- Source: Hengill
Hengill (Icelandic pronunciation: [ˈheiɲcɪtl̥] ) is a volcanic table mountain situated in the south-west of Iceland, to the south of Þingvellir.
The volcano is still active, as evidenced by its numerous hot springs and fumaroles, but the last eruption occurred approximately 2,000 years ago, before the settlement of Iceland.
Geography
The mountain is south of Lake Thingvallavatn (Þingvallavatn in Icelandic), south-west of the Nesjavellir geothermal area, south of Þingvellir National Park and is the most prominent part of a volcanic region that extends to the coast. South of the mountain towards the coast is the Hellisheiði geothermal area to its south-west, and the town of Hveragerði on Iceland's main ringroad, Route 1 about 45 km (28 mi) east of Reykjavík. At the coast is the port of Þorlákshöfn.
Geology
The mountain is part of the 60 km (37 mi) long Hengill volcanic system, which is part of the Reykjanes volcanic belt, and is a hyaloclastite massif of tuyas and tindars. The dominant lava in the Hengill volcanic system is tholeiitic basalt, but andesite and about 20 km2 (7.7 sq mi) rhyolite occur within the central mountain. The largest lava shield covers about 50 km2 (19 sq mi). Four small lava shields are picrite basalt and one lava shield contains about 3 km3 (0.72 cu mi)of olivine tholeiite. It is located at the intersection with two other tectonic volcanic systems, the West volcanic zone of Iceland and South Iceland seismic zone, and is co-located to the plate boundary between the North American, Eurasian and Hreppar plates. This intersection is called the Hengill triple junction.
Hveragerdi to the south is a volcano in the volcanic system that became extinct 300,000 years ago, but still has significant seismic activity. It can be regarded as a predecessor volcano. This seismic activity is significant not only because of human impact but also because the earthquakes are grouped along faults striking north–south or east–west, but not north to north-east, as might be supposed based on the surface geological structure and that the rift zone is deep as 3–9 km (1.9–5.6 mi) locally. The earthquake distribution has been interpreted to have defined the heat source of the Hengill volcano.
Extending to the north-east from the central volcano is a fissure swarm with a number of tindars associated with an asymmetrical graben. Lake Thingvallavatn, occupies the proximal graben, and has at its southern end lava flows from the mountain and has hosted explosive eruptions historically. Amongst the faults on the north-west side of the graben is the Almannagjá chasm which extends from the northern shore of Lake Thingvallavatn.
Towards the south-east from the mountain towards the sea is a lava covered plateau whose height is about 300–400 m (980–1,310 ft) with scattered higher tindars and tuyas.
During the Holocene volcanic eruptions in the zone have been predominantly effusive and basaltic with minor tephra production. Erupted lava volumes have ranged from 0.05–3 km3 (0.012–0.720 cu mi).
= Risk
=The official view of the volcanic hazard is that it is confined to a radius of 30 km (19 mi) and is related to lava flows, plugging of geothermal boreholes by lava, volcano-tectonic faulting and volcanic gas pollution.
There was either hydrothermal fluid or magma increase at a depth of approximately 5–7 km (3.1–4.3 mi) within the inferred brittle-ductile transition zone of the area centred at Ölkelduháls, between Hengill and Hrómundartindur to its east during 2017 and 2018. This volume had had been contracting between 2006–2017, and was about 3 km (1.9 mi) north-west from an area of uplift between 1993 and 1999.
Geothermal resources
There are three associated geothermal areas related to the high amount of fissuring in the Hengill volcanic
system producing high water subsurface permeability. These areas include Iceland’s second largest geothermal field which now is an important source of energy for the south of the country. The three areas are:
Nesjavellir geothermal system, which is captured at the Nesjavellir power station near the western shore of the lake Þingvallavatn
Hellisheiði, which has the largest power station in Iceland, Hellisheiði power station, approximately 11 km (6.8 mi) south-west of Nesjavelli. Both stations are operated by Orkuveita Reykjavíkur (Reykjavik Energy).
Hveragerdi, whose hydrothermal waters have been used for greenhouse heating.
The area with its mountains and hot springs is well suited for hiking and there are a lot of hiking trails.
The town of Hveragerði with its multitude of hot springs is also part of the Hengill area.
Culture
Some folk tales are connected to the region. For example, in a folk tale collected and published by Jón Árnason in 1862, a young farmer is said to have killed the sleeping troll woman Jóra [ˈjouːra] while she lay in wait for innocent wanderers or horsemen on the trail over Dyrafjöll [ˈtɪːraˌfjœtl̥] north of Hengill. In another folk tale, according to some people, a woman's body found in the area was believed to be that of Halla, the wife of the famous Icelandic outlaw Fjalla-Eyvindur.
See also
Geography of Iceland
List of lakes of Iceland
Volcanism of Iceland
List of volcanic eruptions in Iceland
List of volcanoes in Iceland
Notes
References
= Sources
=Venzke, Edward, ed. (15 December 2023). "Global Volcanism Program, 2023. Hengill (371050) in [Database] Volcanoes of the World (v. 5.1.5; 15 Dec 2023)". Smithsonian Institution. doi:10.5479/si.GVP.VOTW5-2023.5.1.
Zakharova, O.K.; Spichak, V.V. (2012). "Geothermal fields of Hengill volcano, Iceland". Journal of Volcanology and Seismology. 6 (1): 1–14. Bibcode:2012JVolS...6....1Z. doi:10.1134/S074204631201006X. S2CID 129031347. Retrieved 30 December 2023.
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.
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.
Bessason, B.; Sólnes, J.; Bjarnason, J.Ö.; Guðmundsson, A.; Steedman, S. (2012). "Comprehensive damage analysis of buildings affected by the 2008 South Iceland earthquake" (PDF). Proceedings of the 15th World Conference of Earthquake Engineering. Sociedade Portuguesa de Engenharia Sismica (SPES). ISBN 9781634396516. Retrieved 30 December 2023.
Hernández, P.A.; Pérez, N.M.; Fridriksson, T.; Egbert, J.; Ilyinskaya, E.; Thárhallsson, A.; Ívarsson, G.; Gíslason, G.; Gunnarsson, I.; Jónsson, B.; Padrón, E. (2012). "Diffuse volcanic degassing and thermal energy release from Hengill volcanic system, Iceland" (PDF). Bulletin of Volcanology. 74 (10): 2435–2448. Bibcode:2012BVol...74.2435H. doi:10.1007/s00445-012-0673-2. S2CID 128693606. Retrieved 30 December 2023.
Ducrocq, C.; Geirsson, H.; Árnadóttir, T.; Juncu, D.; Drouin, V.; Gunnarsson, G.; Kristjansson, B.R.; Sigmundsson, F.; Hreinsdottir, S.; Tómasdóttir, S.; Blanck, H. (2021). "Inflation-deflation episodes in the Hengill and Hrómundartindur volcanic complexes, SW Iceland". Frontiers in Earth Science. 9: 725109. Bibcode:2021FrEaS...9..915D. doi:10.3389/feart.2021.725109.
External links
Hengill in the Catalogue of Icelandic Volcanoes
Map
ÍSOR Interactive map of geothermal areas in Iceland (in Icelandic)
Kata Kunci Pencarian:
- Daftar gunung berapi di Islandia
- Þingvellir
- Hengill
- Southern Peninsula (Iceland)
- Hellisheiði Power Station
- Geology of Reykjanes Peninsula
- List of volcanoes in Iceland
- List of volcanic eruptions in Iceland
- Reykjanes fires
- Volcanism of Iceland
- Nesjavellir Geothermal Power Station
- Orkuveita Reykjavíkur