Deadliest Volcanic Eruptions in History
The 25 most catastrophic eruptions ranked by estimated death toll
Volcanic eruptions have killed an estimated 278,000 people over the past 500 years, with the vast majority of those deaths concentrated in just a handful of catastrophic events. The deadliest eruptions in history share a common thread: they struck densely populated regions where communities had little warning and no evacuation plan.
This ranked list documents the 25 deadliest volcanic eruptions in recorded history, drawing on data from the Smithsonian Global Volcanism Program and historical records. The death tolls listed are the best available estimates, though for many older events — particularly those before the 19th century — the true numbers remain uncertain.
Several patterns emerge from this data. First, the deadliest eruptions are not necessarily the most powerful. Nevado del Ruiz's 1985 eruption was only a VEI 3 event, yet it killed over 23,000 people when lahars buried the town of Armero. Mount Unzen's 1792 disaster was a mere VEI 2 — the deadliest eruption by a low-VEI event in history — because it triggered a massive tsunami.
By contrast, the 1991 eruption of Mount Pinatubo (VEI 6) killed fewer than 900, largely because scientists successfully predicted the eruption and authorities evacuated over 200,000 people.
Second, Indonesia dominates this list. With over 100 active volcanoes and some of the highest population densities in the world, Indonesia accounts for more volcanic fatalities than any other nation. Seven of the top 25 deadliest eruptions occurred on Indonesian islands.
Third, the mechanisms of death vary enormously. Pyroclastic flows — superheated avalanches of gas, ash, and rock traveling at up to 700 km/h — are the single deadliest volcanic hazard. But tsunamis triggered by volcanic activity (as at Krakatau in 1883 and Unzen in 1792), lahars (volcanic mudflows, as at Nevado del Ruiz), famine caused by climatic disruption (as after Tambora in 1815), and even suffocating gas emissions (as at Lake Nyos in 1986) have each claimed thousands of lives.
Understanding the Volcanic Explosivity Index (VEI) is essential when interpreting this list. The VEI is a logarithmic scale from 0 to 8, where each level represents a roughly tenfold increase in erupted material. However, as this list dramatically illustrates, VEI alone does not predict lethality — proximity to populations, warning time, eruption style, and secondary hazards are all critical factors.
The inclusion of the 2022 Hunga Tonga-Hunga Ha'apai eruption at the end of this list — with only 6 deaths despite being one of the most powerful eruptions in over a century — underscores how modern monitoring and early warning systems have fundamentally changed volcanic risk. The challenge of the 21st century is extending these capabilities to every volcanic region, particularly in Indonesia, the Philippines, and Guatemala, where millions still live in the shadow of active volcanoes.
The 25 Deadliest Volcanic Eruptions in Recorded History
Ranked by estimated death toll. VEI = Volcanic Explosivity Index (0–8 scale).
| Rank↑ | Volcano | Country | Year | Estimated Deaths | VEI | Primary Cause of Death |
|---|---|---|---|---|---|---|
| 1 | Tambora | Indonesia | 1815 | 92,000 | VEI 7 | Pyroclastic flows, tsunami, starvation from 'Year Without a Summer' crop failures |
| 2 | Krakatau | Indonesia | 1883 | 36,000 | VEI 6 | Tsunamis (up to 30 m high) triggered by caldera collapse |
| 3 | Pelée, Montagne | Martinique | 1902 | 29,025 | VEI 4 | Pyroclastic flow (nuée ardente) destroyed Saint-Pierre in minutes |
| 4 | Ruiz, Nevado del | Colombia | 1985 | 23,080 | VEI 3 | Lahars triggered by glacial melt buried the town of Armero |
| 5 | Unzen | Japan | 1792 | 15,190 | VEI 2 | Flank collapse triggered a mega-tsunami in Ariake Sea |
| 6 | Kelut | Indonesia | 1586 | 10,000 | VEI 5 | Explosive eruption and lahars from crater lake drainage |
| 7 | Laki | Iceland | 1783 | 9,350 | VEI 6 | Fluorine poisoning of livestock, famine; toxic haze reached Europe |
| 8 | Santa Maria | Guatemala | 1902 | 6,000 | VEI 6 | Pyroclastic flows, ashfall, and subsequent lahars |
| 9 | Kelut | Indonesia | 1919 | 5,110 | VEI 4 | Hot lahars from crater lake swept through surrounding villages |
| 10 | Galunggung | Indonesia | 1822 | 4,011 | VEI 5 | Pyroclastic flows and lahars devastated 114 villages |
| 11 | Vesuvius | Italy | 1631 | 3,500 | VEI 4 | Pyroclastic flows, lava flows, and lahars after 500 years of dormancy |
| 12 | Vesuvius | Italy | 79 | 3,360 | VEI 5 | Pyroclastic surges and ashfall buried Pompeii and Herculaneum |
| 13 | Papandayan | Indonesia | 1772 | 2,957 | VEI 3 | Sector collapse destroyed 40 villages |
| 14 | Lamington | Papua New Guinea | 1951 | 2,942 | VEI 4 | Pyroclastic flows from first known eruption of this volcano |
| 15 | El Chichón | Mexico | 1982 | 2,000 | VEI 5 | Pyroclastic surges destroyed several villages; sulfur aerosols cooled global climate |
| 16 | Nyos, Lake | Cameroon | 1986 | 1,746 | VEI 0 | Limnic eruption released massive CO₂ cloud, asphyxiating people up to 25 km away |
| 17 | Soufriere Guadeloupe | Guadeloupe | 1902 | 1,680 | VEI 4 | Pyroclastic flows and mudflows; occurred same year as Pelée eruption |
| 18 | Agung | Indonesia | 1963 | 1,584 | VEI 5 | Pyroclastic flows and lahars; global temperature dropped 0.1–0.4°C |
| 19 | Merapi | Indonesia | 1930 | 1,369 | VEI 3 | Pyroclastic flows (nuées ardentes) swept down populated flanks |
| 20 | Taal | Philippines | 1911 | 1,335 | VEI 3 | Base surge, mudflows, and tsunamis within the crater lake |
| 21 | Mayon | Philippines | 1814 | 1,200 | VEI 4 | Pyroclastic flows and lahars buried the town of Cagsawa |
| 22 | Cotopaxi | Ecuador | 1877 | 1,000 | VEI 4 | Lahars from glacial melt traveled over 100 km, destroying Latacunga |
| 23 | Pinatubo | Philippines | 1991 | 847 | VEI 6 | Lahars, pyroclastic flows, roof collapses from ashfall; 200,000+ evacuated |
| 24 | Dieng Volcanic Complex | Indonesia | 1979 | 149 | VEI 1 | Phreatic eruption released CO₂ gas cloud that suffocated villagers |
| 25 | Hunga Tonga-Hunga Ha'apai | Tonga | 2022 | 6 | VEI 5 | Massive submarine eruption triggered tsunamis across the Pacific; atmospheric shockwave circled the globe multiple times |
Pyroclastic Flows: The Deadliest Volcanic Hazard
Pyroclastic flows are responsible for more volcanic deaths than any other hazard. These superheated avalanches of gas, rock fragments, and volcanic ash can reach temperatures of 700°C (1,300°F) and travel at speeds exceeding 700 km/h (430 mph), making them virtually impossible to outrun.
The most devastating example on this list is the 1902 eruption of Montagne Pelée on the Caribbean island of Martinique. On the morning of May 8, a massive pyroclastic flow — described at the time as a "nuée ardente" (glowing cloud) — swept down the mountainside and engulfed the city of Saint-Pierre in under two minutes. Of the city's approximately 30,000 inhabitants, only two survived.
The disaster shocked the world and fundamentally changed the scientific understanding of volcanic hazards.
Mount Merapi in Indonesia has produced deadly pyroclastic flows repeatedly throughout its history. Its 1930 eruption killed 1,369 people, and even its most recent major eruption in 2010 claimed 367 lives despite modern monitoring and evacuation efforts. Merapi's steep, densely populated flanks mean that pyroclastic flows can reach inhabited areas within minutes of generation.Tsunamis and Lahars: Water as a Volcanic Weapon
While pyroclastic flows dominate public imagination, water-related hazards — tsunamis and lahars — have produced some of the highest individual death tolls in volcanic history.
The 1883 eruption of Krakatau generated tsunamis up to 30 meters (100 feet) high that devastated coastal towns across the Sunda Strait, killing an estimated 36,000 people. The caldera collapse that produced these waves was so violent that the sound was heard 4,800 km (3,000 mi) away in Rodrigues Island near Mauritius — the loudest sound in recorded human history. The tsunamis, not the eruption itself, accounted for over 90% of the deaths.
Lahars — fast-moving volcanic mudflows — are equally devastating. The 1985 eruption of Nevado del Ruiz in Colombia melted roughly 10% of the volcano's ice cap, sending lahars down river valleys at speeds up to 60 km/h (37 mph). The town of Armero, 74 km (46 mi) from the summit, was buried under 5 meters of mud.
Over 23,000 of its 29,000 residents perished. The tragedy was compounded by the fact that scientists had warned of the lahar risk months in advance, but evacuation orders were never issued.
Cotopaxi in Ecuador produced similarly destructive lahars in 1877, destroying the city of Latacunga over 100 km from the summit. Today, with 300,000 people living in Cotopaxi's lahar zones, the volcano remains one of the highest-risk in the Americas.Volcanic Winter: When Eruptions Kill Through Climate
The deadliest volcanic eruption in recorded history — Tambora in 1815 — killed more people through its climatic aftermath than through its immediate eruption. While approximately 12,000 people died directly from pyroclastic flows and ashfall on Sumbawa Island, an estimated 80,000 additional deaths resulted from famine and disease caused by the eruption's global climate impact.
Tambora injected an estimated 60 megatons of sulfur dioxide into the stratosphere, creating a veil of sulfuric acid aerosols that blocked sunlight worldwide. The following year, 1816, became known as the "Year Without a Summer." Crop failures struck across North America, Europe, and Asia. In parts of Indonesia, the ashfall destroyed crops entirely, triggering famine and a cholera epidemic.
The 1783 Laki eruption in Iceland produced a similar but more localized catastrophe. An eight-month-long fissure eruption released toxic fluorine gas that poisoned over 60% of Iceland's livestock. The resulting famine killed approximately 9,350 Icelanders — roughly a quarter of the population.
The volcanic haze drifted across Europe, contributing to crop failures and an estimated 23,000 additional deaths in Britain alone from respiratory illness.
These events demonstrate that the VEI scale alone cannot capture a volcano's destructive potential. Duration, gas composition, and atmospheric injection height all determine whether an eruption will have global consequences.
Modern Disasters and Lessons Learned
The 20th and 21st centuries have seen both devastating volcanic disasters and remarkable successes in volcanic hazard mitigation.
The 1991 eruption of Mount Pinatubo in the Philippines stands as the greatest success story in volcanic risk reduction. Scientists from the Philippine Institute of Volcanology and Seismology (PHIVOLCS) and the U.S. Geological Survey detected the eruption weeks in advance. Over 200,000 people were evacuated from the danger zone before the climactic VEI 6 eruption on June 15.
Despite being the second-largest eruption of the 20th century, Pinatubo's death toll (847) was a fraction of what it could have been — scientists estimate that without the evacuation, fatalities could have exceeded 20,000.
Contrast this with Nevado del Ruiz just six years earlier, where warnings went unheeded and 23,000 died. The Armero tragedy led directly to the establishment of new volcano monitoring programs across Latin America and the creation of international volcanic hazard alert protocols.
More recently, the 2022 eruption of Hunga Tonga-Hunga Ha'apai produced one of the most powerful explosions ever recorded — generating a volcanic plume that reached 57 km into the mesosphere and an atmospheric shockwave that circled the Earth multiple times. Yet only 6 people died, thanks to the volcano's remote submarine location and modern tsunami warning systems. This event, however, highlighted a new concern: submarine volcanic eruptions can generate atmospheric tsunamis and disruptions to global communications infrastructure.
Key Statistics
- •Tambora's 1815 eruption killed an estimated 92,000 people, making it the deadliest volcanic event in recorded history.
- •Indonesia accounts for 7 of the 25 deadliest eruptions — more than any other country — reflecting its 100+ active volcanoes and dense populations.
- •The 1883 Krakatau eruption generated the loudest sound in recorded history, audible 4,800 km away on Rodrigues Island.
- •Nevado del Ruiz (1985) killed 23,080 people with only a VEI 3 eruption — proving that eruption size alone does not determine lethality.
- •The 1902 Pelée eruption wiped out Saint-Pierre in under two minutes, leaving only 2 survivors from a population of approximately 30,000.
- •Mount Unzen's 1792 collapse-triggered tsunami killed 15,190 people despite being only a VEI 2 event — the deadliest low-VEI eruption in history.
- •Laki's 1783 eruption killed approximately 25% of Iceland's population through fluorine poisoning and famine.
- •The successful evacuation of 200,000 people before Pinatubo's 1991 eruption prevented an estimated 20,000+ additional deaths.
- •Volcanic eruptions have killed an estimated 278,000 people in the past 500 years.
- •Pyroclastic flows can reach temperatures of 700°C and speeds exceeding 700 km/h, making them the deadliest volcanic hazard.
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Source: Global Volcanism Program, 2025. [Database] Volcanoes of the World (v. 5.3.4; 30 Dec 2025). Distributed by Smithsonian Institution, compiled by Venzke, E. https://doi.org/10.5479/si.GVP.VOTW5-2025.5.3