🌋VolcanoAtlas

Hekla

The Gateway to Hell — Iceland's Most Famous Volcano

Elevation

1,491 m

Last Eruption

2000

Type

Stratovolcano

Country

Iceland

Location

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Volcanic Hazards & Risk Assessment

Primary Hazards

  • Pyroclastic flows
  • Lava flows
  • Volcanic bombs and ballistics
  • Lahars and mudflows

Risk Level

Population at RiskHigh
Infrastructure RiskHigh
Aviation RiskSignificant

Geological Composition & Structure

Rock Types

Primary
Unknown
Silica Content
Varied composition

Tectonic Setting

Unknown
Intraplate setting with hotspot or regional volcanic activity.

Age & Formation

Epoch
Unknown
Evidence
Unknown

Eruption Statistics & Analysis

MetricValueGlobal RankingSignificance
Total Recorded EruptionsUnknownLowModerately active volcano
Maximum VEIVEI UnknownMinorLocal impact potential
Recent Activity26 years agoRecentRecently active

Monitoring & Alert Status

Monitoring Networks

Global Volcanism Program
International eruption database

Current Status

Watch
Dormant but monitored. Capable of renewed activity.

Authority Sources

Smithsonian GVP
Official volcano database

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Interesting Facts

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Medieval Europeans believed Hekla was one of the gateways to Hell — Cistercian monks in the 12th century described it as a prison of the damned, and this association persisted in European maps and literature for over 500 years.

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Hekla gives almost no seismic warning before erupting — the 2000 eruption was preceded by only 79 minutes of detectable tremor, making it one of the most unpredictable active volcanoes on Earth.

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The 1947 eruption produced an eruption column that reached approximately 30 km altitude within 30 minutes of onset — higher than most commercial aircraft fly.

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Hekla's tephra is characteristically enriched in fluorine, making it highly toxic to livestock — the 1947 eruption killed approximately 30% of sheep in affected districts through fluorine poisoning.

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Five VEI 5 tephra layers from Hekla (designated H5, H4, H-S, H3, and H1) serve as critical chronological markers used to date archaeological and geological sites across Iceland, Scotland, Scandinavia, and Ireland.

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The 1104 CE eruption — Hekla's first historically recorded event — devastated the Þjórsárdalur valley so thoroughly that some farms were not resettled for centuries.

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Hekla's eruption chemistry follows a predictable pattern: longer repose periods produce more silica-rich (and more explosive) initial eruptions, as magma has more time for fractional crystallization.

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The 5.5 km Heklugjá summit fissure can erupt along its entire length simultaneously, producing 'curtains of fire' visible from great distances across southern Iceland.

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Hekla produces basaltic andesite rather than the tholeiitic basalt typical of Icelandic rift volcanoes — a consequence of its position at a rift-transform junction, giving it a chemistry more like a subduction zone volcano.

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Abraham Ortelius's 1585 map Islandia depicted Hekla erupting alongside the Latin inscription describing it as 'condemned to eternal fire and ice.'

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Despite official warnings from the Icelandic Meteorological Office against climbing Hekla due to its minimal warning time, hundreds of tourists and locals summit the volcano each summer.

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The reconstructed Viking-age farm Stöng in the Þjórsárdalur valley was buried by Hekla's 1104 eruption and excavated in 1939, providing one of Iceland's most important archaeological finds.

Frequently Asked Questions

Is Hekla going to erupt soon?
Hekla is considered very likely to erupt again, though the exact timing cannot be predicted. The volcano's four most recent eruptions (1970, 1980, 1991, 2000) occurred at intervals of 10, 11, and 9 years, but as of 2026, it has been 26 years since the last eruption — the longest gap in this recent sequence. GPS data shows ongoing inflation, indicating magma accumulation. Hekla's established pattern suggests that longer repose periods produce more explosive initial eruptions: the 102-year gap before 1947 produced a VEI 4 event. The Icelandic Meteorological Office monitors Hekla continuously and considers it capable of erupting at any time.
Why is Hekla called the Gateway to Hell?
Hekla earned its infernal reputation following the devastating 1104 CE eruption (VEI 5), which was among the most violent volcanic events witnessed in medieval Europe. Cistercian monk Herbert of Clairvaux subsequently described Hekla as a prison of the damned, and over the following centuries, European mapmakers and writers depicted the volcano as one of the entrances to Hell. Abraham Ortelius's famous 1585 map of Iceland showed Hekla erupting alongside demons. The association persisted for over 500 years in European literature, art, and cartography, fueled by reports of each subsequent eruption.
How tall is Hekla?
Hekla stands at 1,491 m (4,892 ft) above sea level, making it one of southern Iceland's most prominent peaks. The summit ridge is formed by the 5.5 km-long Heklugjá fissure, giving the mountain its characteristic elongated profile. Hekla's height has fluctuated modestly over its eruptive history as successive eruptions add material to the summit while explosive events can remove it. The summit elevation is comparable to its neighbor Katla (1,490 m), though Katla's peak is the ice cap surface rather than rock.
Can you hike Hekla?
Hekla can be hiked, but the Icelandic Meteorological Office and Icelandic Search and Rescue strongly advise against it. The volcano's extremely short warning time — as little as 30–80 minutes before eruption onset — means that hikers on or near the summit during an eruption would likely be killed by explosive activity, volcanic gases, and projectile tephra before any evacuation could occur. Despite these warnings, hundreds of people summit Hekla each summer. The hike from the northwest parking area involves approximately 1,000 m of elevation gain over 7–8 km (4–7 hours round trip). The Hekla Center in Leirubakki provides information about the volcano's history and current status.
When did Hekla last erupt?
Hekla's most recent eruption began on February 26, 2000, and lasted approximately 11 days until March 8. Rated VEI 3, the eruption was preceded by only 79 minutes of seismic activity before lava burst through the summit fissure. The eruption produced lava flows covering approximately 17 km² and a moderate tephra plume. It was the fourth eruption in a rapid sequence (1970, 1980, 1991, 2000), each at intervals of 9–23 years. As of 2026, the current repose period of 26 years exceeds the spacing of the previous four eruptions.
What type of volcano is Hekla?
Hekla is classified as a stratovolcano (composite volcano), built from alternating layers of lava and tephra. However, it is unusual among stratovolcanoes because it sits on a divergent plate boundary (rift zone) rather than a subduction zone. Hekla occupies a rift-transform junction, which gives it an uncommon geochemical profile: it erupts basaltic andesite to dacite rather than the tholeiitic basalt typical of Icelandic rift volcanoes. The 5.5 km-long Heklugjá summit fissure gives Hekla an elongated ridge profile rather than the classic symmetrical cone shape of most stratovolcanoes.
Why is Hekla's tephra dangerous to animals?
Hekla's tephra is characteristically enriched in fluorine, a chemical element that is highly toxic to grazing livestock. When fluorine-laden volcanic ash settles on pastures, animals that consume contaminated grass develop fluorosis — a condition causing dental deterioration, skeletal deformities, and eventual death. The 1947 eruption killed approximately 30% of sheep in affected areas of southern Iceland, and historical eruptions in 1104, 1300, 1693, 1766, and 1845 all caused significant livestock losses. The fluorine content of Hekla's tephra is a consequence of the volcano's unusual magma chemistry at the rift-transform junction.
How does Hekla compare to Eyjafjallajökull?
Hekla and Eyjafjallajökull are both active stratovolcanoes in southern Iceland but differ significantly in their eruption characteristics. Hekla is far more active with 65 recorded eruptions versus Eyjafjallajökull's 8, and its maximum VEI of 5 exceeds Eyjafjallajökull's VEI 4. Hekla erupts with minimal seismic warning (30–80 minutes), while Eyjafjallajökull's 2010 eruption was preceded by weeks of seismicity. Eyjafjallajökull's 2010 eruption disrupted global aviation for weeks, demonstrating that even moderate Icelandic eruptions can have enormous economic consequences — a prospect that makes a potential large Hekla eruption a significant concern.