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Didicas Volcano
Didicas Volcano
Didicas Volcano
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Didicas Volcano is an active volcanic island in the province of Cagayan in northern Philippines. The island, which was a submarine volcano and re-emerged from the sea in 1952, lies 22 kilometres (14 mi) NE of Camiguin Island, one of the Babuyan Islands in Luzon Strait. Before 1952, the volcano first breached the ocean surface in 1857.[2]

Key Information

Physical features

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Didicas is topped with a lava dome with an elevation of 228 metres (748 ft) and a base diameter of 1,200 metres (3,900 ft) at sea level. It is at the northern end of the Luzon Volcanic Arc, and like all the volcanoes in the Philippines, is part of the Pacific ring of fire.

Eruption history

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There have been six historical eruptions recorded from the volcano since the 18th century.

  • 1773: The first recorded submarine eruption from the volcano, on what was known as Didicas reefs of the Farallones.[3]
  • 1856 September or October: The first activity started as a column of "smoke" in between the two rocks well known to the locals, but no earthquakes were felt.
  • 1857: The volcano erupted violently, attended by earthquakes, then broke the surface of the sea. From then to 1860, the volcano was constantly active and in four years had reached a height of 700 feet (210 m). The island was later washed out by the waves and disappeared beneath the sea.[2][3][4]
  • 1900: An eruption left three rock masses up to 82 feet (25 m) high.[1]
  • 1952: The volcano broke the ocean's surface again during an eruption that started around March 16.
  • 1953: The activities subsided. The resulting island is 1.5 miles (2.4 km) wide with an elevation of 240 metres (800 ft).[1]
  • 1969: First known fatalities from the volcano: three fishermen were killed while fishing near the volcano. The activity, which started on March 21, came from a new crater on the northern side of the island. Air reconnaissance over the volcano reported bubbling mud on the 20 m (66 ft) wide bottom of the crater. Activity on the volcano waned in June.[1]
  • 1978 January 6 to 9: The last eruption of Didicas to date. The mild eruption blanketed the island with volcanic ash.[1]

See also

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References

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Didicas Volcano

View on Grokipedia
from Grokipedia
Didicas Volcano is a small, active in the of Province, northern , situated approximately 60 km off the coast of at coordinates 19.08°N, 122.2°E. Originally a , it emerged above during a major explosive eruption in 1952, forming a permanent roughly 1.4 km in diameter with a summit elevation of 228 m dominated by an andesitic and a 400-m-wide on its northern side. The volcano's eruptive history includes confirmed events in 1773 (uncertain), 1856–1860, 1900, 1952, 1969, and 1978, characterized primarily by explosive activity that has produced ashfalls and, in one case, a . The 1952 eruption built the initial island structure, rising over 200 m above through submarine explosions and lava , marking it as one of the youngest volcanic s in the . In March 1969, phreatomagmatic explosions generated a volcanic that drowned three fishermen near the , highlighting the hazards posed by its offshore location. The most recent eruption occurred on January 6–9, 1978, when ash blanketed the entire without accompanying lava flows or significant steaming. Geologically, Didicas features three eruptive craters aligned along its northeastern flank and lies within the Philippine Volcanic Arc, influenced by of the Philippine Sea Plate beneath the Arc. Currently dormant with no reported activity since 1978 as of 2025, it remains under monitoring by the Philippine Institute of Volcanology and Seismology (PHIVOLCS) due to its potential for sudden explosive eruptions in a seismically active region. The island's remote position, 22 km northeast of Camiguin Island, limits human access but underscores its role in understanding submarine-to-subaerial volcanic transitions in island arc settings.

Geography and Geology

Location and Tectonic Setting

Didicas Volcano is situated at coordinates 19°04′30″N 122°12′05″E in the group, within province in the northern . It lies approximately 22 km northeast of Island and about 60 km offshore from the northern coast of , forming a small, isolated in the region. As a remote and uninhabited landmass, the volcano is accessible primarily by boat from nearby or Fuga Islands, limiting routine human activity in the area. The volcano occupies a position within the Philippine Mobile Belt, a tectonically active zone characterized by complex interactions between multiple plates. Specifically, Didicas is associated with along the , where the Basin (part of the Eurasian Plate) converges with and subducts eastward beneath the Philippine Mobile Belt at a rate of 7–8 cm per year. This process drives arc volcanism in the region, contributing to the formation of the northern volcanic chain, of which Didicas forms part of the western arc segment. Didicas represents one of the 24 active volcanoes identified by the Philippine Institute of Volcanology and Seismology (PHIVOLCS) across the archipelago, highlighting its role in the broader volcanic arc segment of the .

Geological History and Formation

Didicas Volcano originated as a volcanic edifice during the epoch, forming part of the in response to the subduction of the Basin (part of the Eurasian Plate) eastward beneath the Philippine Mobile Belt along the . The volcano's andesitic magma composition reflects generation through hydration and of the mantle wedge, induced by volatile-rich fluids derived from the dehydrating subducting slab. This process is characteristic of convergent margin volcanism in the region, producing intermediate magmas that fuel edifice growth. Prior to surface emergence, the developed as a through repeated eruptions over thousands of years, with the earliest documented activity occurring in as a submarine eruption at Didicas Reefs. Accumulative effusive and explosive events built the underwater structure, though substantive growth likely predated historical records. The breached in during a major eruptive episode, extruding an andesitic that formed a permanent rising to 228 m above , complete with a 400 m wide summit crater. This emergence resulted from rising interacting explosively with , producing phreatomagmatic activity that rapidly constructed the initial edifice. Since emergence, the island has experienced ongoing and , which have carved gullies into the steep slopes of the . The now spans approximately 1.4 km in its longest dimension, reflecting both constructional volcanic features and post-formational modifications.

Physical Characteristics

Island Morphology

Didicas Island consists of a small andesitic rising to an elevation of 228 m above , forming a compact volcanic structure approximately 1.4 km in its longest exposed dimension. The island's base spans about 1.2 km in diameter at , with an overall conical profile shaped by explosive eruptions and dome growth. The island features three eruptive craters aligned along its northeastern flank. At the summit, a central crater measuring 400 m in diameter dominates the morphology, featuring steep inner walls and occasional fumarolic vents that emit steam during periods of unrest. This crater originated from the 1952 emergence event, when the submarine volcano built the island through rapid extrusion and explosive activity. The flanks exhibit steep slopes mantled in loose pyroclastic deposits, including ash and scoria from historical eruptions. The northern end preserves remnants of explosion craters, including a smaller 20-m-wide feature formed in 1969, contributing to the rugged, uneven terrain. Coastally, the island presents a jagged shoreline with abrupt cliffs rising from the sea, while surrounding shallow submarine slopes extend outward, grading into deeper marine waters.

Rock Composition and Structure

Didicas Volcano is primarily composed of andesitic lavas that form a dome structure rising 228 m above and measuring 1.4 km in its longest exposed dimension. The dominant rock types include and , with associated pyroclastic deposits consisting of , , and derived from explosive eruptive phases. These materials reflect the volcano's effusive and explosive activity in a subduction-related setting. The magma feeding Didicas Volcano belongs to the calc-alkaline series typical of environments, characterized by silica contents ranging from 55% to 65%. This composition arises from of wedge influenced by hydrous fluids released from the subducting slab, which lower melting temperatures and promote the generation of intermediate magmas. Structurally, the volcano exhibits alternating layers of viscous lava flows and deposits, contributing to a stratovolcano-like profile built upon its foundation.

Eruption History

Early Submarine Activity

An uncertain eruption possibly took place in October 1773, when the submarine feature, known as the Didicas reefs of the Farallones, produced a phreatic explosion characterized by steam emissions and floating pumice observed by Spanish navigators in the Babuyan Islands region. Submarine eruptions occurred during 1856–1860 (VEI 2), when activity built a temporary cone that reached over 200 m above sea level but was soon eroded by waves due to its loose tephra composition. An eruption around 1900 left three rock masses up to 82 m high. Additional submarine activity during the was indicated by intermittent seismic swarms and episodes of discolored seawater around the , consistent with phreatic interactions between and seawater, though no surface breaches or major were documented at the time. These events contributed to the gradual accumulation of volcanic material, with multiple likely unreported eruptions elevating the seamount structure to within tens of meters of by the early 1900s, as inferred from pre-emergence bathymetric profiles and the rapid island formation in subsequent decades. Didicas is a situated within a region of arc-related submarine volcanism.

Modern Eruptions (1952–1978)

The modern eruptive period of Didicas commenced in 1952 with a VEI 2 eruption that marked the emergence of the from the sea. Submarine volcanic activity was first reported in March 1952 by a passing ship, leading to the formation of a and the creation of a 1.4 km-wide rising to about 240 m above over the following months. The event involved phreatomagmatic explosions and effusive activity, resulting in no recorded casualties but establishing the volcano's subaerial presence. Activity resumed in 1969 with another VEI 2 eruption centered on the north side of the island, lasting from March 21 to June 16. Steam explosions and ash emissions produced a new 20 m-wide , with ashfall affecting nearby and Fuga Islands. The eruption generated a local that killed three fishermen, marking the first fatalities associated with the , though no pyroclastic flows were reported. The final confirmed eruption occurred in early 1978 (January 6–9), rated VEI 2, which deposited ash over the entire island from vents on the NNE side. No lava flows, , or sea disturbances were observed, and the event caused no deaths or damage. Post-1952 eruptions show a pattern of decreasing intensity, transitioning from island-building effusive and explosive activity to smaller and ash-dominant events, with repose intervals of approximately 17 years (1952–1969) and 9 years (1969–1978). No further eruptions have been confirmed as of 2025.

Monitoring and Hazards

Current Monitoring Efforts

The Philippine Institute of Volcanology and Seismology (PHIVOLCS) serves as the primary agency overseeing the monitoring of Didicas Volcano, classifying it as an under Alert Level 0, indicating no signs of unrest since the conclusion of the 1978 eruption. PHIVOLCS employs a multi-method approach to , including a seismic network in northern capable of detecting earthquakes of magnitude 2 or greater in the vicinity. Satellite-based imaging is routinely used to identify potential thermal anomalies, while periodic overflights provide visual assessments of surface changes. Data collection occurs through bathymetric and GPS surveys; the volcano's remote location in the precludes permanent on-island instruments, though drone deployments for detailed imaging and sampling have become more frequent in recent years. As of November 2025, no , fumarolic activity, seismic anomalies, or gas emission anomalies have been reported since 1978.

Associated Volcanic Hazards

Didicas Volcano poses several primary volcanic hazards due to its morphology and history of explosive activity, including pyroclastic flows that could descend steep flanks, ashfall blanketing the island and surrounding areas, and generated by flank collapses or explosions. explosions, as observed in past events, present risks to maritime navigation in the Babuyan Channel by producing sudden water disturbances and . For instance, during the 1969 eruption, a explosion possibly triggered a or surge that resulted in three fatalities among fishermen approximately 70 km away near San Vicente, Sta. Ana, Cagayan. Impact zones for these hazards are primarily confined to the vicinity of the , with ashfall potentially extending up to approximately 40 km to affect the , disrupting local ecosystems and agriculture. waves from such events could generate local waves hazardous to nearby coasts, threatening coastal communities on and northern . Although the island itself has no permanent , the low resident count within 30 km (approximately 132 people) heightens for fisheries and occasional visitors, where ashfall and could damage boats and . The remote location of Didicas Volcano in the group mitigates direct human threats compared to more populated volcanic sites in the , yet its loose volcanic deposits from historical eruptions increase susceptibility to secondary hazards like . may exacerbate lahar risks through intensified heavy rainfall on these unconsolidated materials, potentially mobilizing sediments into channels during typhoons, a trend observed across Philippine volcanoes. Mitigation efforts focus on preparedness through the Philippine Institute of Volcanology and Seismology (PHIVOLCS), whose 2024 Volcanic Hazard Map for Didicas delineates potential evacuation zones for , emphasizing restrictions in the vicinity of the island for potential explosive events. International coordination via the International Association of Volcanology and Chemistry of the Earth's Interior (IAVCEI) supports maritime safety alerts, integrating hazard assessments into global volcano observatory networks to warn shipping routes.
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