongated subglacially formed volcanic edifices of different sizes, and cone-like subglacial mounds (very rare). There are many hyaloclastite ridges, with most consisting of mixtures of pillow lavas, hyaloclastite and lapilli tuff.[8] There are also elongated pillow structures, called pillow tindars.[1] Examples on Reykjanes peninsula are Sveifluháls, Núpshlíðarháls [ˈnupsˌl̥iːðarˌhauls], Undirhlíðar [ˈʏntɪrˌl̥iːðar̥], Helgafell and Vífilsfell.[1]

The tuyas are often sorted according to their form (morphology) into flat-topped tuyas, elongated tuyas, conical tuyas and complex tuyas.[1] The prominent igneous rock is basalt, though there are also some basaltic andesite or andesite volcanoes on Reykjanes, like Húsmúli [ˈhuːsˌmuːlɪ] and Stapafell [ˈstaːpaˌfɛtl̥] within the Hengill volcanic system.[1] Examples for tuyas on Reykjanes Peninsula are Keilir (conical tuya), Geitafell [ˈceiːtaˌfɛtl̥] (Brennisteinsfjöll), Geitahlíð and Þorbjörn are flat-topped tuyas whereas Þorðarfell [ˈθɔrðarˌfɛtl̥] and Syllingarfell [ˈsɪtliŋkarˌfɛtl̥] are complex tuyas.[1]

Postglacial shield volcanoes edit

The Holocene shield volcanoes represent the great bulk of magma production in this part of Iceland and form the base of many other volcanic landforms. Olivine tholeiites constitute about 60% by volume of all post-glacial lava products on the Reykjanes Peninsula."[9] The postglacial shield volcanoes are situated at the periphery of fissure systems. They erupted after the Weichselian glaciation.[1]

These shields are mostly circular in form, built up from pāhoehoe lavas and composed of a low-sloping lava cone surrounded by a lava apron;[1] the older shields are made from picrite, the younger, bigger ones from olivine-tholeiite. They were probably formed in long-lived eruptions (years to decades).[1] The best known edifices are Selvogsheiði [ˈsɛlˌvɔksˌheiːðɪ] (height 176 m, basal width 4.8 km, summit width 0.7 km, volume 0.64 km3), Þráinskjöldur [ˈθrauːɪnˌscœltʏr̥] (volume 5.2 km3), Heiðin há (volume 6 km3) and Sandfellshæð [ˈsantˌfɛlsˌhaiːθ] (4.5 km3).[10] Sandfellshæð is a very regularly constructed shield volcano and the largest in the southern part of Reykjanes Peninsula.[11] Another important shield volcano on Reykjanes Peninsula is Leitin, formed around 5,000 years ago.

 
Selected post-glaciation geological features in the Reykjanes Peninsula allowing fuller context. Other shading shows:    calderas,   central volcanoes and   fissure swarms,   subglacial terrain above 1,100 m (3,600 ft), and   seismically active areas. Clicking on the image enlarges to full window and enables mouse-over with more detail.

Reykjanes volcanic belt edit

 
Volcanic systems of the Reykjanes Peninsula (SW-Iceland): 1→Reykjanes (volcanic system), 2→Eldvörp–Svartsengi, 3→Fagradalsfjall, 4→Krýsuvík, 5→Brennisteinsfjöll, 6→Hengill

Since the end of the Pleistocene glaciation (15,000–11,000 years ago in the region),[1] Holocene volcanoes have contributed to the basaltic lava fields of the peninsula. The Reykjanes volcanic belt (previously also known as the Reykjanes Peninsula ridge,[12] or Reykjanes Peninsula volcanic zone[13]: 17511 ), one of the present day volcanic zones of Iceland, is connected to the submarine Reykjanes Ridge and consists (depending on author) of 3 to 6 or even 7 volcanic systems, arranged en echelon, i.e. more or less side by side, and in an average 40° angle to the spreading direction NE–SW over the peninsula.[14][15] One of the reasons for the varying number of systems in the literature is that geothermal areas, magnetic anomalies, eruptive centers, and geochemistry do not all align.[1]

Within the belt is a region of transition from the mainly extensional structure of the underwater Reykjanes Ridge of the Atlantic mid-oceanic ridge to the trans-tensional plate boundary in the Reykjanes Peninsula.[14] These volcanic systems are: Eldey volcanic system (mostly submarine), Reykjanes volcanic system, Svartsengi volcanic system (often thought to be a part of Reykjanes volcanic system as geochemistry is similar),[1] Fagradalsfjall volcanic system, Krýsuvík volcanic system, Brennisteinsfjöll volcanic system, and Hengill volcanic system (which stretches up to the north and into the West volcanic zone).[16]

Only the Hengill volcanic system, the most eastern system, has an additional central volcano and this volcano is complex as it is at the intersection with the West volcanic zone of Iceland and South Iceland seismic zone,[17][18] forming the Hengill triple junction.[19]: 1128  It has some rhyolite and andesite components.[18] It is tectonically the current locus of accretion in the south of Iceland propagating southward at between 3.5–5 cm/year (1.4–2.0 in/year).[13]: 17512 

Otherwise, the volcanic systems, because they are on top of a rift segment, show a tendency for basaltic fissure eruptions.[14] There are tephra deposits from both offshore explosive Holocene eruptions, some of whom were from volcanoes of the Reykjanes volcanic system,[20] and the most recent Hengill eruption.[18]

Tectonics edit

 
Reykjanes Volcanic Belt (RVB) within the volcanic zones of Iceland

As is usual within rift zones, tectonics play an important role on Reykjanes Peninsula. Earthquakes are often registered. They may reach up to magnitude M6, but most of the earthquakes are small.[21] These earthquakes often take place within the volcanic systems, but there are also many faults, fractures and fissures in the N-S direction on the peninsula. Additionally, the region is influenced by the South Iceland seismic zone. This southern transform zone of Iceland is between the West volcanic zone and the East volcanic zone. The larger earthquakes are felt and registered on Reykjanes Peninsula, and they can also trigger medium-sized quakes in this region, as last seen in 2008 and especially in 2000.[22]

Volcano-tectonic situation in modern times edit

Further information: Fagradalsfjall § 2019 to 2021 activity and eruptions, Fagradalsfjall § 2022 eruption, Fagradalsfjall § 2023 eruptive activity, and 2023-2024 Sundhnúkur eruptions

The Reykjanes Peninsula lies within a transtensional rift zone. The rate of spread is about 1.8 cm/year (0.71 in/year).[14] The spreading that occurs generates NE-SE trending fissure swarm faulting and connects the area with the other surrounding rift zones. The stress that is accumulated through the volcanism is released every 800-1000 years through the fissure eruptions. The fissure swarms are the origin of underground near vertical dykes. The Reykjanes' dykes travel near vertically through Quaternary and Tertiary sediments. These dykes generate permeability in rock that would otherwise be impermeable. This increased permeability creates the potential for geothermal extraction at an economic level. The dykes underground reach up to 300 meters to the surface. Every tens of years, microearthquakes move the strike-slip plate boundaries.[14]

Since Iceland's settlement in the 9th century CE, the peninsula has undergone two periods of prolonged volcanism. The first, from 950 to 1240, culminated in the lengthy series of eruptions between 1210–1240 called the Reykjanes Fires that deposited substantial amounts of lava and tephra across the peninsula. The volcanoes in the region were subsequently dormant for nearly 800 years.[23] The second episode began in 2020 and has been dubbed the "New Reykjanes Fires" in recognition of the similarity with the previous episode.[24]

Tectonic precursors (2020-21) edit

 
5.2 earthquake near Fagradalsfjall, 7 March 2021

On 20 October 2020, a magnitude 5.6 volcanism-related earthquake was registered at Núpshlíðarháls within the Krýsuvík system.[25] It was followed up by over 1,000 aftershocks[26][27] and is part of a series stretching over nearly one year. On 24 February 2021, a new earthquake series comprising hundreds of earthquakes and including two earthquakes over 5 were registered by the Icelandic Meteorological Office (IMO), with one registering at 5.7.[28] The alert phase of Iceland's Civil Protection was activated, because even bigger earthquakes could not be excluded in this earthquake series.[29] The whole region has been under close scrutiny of scientists.[29] A magnitude 5.1 earthquake was recorded on 1 March 2021. In addition, satellite pictures showed a pronounced uplift near the mountain Keilir. The magmatic dike to the southwest Keilir has a length of about 5 km.[30]

Fagradalsfjall eruptions (2021-23) edit

 
Cinder cone produced by the 2021 Fagradalsfjall eruption
Further information: Fagradalsfjall § 2019 to 2021 activity and eruptions, Fagradalsfjall § 2022 eruption, and Fagradalsfjall § 2023 eruptive activity

As of February 2024, there have so far been three eruptions on and around the mountain of Fagradalsfjall, in an uninhabited region some 15 km northeast of Grindavík. A volcanic eruption began at Fagradalsfjall on the evening of 19 March 2021.[31] The eruption was small and effusive, from a 500–800 m long fissure; National Geographic predicted that this volcano was unlikely to threaten "any population centers".[2]

The next small fissure eruption in the Fagradalsfjall volcanic system started in the Meradalir valleys on 1 August 2022 and ceased on 22 August 2022.[32]

On 10 July 2023 at 16:40 UTC, a fissure eruption began adjacent to the summit of Litli-Hrútur and ended by the beginning of August 2023.[33]

Sundhnúkur eruptions (2023-24) edit

 
Lava flows and fire fountains at Sundhnúkur in January 2024
Further information: 2023-2024 Sundhnúkur eruptions

As of April 2024, there have so far been four eruptions immediately north of Grindavík, with one partly occurring within the town's limits.

Beginning in late October 2023, an intense series of earthquakes in and around Grindavík prompted the evacuation of the town, as a large underground magmatic intrusion indicated that an eruption in the area was imminent.[34] The eruption began on 18 December at 10pm local time, north–east of Grindavík at the Sundhnúkur crater row.[35]

Further brief effusive eruptions with a very rapid outflow of large quantities of lava took place on 14 January and 8 February 2024, damaging the outskirts of Grindavik and other infrastructure in the area. On 16 March 2024 a fourth eruption began north–east of Hagafell. This eruption was expected by some by analogy to be similarly short-lived,[36] but was only declared over on the 9th May.[37]

Gallery edit

Reykjanes Peninsula Geology


See also edit

References edit

  1. ^ a b c d e f g h i j k l m n o p Pedersen, G.B.M.; Grosse, P. (2014). "Morphometry of subaerial shield volcanoes and glaciovolcanoes from Reykjanes Peninsula, Iceland: Effects of eruption environment" (PDF). Journal of Volcanology and Geothermal Research. 282: 115–133. Bibcode:2014JVGR..282..115P. doi:10.1016/j.jvolgeores.2014.06.008. Retrieved 21 August 2020.
  2. ^ a b . Archived from the original on March 22, 2021. Retrieved 27 March 2021.
  3. ^ Thor Thordarson, Armann Hoskuldsson: Iceland. Classic geology of Europe 3. Harpenden 2002, p. 8-10
  4. ^ Thor Thordarson, Armann Hoskuldsson: Iceland. Classic geology of Europe 3. Harpenden 2002, p. 48
  5. ^ a b Freyr Pálsson: Jarðfræði Reykjavíkursvæðisins. Háskóla Íslands, Raunvísindadeild, Jarð- og landfræðiskor. (2007)
  6. ^ Snæbjörn Guðmundsson: Vegavísir um jarðfræði Íslands. Reykjavík 2015, p. 28-30
  7. ^ Snæbjörn Guðmundsson: Vegavísir um jarðfræði Íslands. Reykjavík 2015, p. 31-33
  8. ^ Edwards, B.R., Gudmundsson, M.T., Russell, J.K., 2015. Glaciovolcanism. In: Sigurdsson, H., Houghton, B., Rymer, H., Stix, J., McNutt, S. (Eds.), The Encyclopedia of Volcanoes, pp. 377–393. ISBN 9780123859389
  9. ^ M.A.M. Gee et al.: Glacioisostacy controls chemical and isotopic characteristics of tholeiites from the Reykjanes Peninsula, SW Iceland. / Earth and Planetary Science Letters 164 (1998) 1–5
  10. ^ Árni Hjartarson: Postglacial lava production in Iceland. Okustofnun. Greinar starfsmanna. (2003) Accessed 06 August 2020.
  11. ^ Helgi Páll Jónsson: Eldfjallagarður og jarðminjasvæði á Reykjanesskaga. Jarðvísindadeild Háskóli Íslands 2011. MS ritgerð. Leiðbeinendur Ólafur Ingólfsson. Accessed 17 August 2020
  12. ^ Zakharova, O.K.; Spichak, V.V. (2012). "Geothermal fields of Hengill volcano, Iceland" (PDF). Journal of Volcanology and Seismology. 6 (1): 1–14. doi:10.1134/S074204631201006X. Retrieved 30 December 2023.
  13. ^ a b Foulger, G.R.; Toomey, D.R. (1989). "Structure and evolution of the Hengill‐Grensdalur Volcanic Complex, Iceland: Geology, geophysics, and seismic tomography". Journal of Geophysical Research: Solid Earth. 94 (B12): 17511–17522. Bibcode:1989JGR....9417511F. doi:10.1029/JB094iB12p17511.
  14. ^ a b c d e Sæmundsson, K.; Sigurgeirsson, M.Á.; Friðleifsson, G.Ó. (2020). "Geology and structure of the Reykjanes volcanic system, Iceland". Journal of Volcanology and Geothermal Research. 391 (106501). doi:10.1016/j.jvolgeores.2018.11.022.
  15. ^ Andrésdóttir, Þóra Björg (2018). Volcanic hazard and risk assessment at Reykjanes, vulnerability of infrastructure. Masters thesis (PDF) (Thesis). University of Iceland. pp. 1–89. Retrieved 28 December 2023.
  16. ^ See eg. Helgi Páll Jónsson: Eldfjallagarður og jarðminjasvæði á Reykjanesskaga. Jarðvísindadeild Háskóli Íslands 2011. MS ritgerð. Leiðbeinendur Ólafur Ingólfsson. Accessed 17. ágúst 2020.
  17. ^ Thor Thordarson, Armann Hoskuldsson: Iceland. Classic geology of Europe 3. Harpenden 2002, p.14 and 63.
  18. ^ a b c Sæmundsson, Kristján (2019). "Catalogue of Icelandic Volcanoes - Hengill". Icelandic Meteorological Office, Institute of Earth Sciences at the University of Iceland, Civil Protection Department of the National Commissioner of the Iceland Police. Retrieved 30 December 2023.
  19. ^ Decriem, J.; Árnadóttir, T.; Hooper, A.; Geirsson, H.; Sigmundsson, F.; Keiding, M.; Ófeigsson, B. G.; Hreinsdóttir, S.; Einarsson, P.; LaFemina, P.; Bennett, R. A. (2010). "The 2008 May 29 earthquake doublet in SW Iceland". Geophysical Journal International. 181 (2): 1128–1146. Bibcode:2010GeoJI.181.1128D. doi:10.1111/j.1365-246x.2010.04565.x.
  20. ^ Sigurgeirsson, Magnús Á.; Einarsson, Sigmundur (2019). "Catalogue of Icelandic Volcanoes - Reykjanes and Svartsengi volcanic systems". Icelandic Meteorological Office, Institute of Earth Sciences at the University of Iceland, Civil Protection Department of the National Commissioner of the Iceland Police. Retrieved 30 December 2023.
  21. ^ See eg.: Reykjanes Peninsula. Icelandic Met Office
  22. ^ Clifton, A., etal.: Surface effects of triggered fault slip on Reykjanes Peninsula, SW Iceland. Tectonophysics 369 (2003) 145– 154 Accessed 21 August 2020.
  23. ^ Andrews, Robin George (2023-08-21). "Volcanoes don't just erupt on schedule—but they have been in Iceland". Premium. Retrieved 2024-02-10.
  24. ^ Casey, Kathryn Armstrong & Ian (2024-02-08). "State of emergency declared in Iceland after volcanic eruption". BBC News. Retrieved 2024-02-09.
  25. ^ Stór jarðskjálfti á Reykjanesskaga fannst vel. RÚV, 20 October 2020.
  26. ^ earthquakes/reykjanespeninsula/ See also IMO, 21 October 2020.
  27. ^ See also: Skjálfti af stærð 5,6 á Reykjanessskaga. IMO 20 October 2020.
  28. ^ Icelandic Met Office. Earthquakes, 24 February 2021. Accessed 24 February 2021.
  29. ^ a b Verðum að vera búin undir stærri skjálfa. RÚV. 24 February 2021. Accessed 24 February 2021.
  30. ^ See eg. explanations by geophysicist and professor emeritus Páll Einarsson in Kastljós (RÚV) on March 3, 2021 Accessed March 3, 2021
  31. ^ Helstu tíðindi: Eldgos hafið í Fagradalsfjalli. RÚV. ruv.is Accessed 20 March 2021
  32. ^ See eg. "Trace element composition in olivine from the 2022 Meradalir eruption of the Fagradalsfjall Fires, SW-Iceland (Short Communication) by Krmicek L., etal". Czech Polar Reports, Vol.12,No.2. 2022. Retrieved 2023-11-19.
  33. ^ "Latest news on the volcanic eruption on the Reykjanes Peninsula". Icelandic Meteorological office. 2023-07-10. Retrieved 2023-07-13.
  34. ^ "Magma intrusion possibly extending beneath Grindavík | News". Icelandic Meteorological office. from the original on 11 November 2023. Retrieved 11 November 2023.
  35. ^ Adam, Darren (2023-12-18). "Eruption on Reykjanes Peninsula - RÚV.is". RÚV. Retrieved 2023-12-19.
  36. ^ . Icelandic Meteorological office. Archived from the original on 16 April 2024. Retrieved 17 April 2024.
  37. ^ . Veðurstofa Íslands (in Icelandic). Archived from the original on 9 May 2024. Retrieved 2024-05-09.

External links edit

  • Geotourism on Reykjanes Peninsula. Visit Reykjanes. Official website.[permanent dead link]
  • Geologist Páll Einarsson explains the geology of Reykjanes as well as the 2020 earthquake series. RÚV. 20 October 2020. (in Icelandic)

January 01, 1970
geology, reykjanes, peninsula, reykjanes, peninsula, icelandic, reykjanesskagi, ˈreiːcaˌnɛːsˌskaijɪ, southwest, iceland, continuation, mostly, submarine, reykjanes, ridge, part, atlantic, ridge, land, reaching, from, esja, north, hengill, east, reykjanestá, we. The Reykjanes Peninsula Icelandic Reykjanesskagi ˈreiːcaˌnɛːsˌskaijɪ in southwest Iceland is the continuation of the mostly submarine Reykjanes Ridge a part of the Mid Atlantic Ridge on land and reaching from Esja in the north and Hengill in the east to Reykjanesta in the west 1 Sudurnes transl Southern Peninsula is an administrative unit covering part of Reykjanes Peninsula Rifting and hot spot activity in Iceland Volcanism at Reykjanes Peninsula Craters and lavas from the 13th century acidic lake from geothermal power station steam vents and hydrothermal alteration Reykjanes volcanic system Oskjuhlid THrainskjoldur displaying its very gentle slope with Keilir and mountains of the Krysuvik Volcanic System Keilir subglacial cone surrounded by lavas and other volcanic landforms of Holocene shield volcano THrainskjoldur as well as fissures and faults Other subglacial volcanoes on Reykjanes Peninsula Litla Sandfell with tuya Geitafell Brennisteinsfjoll behind A great deal of volcanic activity was occurring in the Reykjanes Peninsula in 2020 and into 2021 after nearly 800 years of inactivity After the eruption of the Fagradalsfjall volcano on 19 March 2021 National Geographic s experts predicted that this may mark the start of decades of volcanic activity The eruption was small leading to a prediction that this volcano was unlikely to threaten any population centers 2 Contents 1 Origin 2 Volcanism and glaciations 2 1 Reykjavik region 2 2 Subglacial volcanoes 2 3 Postglacial shield volcanoes 2 4 Reykjanes volcanic belt 3 Tectonics 4 Volcano tectonic situation in modern times 4 1 Tectonic precursors 2020 21 4 2 Fagradalsfjall eruptions 2021 23 4 3 Sundhnukur eruptions 2023 24 5 Gallery 6 See also 7 References 8 External linksOrigin editThe two most important factors for the existence of Iceland rifting in combination with the Iceland hotspot were responsible for the existence of Reykjanesskagi 3 Reykjanes Peninsula originated in a so called rift jump 6 7 million years ago At this time the Snaefellsnes Skagi rift had drifted so far to the west and away from the presumed steady place hot spot that activity shifted eastwards in direction of this mantle plume which is now thought to be situated under the big glacier shield of Vatnajokull 1 Outcropping rocks have ages from 3 2 million years to the present 4 Volcanism and glaciations editThe topography of Reykjanes Peninsula was formed by glaciers and volcanism basaltic lava fields covering a good part of the peninsula in between volcanoes of subglacial as well as subaerial origin namely tuyas hyaloclastic ridges tindars shield volcanoes and crater rows 1 Some volcanic systems are submarine so that there is a pronounced continuation between the volcanism of Reykjanes Ridge a part of the Mid Atlantic Ridge and the Reykjanes Peninsula Reykjavik region edit Famous in the area of Reykjavik is the Gragryti ˈkrauːˌkriːtɪ Gray Lava These tertiary basalt lava layers cover much of the ground around and under Reykjavik but their origin is unknown 5 It is thought that the small hills within the city some of which were islands during periods of glaciation could be small shield volcanoes from warm spells of the glaciations 6 But it is known that during the Plio Pleistocene from 3 2 1 8 million years BP two central volcanoes were active in the Reykjavik region Videy volcano and Stardals volcano Both volcanoes partially formed Esja and the smaller mountains near Reykjavik and the hills on the islands and small peninsulas like Videy and Kjarlarnes 5 Volcanic and glacial sediments outcrop at some places around Reykjavik especially in Fossvogur 7 Subglacial volcanoes edit Iceland was heavily ice covered during the glaciations and even completely ice covered during parts of them As a result there are hundreds of subglacially formed volcanoes on Iceland On Reykjanes Peninsula glaciers were present until around 15 000 12 000 years ago 1 Most subglacial edifices are thought to be Weichselian with a few being older 1 The subglacial volcanoes can be identified according to type as tuyas bigger edifices whose upper parts are covered by the products of subaerial eruptions hyaloclastite ridges also called tindars which means elongated subglacially formed volcanic edifices of different sizes and cone like subglacial mounds very rare There are many hyaloclastite ridges with most consisting of mixtures of pillow lavas hyaloclastite and lapilli tuff 8 There are also elongated pillow structures called pillow tindars 1 Examples on Reykjanes peninsula are Sveifluhals Nupshlidarhals ˈnupsˌl iːdarˌhauls Undirhlidar ˈʏntɪrˌl iːdar Helgafell and Vifilsfell 1 The tuyas are often sorted according to their form morphology into flat topped tuyas elongated tuyas conical tuyas and complex tuyas 1 The prominent igneous rock is basalt though there are also some basaltic andesite or andesite volcanoes on Reykjanes like Husmuli ˈhuːsˌmuːlɪ and Stapafell ˈstaːpaˌfɛtl within the Hengill volcanic system 1 Examples for tuyas on Reykjanes Peninsula are Keilir conical tuya Geitafell ˈceiːtaˌfɛtl Brennisteinsfjoll Geitahlid and THorbjorn are flat topped tuyas whereas THordarfell ˈ8ɔrdarˌfɛtl and Syllingarfell ˈsɪtliŋkarˌfɛtl are complex tuyas 1 Postglacial shield volcanoes edit The Holocene shield volcanoes represent the great bulk of magma production in this part of Iceland and form the base of many other volcanic landforms Olivine tholeiites constitute about 60 by volume of all post glacial lava products on the Reykjanes Peninsula 9 The postglacial shield volcanoes are situated at the periphery of fissure systems They erupted after the Weichselian glaciation 1 These shields are mostly circular in form built up from pahoehoe lavas and composed of a low sloping lava cone surrounded by a lava apron 1 the older shields are made from picrite the younger bigger ones from olivine tholeiite They were probably formed in long lived eruptions years to decades 1 The best known edifices are Selvogsheidi ˈsɛlˌvɔksˌheiːdɪ height 176 m basal width 4 8 km summit width 0 7 km volume 0 64 km3 THrainskjoldur ˈ8rauːɪnˌscœltʏr volume 5 2 km3 Heidin ha volume 6 km3 and Sandfellshaed ˈsantˌfɛlsˌhaiː8 4 5 km3 10 Sandfellshaed is a very regularly constructed shield volcano and the largest in the southern part of Reykjanes Peninsula 11 Another important shield volcano on Reykjanes Peninsula is Leitin formed around 5 000 years ago nbsp Selected post glaciation geological features in the Reykjanes Peninsula allowing fuller context Other shading shows calderas central volcanoes and fissure swarms subglacial terrain above 1 100 m 3 600 ft and seismically active areas Clicking on the image enlarges to full window and enables mouse over with more detail Reykjanes volcanic belt edit nbsp Volcanic systems of the Reykjanes Peninsula SW Iceland 1 Reykjanes volcanic system 2 Eldvorp Svartsengi 3 Fagradalsfjall 4 Krysuvik 5 Brennisteinsfjoll 6 Hengill Since the end of the Pleistocene glaciation 15 000 11 000 years ago in the region 1 Holocene volcanoes have contributed to the basaltic lava fields of the peninsula The Reykjanes volcanic belt previously also known as the Reykjanes Peninsula ridge 12 or Reykjanes Peninsula volcanic zone 13 17511 one of the present day volcanic zones of Iceland is connected to the submarine Reykjanes Ridge and consists depending on author of 3 to 6 or even 7 volcanic systems arranged en echelon i e more or less side by side and in an average 40 angle to the spreading direction NE SW over the peninsula 14 15 One of the reasons for the varying number of systems in the literature is that geothermal areas magnetic anomalies eruptive centers and geochemistry do not all align 1 Within the belt is a region of transition from the mainly extensional structure of the underwater Reykjanes Ridge of the Atlantic mid oceanic ridge to the trans tensional plate boundary in the Reykjanes Peninsula 14 These volcanic systems are Eldey volcanic system mostly submarine Reykjanes volcanic system Svartsengi volcanic system often thought to be a part of Reykjanes volcanic system as geochemistry is similar 1 Fagradalsfjall volcanic system Krysuvik volcanic system Brennisteinsfjoll volcanic system and Hengill volcanic system which stretches up to the north and into the West volcanic zone 16 Only the Hengill volcanic system the most eastern system has an additional central volcano and this volcano is complex as it is at the intersection with the West volcanic zone of Iceland and South Iceland seismic zone 17 18 forming the Hengill triple junction 19 1128 It has some rhyolite and andesite components 18 It is tectonically the current locus of accretion in the south of Iceland propagating southward at between 3 5 5 cm year 1 4 2 0 in year 13 17512 Otherwise the volcanic systems because they are on top of a rift segment show a tendency for basaltic fissure eruptions 14 There are tephra deposits from both offshore explosive Holocene eruptions some of whom were from volcanoes of the Reykjanes volcanic system 20 and the most recent Hengill eruption 18 Tectonics edit nbsp Reykjanes Volcanic Belt RVB within the volcanic zones of Iceland As is usual within rift zones tectonics play an important role on Reykjanes Peninsula Earthquakes are often registered They may reach up to magnitude M6 but most of the earthquakes are small 21 These earthquakes often take place within the volcanic systems but there are also many faults fractures and fissures in the N S direction on the peninsula Additionally the region is influenced by the South Iceland seismic zone This southern transform zone of Iceland is between the West volcanic zone and the East volcanic zone The larger earthquakes are felt and registered on Reykjanes Peninsula and they can also trigger medium sized quakes in this region as last seen in 2008 and especially in 2000 22 Volcano tectonic situation in modern times editFurther information Fagradalsfjall 2019 to 2021 activity and eruptions Fagradalsfjall 2022 eruption Fagradalsfjall 2023 eruptive activity and 2023 2024 Sundhnukur eruptions The Reykjanes Peninsula lies within a transtensional rift zone The rate of spread is about 1 8 cm year 0 71 in year 14 The spreading that occurs generates NE SE trending fissure swarm faulting and connects the area with the other surrounding rift zones The stress that is accumulated through the volcanism is released every 800 1000 years through the fissure eruptions The fissure swarms are the origin of underground near vertical dykes The Reykjanes dykes travel near vertically through Quaternary and Tertiary sediments These dykes generate permeability in rock that would otherwise be impermeable This increased permeability creates the potential for geothermal extraction at an economic level The dykes underground reach up to 300 meters to the surface Every tens of years microearthquakes move the strike slip plate boundaries 14 Since Iceland s settlement in the 9th century CE the peninsula has undergone two periods of prolonged volcanism The first from 950 to 1240 culminated in the lengthy series of eruptions between 1210 1240 called the Reykjanes Fires that deposited substantial amounts of lava and tephra across the peninsula The volcanoes in the region were subsequently dormant for nearly 800 years 23 The second episode began in 2020 and has been dubbed the New Reykjanes Fires in recognition of the similarity with the previous episode 24 Tectonic precursors 2020 21 edit nbsp 5 2 earthquake near Fagradalsfjall 7 March 2021 On 20 October 2020 a magnitude 5 6 volcanism related earthquake was registered at Nupshlidarhals within the Krysuvik system 25 It was followed up by over 1 000 aftershocks 26 27 and is part of a series stretching over nearly one year On 24 February 2021 a new earthquake series comprising hundreds of earthquakes and including two earthquakes over 5 were registered by the Icelandic Meteorological Office IMO with one registering at 5 7 28 The alert phase of Iceland s Civil Protection was activated because even bigger earthquakes could not be excluded in this earthquake series 29 The whole region has been under close scrutiny of scientists 29 A magnitude 5 1 earthquake was recorded on 1 March 2021 In addition satellite pictures showed a pronounced uplift near the mountain Keilir The magmatic dike to the southwest Keilir has a length of about 5 km 30 Fagradalsfjall eruptions 2021 23 edit nbsp Cinder cone produced by the 2021 Fagradalsfjall eruption Further information Fagradalsfjall 2019 to 2021 activity and eruptions Fagradalsfjall 2022 eruption and Fagradalsfjall 2023 eruptive activity As of February 2024 there have so far been three eruptions on and around the mountain of Fagradalsfjall in an uninhabited region some 15 km northeast of Grindavik A volcanic eruption began at Fagradalsfjall on the evening of 19 March 2021 31 The eruption was small and effusive from a 500 800 m long fissure National Geographic predicted that this volcano was unlikely to threaten any population centers 2 The next small fissure eruption in the Fagradalsfjall volcanic system started in the Meradalir valleys on 1 August 2022 and ceased on 22 August 2022 32 On 10 July 2023 at 16 40 UTC a fissure eruption began adjacent to the summit of Litli Hrutur and ended by the beginning of August 2023 33 Sundhnukur eruptions 2023 24 edit nbsp Lava flows and fire fountains at Sundhnukur in January 2024 Further information 2023 2024 Sundhnukur eruptions As of April 2024 there have so far been four eruptions immediately north of Grindavik with one partly occurring within the town s limits Beginning in late October 2023 an intense series of earthquakes in and around Grindavik prompted the evacuation of the town as a large underground magmatic intrusion indicated that an eruption in the area was imminent 34 The eruption began on 18 December at 10pm local time north east of Grindavik at the Sundhnukur crater row 35 Further brief effusive eruptions with a very rapid outflow of large quantities of lava took place on 14 January and 8 February 2024 damaging the outskirts of Grindavik and other infrastructure in the area On 16 March 2024 a fourth eruption began north east of Hagafell This eruption was expected by some by analogy to be similarly short lived 36 but was only declared over on the 9th May 37 Gallery editReykjanes Peninsula Geology nbsp Eroded partially submarine volcano and boulder beaches at Reykjanesta nbsp Postglacial shield volcano THrainskjoldur nbsp Helgafell Hafnarfjordur Valahnukar postglacial lava fields and fault systems nbsp Aerial photograph of the center of Krysuvik volcanic system with high temperature geothermal areas and maars nbsp The so called bridge between continents over a fault near the tip of Reykjanes Peninsula nbsp Typical volcano tectonic environment on Reykjanes Peninsula from air See also editVolcanism of Iceland List of volcanoes in Iceland List of volcanic eruptions in Iceland Geology of Iceland Geological deformation of Iceland Global Volcanism ProgramReferences edit a b c d e f g h i j k l m n o p Pedersen G B M Grosse P 2014 Morphometry of subaerial shield volcanoes and glaciovolcanoes from Reykjanes Peninsula Iceland Effects of eruption environment PDF Journal of Volcanology and Geothermal Research 282 115 133 Bibcode 2014JVGR 282 115P doi 10 1016 j jvolgeores 2014 06 008 Retrieved 21 August 2020 a b Eruption in Iceland may mark the start of decades of volcanic activity Archived from the original on March 22 2021 Retrieved 27 March 2021 Thor Thordarson Armann Hoskuldsson Iceland Classic geology of Europe 3 Harpenden 2002 p 8 10 Thor Thordarson Armann Hoskuldsson Iceland Classic geology of Europe 3 Harpenden 2002 p 48 a b Freyr Palsson Jardfraedi Reykjavikursvaedisins Haskola Islands Raunvisindadeild Jard og landfraediskor 2007 Snaebjorn Gudmundsson Vegavisir um jardfraedi Islands Reykjavik 2015 p 28 30 Snaebjorn Gudmundsson Vegavisir um jardfraedi Islands Reykjavik 2015 p 31 33 Edwards B R Gudmundsson M T Russell J K 2015 Glaciovolcanism In Sigurdsson H Houghton B Rymer H Stix J McNutt S Eds The Encyclopedia of Volcanoes pp 377 393 ISBN 9780123859389 M A M Gee et al Glacioisostacy controls chemical and isotopic characteristics of tholeiites from the Reykjanes Peninsula SW Iceland Earth and Planetary Science Letters 164 1998 1 5 Arni Hjartarson Postglacial lava production in Iceland Okustofnun Greinar starfsmanna 2003 Accessed 06 August 2020 Helgi Pall Jonsson Eldfjallagardur og jardminjasvaedi a Reykjanesskaga Jardvisindadeild Haskoli Islands 2011 MS ritgerd Leidbeinendur olafur Ingolfsson Accessed 17 August 2020 Zakharova O K Spichak V V 2012 Geothermal fields of Hengill volcano Iceland PDF Journal of Volcanology and Seismology 6 1 1 14 doi 10 1134 S074204631201006X Retrieved 30 December 2023 a b Foulger G R Toomey D R 1989 Structure and evolution of the Hengill Grensdalur Volcanic Complex Iceland Geology geophysics and seismic tomography Journal of Geophysical Research Solid Earth 94 B12 17511 17522 Bibcode 1989JGR 9417511F doi 10 1029 JB094iB12p17511 a b c d e Saemundsson K Sigurgeirsson M A Fridleifsson G o 2020 Geology and structure of the Reykjanes volcanic system Iceland Journal of Volcanology and Geothermal Research 391 106501 doi 10 1016 j jvolgeores 2018 11 022 Andresdottir THora Bjorg 2018 Volcanic hazard and risk assessment at Reykjanes vulnerability of infrastructure Masters thesis PDF Thesis University of Iceland pp 1 89 Retrieved 28 December 2023 See eg Helgi Pall Jonsson Eldfjallagardur og jardminjasvaedi a Reykjanesskaga Jardvisindadeild Haskoli Islands 2011 MS ritgerd Leidbeinendur olafur Ingolfsson Accessed 17 agust 2020 Thor Thordarson Armann Hoskuldsson Iceland Classic geology of Europe 3 Harpenden 2002 p 14 and 63 a b c Saemundsson Kristjan 2019 Catalogue of Icelandic Volcanoes Hengill Icelandic Meteorological Office Institute of Earth Sciences at the University of Iceland Civil Protection Department of the National Commissioner of the Iceland Police Retrieved 30 December 2023 Decriem J Arnadottir T Hooper A Geirsson H Sigmundsson F Keiding M ofeigsson B G Hreinsdottir S Einarsson P LaFemina P Bennett R A 2010 The 2008 May 29 earthquake doublet in SW Iceland Geophysical Journal International 181 2 1128 1146 Bibcode 2010GeoJI 181 1128D doi 10 1111 j 1365 246x 2010 04565 x Sigurgeirsson Magnus A Einarsson Sigmundur 2019 Catalogue of Icelandic Volcanoes Reykjanes and Svartsengi volcanic systems Icelandic Meteorological Office Institute of Earth Sciences at the University of Iceland Civil Protection Department of the National Commissioner of the Iceland Police Retrieved 30 December 2023 See eg Reykjanes Peninsula Icelandic Met Office Clifton A etal Surface effects of triggered fault slip on Reykjanes Peninsula SW Iceland Tectonophysics 369 2003 145 154 Accessed 21 August 2020 Andrews Robin George 2023 08 21 Volcanoes don t just erupt on schedule but they have been in Iceland Premium Retrieved 2024 02 10 Casey Kathryn Armstrong amp Ian 2024 02 08 State of emergency declared in Iceland after volcanic eruption BBC News Retrieved 2024 02 09 Stor jardskjalfti a Reykjanesskaga fannst vel RUV 20 October 2020 earthquakes reykjanespeninsula See also IMO 21 October 2020 See also Skjalfti af staerd 5 6 a Reykjanessskaga IMO 20 October 2020 Icelandic Met Office Earthquakes 24 February 2021 Accessed 24 February 2021 a b Verdum ad vera buin undir staerri skjalfa RUV 24 February 2021 Accessed 24 February 2021 See eg explanations by geophysicist and professor emeritus Pall Einarsson in Kastljos RUV on March 3 2021 Accessed March 3 2021 Helstu tidindi Eldgos hafid i Fagradalsfjalli RUV ruv is Accessed 20 March 2021 See eg Trace element composition in olivine from the 2022 Meradalir eruption of the Fagradalsfjall Fires SW Iceland Short Communication by Krmicek L etal Czech Polar Reports Vol 12 No 2 2022 Retrieved 2023 11 19 Latest news on the volcanic eruption on the Reykjanes Peninsula Icelandic Meteorological office 2023 07 10 Retrieved 2023 07 13 Magma intrusion possibly extending beneath Grindavik News Icelandic Meteorological office Archived from the original on 11 November 2023 Retrieved 11 November 2023 Adam Darren 2023 12 18 Eruption on Reykjanes Peninsula RUV is RUV Retrieved 2023 12 19 One month since the start of the eruption at the Sundhnukur crater row Second longest eruption in the Reykjanes peninsula since 2021 Icelandic Meteorological office Archived from the original on 16 April 2024 Retrieved 17 April 2024 Engin virkni i gignum THessu eldgosi lokid Frettir Vedurstofa Islands in Icelandic Archived from the original on 9 May 2024 Retrieved 2024 05 09 External links editGeotourism on Reykjanes Peninsula Visit Reykjanes Official website permanent dead link Geologist Pall Einarsson explains the geology of Reykjanes as well as the 2020 earthquake series RUV 20 October 2020 in Icelandic Retrieved from https en wikipedia org w index php title Geology of Reykjanes Peninsula amp oldid 1226134630, wikipedia, wiki, book, books, library,

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