Misplaced Pages

Bárðarbunga

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.
(Redirected from Bardarbunga) Stratovolcano in Iceland

Bárðarbunga
Veiðivötn
Eruption at Holuhraun, 4 September 2014
Highest point
Elevation2,000 m (6,600 ft)
Prominence550 m (1,800 ft)
Coordinates64°38′28″N 17°31′41″W / 64.64111°N 17.52806°W / 64.64111; -17.52806
Geography
Bárðarbunga is located in IcelandBárðarbungaBárðarbungaMap of Iceland showing the location of Bárðarbunga.
LocationVatnajökull, Iceland
Geology
Rock ageover 10,000 years
Mountain typeSubglacial volcano/Icelandic stratovolcano
Last eruption29 August 2014 to 27 February 2015
Geological features near the Bárðarbunga volcanic system (red outlines -note potential overlap with other volcanic systems is only shown in south). Light violet shows Bárðarbunga associated recent lava fields. 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.

Bárðarbunga (Icelandic pronunciation: [ˈpaurðarˌpuŋka] , alternative name Veiðivötn), is an active and productive stratovolcano located under Vatnajökull in Vatnajökull National Park which is Iceland's most extensive glacier. The second highest mountain in Iceland, 2,000 metres (6,600 ft) above sea level, Bárðarbunga is also part of the Bárðarbunga-Veiðivötn volcanic system that is approximately 190 kilometres (120 mi) long and 25 kilometres (16 mi) wide.

Bárðarbunga erupted in late August 2014, the eruption style effusive, which is common in Iceland, but had not been seen for a few years. Lava covered the surrounding landscape northwest of the Vatnajökull glacier.

Description

Bárðarbunga is a subglacial stratovolcano and central volcano under the ice cap of Vatnajökull glacier in the Vatnajökull National Park in Iceland. It is one of the six volcanic systems under Vatnajökull. The central volcano has a rim that rises to about 2,000 m (6,600 ft) above sea level, making it the second highest mountain in Iceland, being lower than Hvannadalshnjúkur. The caldera is about 65 km (25 sq mi), up to 10 km (6.2 mi) wide and about 700 m (2,300 ft) deep. The surrounding edges rise to 1,850 m (6,070 ft), but the base is on average close to 1,100 m (3,600 ft). The volcano is covered in ice to a depth of 850 m (2,790 ft), hiding the glacier-filled crater. The associated volcanic system and fissure swarm is about 190 km (120 mi) long and 25 km (16 mi) wide.

Bárðarbunga was a little-known volcano in Iceland due to its remote location and infrequent eruptions approximately once every 50 years, but recent studies have shown that many tephra layers originally thought to be from other volcanoes were ejected from Bárðarbunga, and that lateral dyke intrusions may trigger eruptions in adjacent volcanoes.

Sustained seismic activity had been gradually increasing in Bárðarbunga and its associated northern fissure system for seven years starting in 2007 and leading to an eruption towards the end of 2014. This activity had decreased after the Grímsvötn eruption in 2011, but later returned to a similar level as before the eruption. The previous Bárðarbunga eruption was in 1910. There has been frequent volcanic activity outside the glacier to the south-west in the highlands between Vatnajökull and Mýrdalsjökull, and also to the north-east toward Dyngjufjöll [ˈtɪɲcʏˌfjœtl̥].

The Bárðarbunga volcanic system is associated with a second central volcano Hamarinn which has been classified historically as part of a separate Loki-Fögrufjöll volcanic system. Hamarinn is 20 km (12 mi) to the south-west of the Bárðarbunga central volcano.

Context

While the central volcanoes of the Bárðarbunga volcanic system are under the western edge of the Vatnajökull ice cap, the system's northern fissure swarm and lava flows extend around the southern flanks of the Askja volcano and the southern fissure swarm extends past the north-west of Torfajökull and almost reaches Tindfjallajökull. The southern lava flows have reached the sea near Selfoss. It is now known that within the area of the rhyolitic caldera of Torfajökull there are younger extrusives that involve basaltic magma mixing events by lateral propagation, from the fissure swarm of Bárðarbunga's volcanic system. To the west of the central volcanoes is the less active volcanic system of Tungnafellsjökull and to the central volcanoes south west, also under Vatnajökull is the very active Grímsvötn volcanic system. In the 1996 eruption of Gjálp which is usually assigned to the Grímsvötn volcanic system, studies are consistent with the eruption being triggered by a 10 km (6.2 mi) lateral dyke intrusion at about 5 km (3.1 mi) depth from Bárðarbunga, although this is not proven.

Etymology

Bárðarbunga is named after an early Icelandic settler named Gnúpa-Bárður [ˈknuːpa-ˌpaurðʏr̥], and literally translates as "Bárður's bulge" or "Bárður's bump" since "Bárðar" is the genitive case of "Bárður".

Eruptions and notable activity

Throughout history, there have been large eruptions every 250–600 years. In 1477, the largest known eruption from Bárðarbunga had a volcanic explosivity index (VEI) of 6; there is evidence of many smaller eruptions during the past 10,000 years.

6600 BC

Þjórsá Lava, the largest Holocene lava flow on earth, originated from Bárðarbunga about 8,600 years ago, with a total volume of 21 to 30 cubic kilometres and covering approximately 950 square kilometres.

877

Many large eruptions have occurred south-west of the glacier; the first occurring since human settlement of Iceland was the Vatnaöldur eruption about 877 ± 2 CE which had a volcanic explosivity index (VEI) of 4.

1477

The Veiðivötn eruption in 1477 is the largest known Icelandic eruption, with a VEI of 6.

1701–1864

Studies of tephra layers have shown that a number of eruptions have occurred beneath the glacier, probably in the northeast of the crater or in Bárðarbunga. There have also been smaller eruptions in an ice-free area of Dyngjuháls [ˈtiɲcʏˌhauls] to the north-east. Eruptions appear to follow a cycle: there were several eruptions in the glacier between 1701 and 1740 and since 1780.

1910 eruption

1910 was the last known significant eruption of the Bárðarbunga volcanic system before the 2014 eruptions. It occurred in the Loki-Fögrufjöll volcano.

1996

Main article: 1996 eruption of Gjálp

The Gjálp fissure vent eruption in 1996 revealed that an interaction may exist between Bárðarbunga and Grímsvötn. A strong earthquake in Bárðarbunga, about 5 on the Richter scale, is believed to have started the eruption in Gjálp. On the other hand, because the magma erupted showed strong connections to the Grímsvötn Volcanic System as petrology studies showed, the 1996, as well as a former eruption in the 1930s, are thought to have taken place within Grímsvötn Volcanic system.

2010

On 26 September 2010, an earthquake swarm was recorded with over 30 earthquakes measuring up to 3.7MW on the moment magnitude scale.

2014–2015

Main article: 2014–2015 eruption of Bárðarbunga

In August 2014, a swarm of around 1,600 earthquakes in 48-hours, with magnitudes up to 4.5MW, was followed on 23 August by the USGS Aviation Color Codes being raised from orange to red, indicating an eruption in progress. The following day, the aviation risk was lowered from red to orange and the statement that there was an eruption in progress was retracted. However, later aerial observations of glacial depressions southeast of the volcano suggested that the now-retracted report of an eruption had been correct and that a short eruption did occur under the ice, but the lack of further melting indicated that this eruption had now ceased. Then, a new fissure eruption breached the surface between Bárðarbunga and Askja, in the Holuhraun lava field, in the early hours of 29 August. This was followed by a second fissure eruption in the Holuhraun area, along the same volcanic fissure, which started shortly after 4 am on 31 August.

The eruption emitted large volumes of sulphur dioxide and impacted air quality in Iceland. There was no effect on flights outside of the immediate vicinity as the eruption hadn't produced a significant amount of volcanic ash.

On 28 February 2015, it was officially reported that the eruption was over. Nevertheless, the gas pollution still existed, and the area north of Bárðarbunga, including volcanoes Askja and Herðubreið, still remained closed for visitors.

On 16 March 2015, the area north of Bárðarbunga was opened for visitors, excluding the new lava field and the area within 20 metres around it.

2024

On 21 April 2024 a Mw 5.3 earthquake occurred in the Bárðarbunga volcanic system. This was the largest earthquake under this region of the Vatnajökull icecap since the 2015 eruption and was associated with isolated smaller fore- and aftershocks but no other markers of potential volcanic activity.

Eruptions Bárðarbunga volcanic system last 10,000 years (unconfirmed eruptions not shown)
Standard Date Date Cal BP Lava volume VEI Comment
2015 - >1.2 km (0.29 cu mi) 0 Central Volcano
1910 40 - 2 Central Volcano
1902 48 - 2 Central Volcano
1872 78 - -
1862 88 >0.3 km (0.072 cu mi) 2 Fissure swarm
1797 153 - - Fissure swarm
1794 156 - -
1769 181 - 2
1766 184 - 2
1750 200 - -
1739 211 - 2
1729 221 - 1
1726 224 - 1
1720 230 - 2
1717 233 - 3
1716 234 - 2
1712 238 - 2
1707 243 - 2
1706 244 - 2
1702 248 - 2
1697 253 - 2
1477 473 >0.35 km (0.084 cu mi) 6 Fissure swarm Previous dating was 470 BP
1410 540 - -
1350±10 600±10 - -
1290±10 660±10 - -
1270±10 680±10 - -
1250±50 700±50 - 1
1159 791 - - Also dated to 1072 CE.
1080 870 - -
940 1010 - - Also dated to 928 CE.
877 1073 0.17 km (0.041 cu mi) 4 Re-calibrated BP ice core gives 877 ± 2. The uncalibrated BP age was 871 and the ice core dating of the settlement layer was previously 1079 ± 2 BP
808 1142 - -
753 1197 - -
654 1296 - -
473 1477 - -
451 1499 - -
445 1505 - -
150 1800 - 2 Possibly dated to one of the tephra eruptions dated to 180 and 128 CE
1 BCE 1951 - -
18 BCE 1968 - - This was a combined tephra eruption with Grímsvötn
178 BCE 2128 - - This was a combined tephra eruption with Kverkfjöll
278 BCE 2228 - -
288 BCE 2238 - -
583 BCE 2533 - -
661 BCE 2611 - -
860 BCE 2810 - -
991 BCE 2941 - -
1200 BCE 3150 - - There are assigned tephra tayers dated to 3056 and 3361 BP which may not be both separate eruptions
1981 BCE 3931 - -
2424 BCE 4374 - -
3559 BCE 5509 - - Fissure swarm
3738 BCE 5688 - - Fissure swarm
3745 BCE 5695 - - This was a combined tephra eruption with Grímsvötn
3858 BCE 5808 - - Fissure swarm
3907 BCE 5857 - - Fissure swarm
3981 BCE 5931 - - Fissure swarm
4062 BCE 6012 - - Fissure swarm
4087 BCE 6037 - - Fissure swarm
4200 BCE 6150 - - A tephra layer dated to 6102 BP exists which may not be a separate eruption
4400 BCE 6350 - -
4550 BCE 6500 - - A tephra layer dated to 6508 BP exists which may not be a separate eruption
4600 BCE 6550 - -
4800 BCE 6750 - - A tephra layer dated to 6799 BP also exists mixed with tephra with Grímsvötn characteristics which may not be a separate eruption
5000 BCE 6950 - - A tephra layer dated to 7108 BP exists which may not be a separate eruption
5788 BCE 7738 - - This was a combined tephra eruption with an unknown volcano
5893 BCE 7843 - - Fissure swarm
6120 BCE 8070 - - Fissure swarm
6650±50 BCE 8600±50 - - A tephra layer dated to 8367 BP exists which may not be a separate eruption
7050±1000 BCE 9000±1000 - - A tephra layer dated to 9267 BP exists which may not be a separate eruption
7100±1000 BCE 9050±1000 - - Tephra layers dated to 9344 BP in a combined eruption with Grímsvötn and 9376 BP in a fissure swarm eruption exist one of which may not be a separate eruption
7662 BCE 9612 - -
7867 BCE 9817 - -
8040 BCE 9990 - - Fissure swarm

1950 Geysir air crash

Main article: 1950 Geysir air crash

On 14 September 1950 a Douglas C-54 Skymaster aircraft belonging to the Icelandic airline Loftleiðir crash landed on the Vatnajökull glacier at Bárðarbunga during a cargo flight from Luxembourg to Reykjavík. There were no fatalities, but damaged radio equipment left them unable to communicate their location. After two days the crew managed to reach the emergency transmitter in the plane's rubber liferaft and send out a distress call which was picked up by the Icelandic Coast Guard vessel Ægir. The same day a search and rescue Catalina aircraft, named Vestfirðingur, spotted them. The C-54's cargo included the body of a deceased United States Air Force (USAF) colonel, prompting American assistance. A USAF C-47 equipped with skis landed on the glacier but was unable to take off again, so it had to be abandoned. After six days both crews were rescued by a ski-patrol from Akureyri. Later Loftleiðir bought the stranded C-47 from the USAF for $700. In April 1951 it was dug out of the snow and towed down the mountain by two bulldozers, where it was started and flown to Reykjavík.

See also

Notes

  1. ^ This article previously had a height of 2009 m which was a historical figure prior to the 2014 events. As of March 2024 this source and others have been corrected to about 2000 m.
  2. The overlap with other volcanic systems, recognised to south and to north after 2015 is not shown to north as good maps illustrating the area of overlap to north were not identified.
  3. ^ Lateral dyke propagation from a magma reservoir, resulting in eruptions more than 40 km (25 mi) away from the reservoir or sometimes triggering the magma chamber associated with another volcano to erupt, while being increasingly described or postulated to have happened in geological circles, are not well described in the historic volcanology literature. This is as the technology to convincingly detect them (e.g. real-time area height mapping, local real-time seismology arrays, and micro–compositional analysis) did not exist until recently. Historic eruptions possibly involving such lateral dyke propagation can be suspected on retrospective compositional analysis, say of tephra layers from one eruption sequence.
  4. ^ Timings published before 2017 for eruptions between around 700 to 900 are likely inaccurate, and sources for all corrected timings in Gudmundsdóttir et al 2016 in this period have not been identified in public domain. Literature timings were adjusted after the Icelandic tree ring series was extended to 822. Also the potential for dating errors increase with time. Where uncertainty in separate tephra studies might exist that an assigned dates are not a separate eruption, this is noted in table comments. Towards the end of the 10,000 year time series some analysis have errors of order of a 1000 years. As a result there might be more assignable definite eruptions than implied. The last eruption shown may or may not be within 10,000 years of current present given these inaccuracies.

References

  1. ^ Larsen, Guðrún; Guðmundsson, Magnús T. (2019). "Catalogue of Icelandic Volcanoes:Bárðarbunga Alternative name: Veiðivötn". Retrieved 18 March 2024.
  2. ^ Larsen, G.; Gudmundsson, M.T. (2014). "The Bárðarbunga System, pre-publication extract from The Catalogue of Icelandic Volcanoes" (PDF). vedur.is.
  3. ^ "Bárdarbunga". Global Volcanism Program. Smithsonian Institution. Retrieved 18 June 2009.
  4. mbl.is (22 May 2011). "How To Pronounce "Bárðarbunga"". YouTube.com. Archived from the original on 21 December 2021. Retrieved 20 August 2014.
  5. ^ Björnsson, H.; Einarsson, P. (1990). "Volcanoes beneath Vatnajökull, Iceland: Evidence from radio echo-sounding, earthquakes and jökulhlaups" (PDF). Jökull. 40: 147–168. Archived (PDF) from the original on 20 March 2023. Retrieved 18 March 2024.
  6. "What is Bárðarbunga? | News".
  7. ^ Konstantinou, K.I.; Utami, I.W.; Giannopoulos, D; Sokos, E. (2019). "A reappraisal of seismicity recorded during the 1996 Gjálp eruption, Iceland, in light of the 2014–2015 Bárðarbunga–Holuhraun lateral dike intrusion". Pure and Applied Geophysics. 177 (6): 2579–2595. Bibcode:2019PApGe.177.2579K. doi:10.1007/s00024-019-02387-x.
  8. Martins, J.E.; Ruigrok, E.; Draganov, D.; Hooper, A.; Hanssen, R.F.; White, R.S.; Soosalu, H. (2019). "Imaging Torfajökull's magmatic plumbing system with seismic interferometry and phase velocity surface wave tomography". Journal of Geophysical Research: Solid Earth. 124 (3): 2920–2940.
  9. "Stofnun Árna Magnússonar – í íslenskum fraedum. Bárðarbunga". Archived from the original on 26 August 2014. Retrieved 22 August 2014.
  10. Árni Hjartarson 1988: „Þjórsárhraunið mikla – stærsta nútímahraun jarðar“. Náttúrufræðingurinn 58: 1–16.
  11. ^ Gabriel, I.; Plunkett, G.; Abbott, P.M.; Behrens, M.; Burke, A.; Chellman, N.; Cook, E.; Fleitmann, D.; Hörhold, M.; Hutchison, W.; McConnell, J.R. (2024). "Decadal-to-centennial increases of volcanic aerosols from Iceland challenge the concept of a Medieval Quiet Period". Communications Earth & Environment. 5 (1): 194. Bibcode:2024ComEE...5..194G. doi:10.1038/s43247-024-01350-6.
  12. See eg.: Elín Margrét Magnúsdóttir: Gjóska úr Grímsvötnum 2011 og Bárðarbungu 2014-2015: Ásýndar- ogkornastærðargreining. BS ritgerð. Jarðvísindadeild Háskóli Íslands (2017) (in Icelandic, abstract also in English) Retrieved 24 August 2020.
  13. "1.600 earthquakes in 48 hours". www.mbl.is. Retrieved 13 April 2023.
  14. "Activity in Bárðarbunga volcano – News". En.vedur.is. Icelandic Meteorological Office. 16 August 2014. Retrieved 20 August 2014.
  15. Icelandic Met Office (23 August 2014). "Bárðarbunga – updated information". Icelandic Meteorological Office. Retrieved 23 August 2014.
  16. BBC (24 August 2014). "Iceland volcano: Aviation risk level from Bardarbunga lowered". BBC. Retrieved 24 August 2014.
  17. "Eruption Started Between Barðarbunga and Askja in Iceland". Wired.com. 29 August 2014. Retrieved 29 August 2014.
  18. "Scientists: Bigger Eruption, Moves North. 500 Earthquakes". Icelandreview.com. 31 August 2014. Archived from the original on 18 May 2015. Retrieved 31 August 2014.
  19. 28 February 2015 12:00 – declaration from the Scientific Advisory Board
  20. Reduction of the access controlled area north of Vatnajökull
  21. "M 5.3 - 107 km WNW of Höfn, Iceland". Retrieved 21 April 2024.
  22. "Earthquake in Bárðarbunga caldera". Archived from the original on 21 April 2024. Retrieved 21 April 2024.
  23. Büntgen, U.; Eggertsson, Ó.; Wacker, L.; Sigl, M.; Ljungqvist, F.C.; Di Cosmo, N.; Plunkett; Krusic, P.J.; Newfield, T.P.; Esper, J.; Lane, C. (2017). "Multi-proxy dating of Iceland's major pre-settlement Katla eruption to 822–823 CE". Geology. 45 (9): 783–786. Bibcode:2017Geo....45..783B. doi:10.1130/G39269.1.
  24. ^ Gudmundsdóttir, E.R.; Larsen, G.; Björck, S.; Ingólfsson, Ó; Striberger, J. (2016). "A new high-resolution Holocene tephra stratigraphy in eastern Iceland: Improving the Icelandic and North Atlantic tephrochronology". Quaternary Science Reviews. 150: 234–249. doi:10.1016/j.quascirev.2016.08.011.
  25. ^ Gudmundsdóttir, E.R.; Larsen, G.; Björck, S.; Ingólfsson, Ó; Striberger, J. (2016). "A new high-resolution Holocene tephra stratigraphy in eastern Iceland: Improving the Icelandic and North Atlantic tephrochronology". Quaternary Science Reviews. 150: 234–249. doi:10.1016/j.quascirev.2016.08.011.
  26. ^ "ASN Aircraft accident Douglas C-54B-20-DO (DC-4) TF-RVC Vatnajökull Glacier". aviation-safety.net. Retrieved 13 April 2023.
  27. Boyes, Roger (29 September 2009). Meltdown Iceland: Lessons on the World Financial Crisis from a Small Bankrupt Island. Bloomsbury Publishing USA. ISBN 9781608190188.
  28. "Timeline of the search for the Geysir at gopfrettir.net (in Icelandic)". Archived from the original on 21 August 2014. Retrieved 20 August 2014.
  29. Háskólabókasafn, Landsbókasafn Íslands-. "Tímarit.is". timarit.is. Retrieved 13 April 2023.

External links

Categories: