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ヘインギットル

Hengill

火口列 · Iceland · 803m

An aerial view from the NE shows the Hengill central shield volcano on the center horizon rising above Thingvallavatn lake. Steam rises from the Nesjavallavirkjun geothermal area in front of the peak. NE-trending fault scarps extend into the lake. Holocene fissure-fed eruptions have occurred from vents both northeast and southwest of the Hengill central volcano, with fissures extending into the lake. Just out of the bottom of the picture (north) is an island where phreatomagmatic activity created a tephra ring called Sandey about 1,900 years ago.
An aerial view from the NE shows the Hengill central shield volcano on the center horizon rising above Thingvallavatn lake. Steam rises from the Nesjavallavirkjun geothermal area in front of the peak. NE-trending fault scarps extend into the lake. Holocene fissure-fed eruptions have occurred from vents both northeast and southwest of the Hengill central volcano, with fissures extending into the lake. Just out of the bottom of the picture (north) is an island where phreatomagmatic activity created a tephra ring called Sandey about 1,900 years ago. · 写真: Photo by Oddur Sigurdsson, 1998 (Icelandic National Energy Authority). · Wikimedia Commons
タイプ
火口列
Iceland
地域
Atlantic Ocean Volcanic Regions / Iceland Neovolcanic Rift Volcanic Province
標高
803m
座標
64.083, -21.416
最終噴火
150年
テクトニクス環境
Rift zone / Oceanic crust (< 15 km)
火山地形
Cluster
主要岩石
Basalt / Picro-Basalt
地質学的概要

The Hengill volcanic system, cutting through Thingvallavatn lake, consists of a series of NE-SW-trending fissure vents, crater rows, and small shield volcanoes occupying a strongly faulted graben. Hengill is the easternmost of a series of four closely spaced basaltic fissure systems that cut diagonally across the Reykjanes Peninsula and lies at the triple junction of the Reykjanes Peninsula volcanic zone, the Western volcanic zone, and the South Iceland seismic zone. Postglacial lava flows surface much of the volcanic system. The latest eruption was radiocarbon dated about 1,900 years before present. An eruption in the Hellisheidi area once thought to have occurred around 1000 CE at the time of a meeting of the Icelandic parliament at Thingvellir is now known to have occurred at a vent about 5 km away in the Brennisteinsfjöll volcanic system. The high-temperature Nesjavellir geothermal area NE of the uplifted hyaloclastite ridge forming the Hengill central volcano and the Helllisheidi geothermal field SW of Hengill are major producers of geothermal energy for Reykjavik.

Wikipedia の要約

要約が短いです。詳細は記事全文をご覧ください。

ヘインギットル はアイスランド島の南西部にある火山。シンクヴェトリルの南にあり、火山体の部分はおおよそ100 km² に広がっている。

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噴火履歴

概要 (VEI時系列)
バーをクリックすると個別の噴火が表示されます
8350 BCE~8067 BCE · 3件 · 最大 VEI 07783 BCE~7500 BCE · 1件 · 最大 VEI 07500 BCE~7217 BCE · 1件 · 最大 VEI ?7217 BCE~6933 BCE · 1件 · 最大 VEI 05800 BCE~5517 BCE · 1件 · 最大 VEI 05233 BCE~4950 BCE · 1件 · 最大 VEI ?3817 BCE~3533 BCE · 1件 · 最大 VEI 23250 BCE~2967 BCE · 1件 · 最大 VEI 01833 BCE~1550 BCE · 1件 · 最大 VEI 0133 BCE~150 · 2件 · 最大 VEI 28350 BCE6367 BCE4100 BCE2117 BCE133 BCE

詳細タイムライン

  1. 150年 (±75年)VEI 2地質学的推定
    150 ~ 進行中
    Nesjahraun, Reykjafellshraun
  2. 紀元前 80年 (±75年)VEI 2地質学的推定
    BCE 80 ~ 進行中
    Eldborg undir Meitlum
  3. 紀元前 1730年 (±50年)VEI 0地質学的推定
    BCE 1730 ~ 進行中
    Thjófahraun
  4. 紀元前 3250年VEI 0地質学的推定
    BCE 3250 ~ 進行中
    Leitahraun, Ellidaárhraun
  5. 紀元前 3750年VEI 2地質学的推定
    BCE 3750 ~ 進行中
    Hagavikurhraun
  6. 紀元前 5000年VEI ?地質学的推定
    BCE 5000 ~ 進行中
    Eldborgir
  7. 紀元前 5550年 (±500年)VEI 0地質学的推定
    BCE 5550 ~ 進行中
    Stangarhals
  8. 紀元前 7100年VEI 0地質学的推定
    BCE 7100 ~ 進行中
    Gjabakkahraun
  9. 紀元前 7300年VEI ?地質学的推定
    BCE 7300 ~ 進行中
    Brunnar/Skogarkot
  10. 紀元前 7550年VEI 0地質学的推定
    BCE 7550 ~ 進行中
    Selvogsheidi
  11. 紀元前 8200年VEI 0地質学的推定
    BCE 8200 ~ 進行中
    Hafnarhraun
  12. 紀元前 8250年VEI 0地質学的推定
    BCE 8250 ~ 進行中
    Thingvallahraun
  13. 紀元前 8350年VEI 0地質学的推定
    BCE 8350 ~ 進行中
    SSW of Hengill (Hellisheid-A)

外部リンク

⚠ 参考情報です。緊急対応には使用しないでください。