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Mount Ontake
Mount Ontake
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Mount Ontake (御嶽山, Ontake-san), also referred to as Mount Kiso Ontake (木曽御嶽山, Kiso Ontake-san), is the 14th-highest mountain and second-highest volcano in Japan (after Mount Fuji) at 3,067 m (10,062 ft).[3] It is included in Kyūya Fukada's 1964 book 100 Famous Japanese Mountains.

Key Information

Description

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Mt. Ontake is located around 100 km (62 mi) northeast of Nagoya, and around 200 km (120 mi) west of Tokyo, at the borders of Kiso and Ōtaki, Nagano and Gero, Gifu. The volcano has five volcanic crater lakes, with Ni no Ike (二ノ池) at 2,905 m (9,531 ft) being the highest mountain lake in Japan.[citation needed]

Ontake is a major sacred mountain, and following shugendō practices, actors and artists have gone to the mountain to put themselves into trances to get divine inspiration for their creative activities.[4]

Eruptions

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See also: 2014 eruption of Mount Ontake

Ontake was thought to be inactive until October 1979, when it underwent a series of explosive phreatic eruptions which ejected 200,000 tons of ash, and had a volcanic explosivity index (VEI) of 2.[5] There were minor non-explosive (VEI 0) phreatic eruptions in 1991 and 2007.[5]

On September 27, 2014, at around 11:53 a.m. Japan Standard Time (UTC +9),[6] the volcano erupted with a VEI of 3.[7][8] The eruption was phreatic—caused by groundwater flashing to steam in a hydrothermal explosion—and there were no significant earthquakes that might have warned authorities in the lead up to it.[9] The eruption was an extremely rare phenomenon, which made it difficult to take precautionary measures.[10][11] At the time of the eruption, several hiking parties were undertaking ascents and descents of Ontake, with emergency descents having to be undertaken in the presence of ash clouds and falling rocks.[12] 63 people were killed; five bodies were never found.[13]

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Mount Ontake
  • Mount Ontake seen from Kurakake Pass on October 11, 2014.
    Mount Ontake seen from Kurakake Pass on October 11, 2014.
  • Mount Ontake from Kiso Valley
    Mount Ontake from Kiso Valley

See also

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References

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Mount Ontake

View on Grokipedia
from Grokipedia
Mount Ontake (御岳山, Ontakesan), also known as Kiso Ontake, is a situated on the border between Nagano and prefectures in central , , at coordinates 35.893°N, 137.48°E. Rising to an elevation of 3,067 meters (10,062 feet), it ranks as Japan's second-highest volcano after . The mountain features a complex structure including a formed by a large eruption approximately 90,000–110,000 years ago, filled with lava domes, pyroclastic flows, and smaller andesitic stratovolcanoes at the summit, along with five crater lakes. Geologically, Mount Ontake is composed primarily of , , and lavas, with its edifice built through early and late-stage volcanic activity at the southern tip of the Norikura volcanic range. It is characterized by an active hydrothermal system that drives frequent explosions every few hundred years, alongside four documented magmatic eruptions in the past 10,000 years. The maintains ongoing fumarolic activity near the summit, contributing to its dynamic geothermal environment. Mount Ontake holds significant cultural and recreational importance, revered as a sacred site for Shugendo mountain asceticism and pilgrimage since the , while also serving as a renowned destination with extensive alpine infrastructure, including lodges and ropeways. However, its volcanic hazards were starkly demonstrated by the sudden on September 27, 2014, which produced an ash plume reaching 11 km altitude, pyroclastic flows, and resulted in 63 deaths and 70 injuries among hikers, marking Japan's deadliest volcanic event since . More recent activity includes a minor in March 2007 and elevated prompting a brief alert level increase in early 2025. The is continuously monitored by the using seismometers, GPS, tiltmeters, and cameras to assess ongoing risks.

Geography

Location and Topography

Mount Ontake, also known as Ontake-san, is situated at coordinates 35°53′34″N 137°28′49″E and reaches an elevation of 3,067 meters (10,062 ft) at its highest point, Kengamine. This makes it the second-highest volcano in after . The mountain straddles the border between Nagano and prefectures in the of central , forming part of the Japanese Central Highlands and the Kiso Ontake Mountain Range. It lies near the Kiso Valley to the east and is positioned at the southern tip of the Norikura volcanic chain, within a broader volcanic zone influenced by processes. Topographically, Mount Ontake presents a symmetrical with a roughly conical edifice built up over time, featuring a area approximately 3 km in north-south extent. The includes multiple and small andesitic cones, among them five crater lakes—Ichi-no-ike, Ni-no-ike, San-no-ike, Yon-no-ike, and Go-no-ike—with Ni no Ike at 2,905 meters being the highest mountain lake in . Surrounding the main cone are plateaus like the Kaida Plateau to the east-northeast. The surrounding landscape integrates Mount Ontake into the Central , with nearby peaks including Mount Norikura to the north. Its topography contributes to local , with rivers such as the Otaki River originating from its slopes and feeding into the Kiso River system downstream.

Climate and Hydrology

Mount Ontake exhibits a characterized by significant seasonal variations, with heavy fall dominating the winter months. Annual precipitation averages 2,433 mm, much of which falls as due to the region's position in the . Snow accumulation at mid-elevations reaches up to 8 meters annually, while higher altitudes experience even greater depths, often exceeding 10 meters in intense winters, leading to a prolonged snow cover that influences local accessibility and ecosystems. Average summit temperatures range from approximately -10°C in winter to 15°C in summer, reflecting the conditions at elevations above 3,000 meters. Seasonal weather patterns profoundly impact the mountain's usability and safety. Winters bring intense snowstorms and frequent , necessitating closures of trails and facilities from late to early May to mitigate risks to hikers and infrastructure. In contrast, summers are marked by the East Asian monsoon, delivering heavy rainfall that can exceed 100 mm per day and trigger landslides and debris flows, particularly on steep volcanic slopes saturated from prior . These events have historically disrupted access and contributed to natural hazards, underscoring the need for vigilant monitoring during peak wet periods. The of Mount Ontake is shaped by its volcanic structure and abundant precipitation, featuring several lakes that collect rainwater and within the summit calderas. At lower elevations, hot springs such as those at Ta-no-hara and Nigorigo emerge from geothermal activity, providing year-round thermal waters at temperatures suitable for . The mountain's aquifers play a crucial role in recharging regional systems and feeding rivers like the Otaki and Kiso, which originate from springs at approximately 1,900 meters elevation and support downstream ecosystems and water supplies. Microclimatic effects around Mount Ontake are driven by orographic , where moist Pacific air masses are forced upward by the , enhancing rainfall and snowfall on the windward slopes. This process amplifies local by up to 20-30% compared to surrounding lowlands, fostering unique moisture regimes that sustain diverse alpine wetlands and influence zonation. Such dynamics also contribute to the variability in hydrological inputs, with enhanced runoff during seasons exacerbating on the volcano's flanks.

Geology

Formation and Structure

Mount Ontake is situated within the , a major zone of volcanic and seismic activity encircling the , where tectonic plates converge and interact. Specifically, the volcano forms part of the resulting from the of the Philippine Sea Plate beneath the Eurasian Plate in central . This subduction process drives the magma generation that fuels Ontake's activity, positioning it at the southern terminus of the Ontake-Norikura Volcanic Chain, a linear alignment of volcanoes extending northward along the Japan Arc. The 's formation spans multiple phases, beginning with the Older Ontake stage during the Pleistocene epoch, approximately 780,000 to 390,000 years ago, when initial volcanic edifices were constructed through effusive and explosive activity. Following a period of , the Younger Ontake phase initiated around 100,000 years ago, near the Pleistocene-Holocene boundary, marked by a significant rhyolitic eruption that formed a and led to the buildup of the modern cone. Major growth continued into the , with ongoing construction of the summit structure through repeated eruptions over the past 10,000 years. Structurally, Mount Ontake is a classic layered , characterized by alternating deposits of andesitic lava flows and pyroclastic materials that have accumulated to form its steep, conical profile rising to 3,067 meters at Kengamine peak. The edifice includes nested calderas from the Younger Ontake phase, dated to about 90,000–110,000 years ago, which were subsequently filled and overlain by smaller volcanic constructs such as the rhyolitic-dacitic Mamahahadake and andesitic Marishiten groups. Parasitic cones on the flanks represent lateral vents that contributed to the volcano's complex buildup through localized eruptions. Seismic activity at Mount Ontake remains persistent, with ongoing microearthquakes detected and monitored by the since the late 1970s, signaling continued magmatic and hydrothermal processes beneath the surface. These events, including very-long-period earthquakes and tremors, indicate magma intrusions at depths of approximately 2–4 kilometers, heating at around 2.4 km depth and sustaining the volcano's potential.

Rock Composition and Features

Mount Ontake, a in central , is primarily composed of , , and lavas along with pyroclastic rocks, with dominating the summit regions such as the Kengamine peak. The deeper layers consist of to rhyolite and rhyodacite, overlain by marine sediments, contributing to the volcano's high silica content that results in viscous lava flows. The mineralogical makeup includes primary igneous phenocrysts such as (ranging from An 31–86 mol%), orthopyroxene (En 61–75 mol%), clinopyroxene, , and within the and lavas. Hydrothermal alteration around vents produces acidic zones rich in secondary minerals, including , , , , , , , and silica polymorphs like and , indicative of advanced argillic and silicic alteration under temperatures of 150–350°C. These alterations form in response to acidic fluids derived from magmatic volatiles interacting with . Prominent volcanic features include persistent fumaroles, particularly in the Jigokudani area on the southwestern flank, which emit sulfurous gases such as SO₂ (with fluxes exceeding 2000 t/day during active periods) and H₂S, creating solfatara fields characterized by steaming ground and deposits. deposits from past events are evident in the surrounding valleys, composed of remobilized volcanic debris mixed with water. Monitoring of the volcano relies on indicators like ground deformation, with minor episodes detected via geodetic surveys, and elevated gas emissions from fumaroles, serving as precursors to heightened activity.

Eruptive History

Prehistoric and Historical Eruptions

Mount Ontake's prehistoric eruptive activity is documented through tephrostratigraphy, with layers indicating volcanic events over the past approximately 10,000 years, marking the onset of at the site. These deposits, found on the southeastern to eastern flanks, consist of poorly sorted ash and lithic fragments, with some layers containing juvenile scoriaceous lapilli suggestive of magmatic involvement. Over the past 10,000 years, magmatic eruptions have occurred at a of more than 0.3 per millennium, while explosions have been more frequent at over 1-2 per millennium. Historical eruptions at Mount Ontake include uncertain events in 946 CE, 1773 CE, and 1895 CE. These exhibit a mix of phreatic and magmatic explosivity, consistent with the volcano's andesitic nature. Long-term eruptive patterns at Mount Ontake reveal periods of quiescence lasting several hundred years, punctuated by reactivation linked to magma recharge beneath the edifice. This periodicity aligns with the observed frequency of phreatic and magmatic events, where periods of quiescence are followed by renewed activity, as evidenced by the clustering of prehistoric layers and the timing of historical records. Such patterns emphasize the 's persistent but intermittent explosivity, influenced by shallow hydrothermal systems and deeper magmatic processes.

20th and 21st Century Activity

Mount Ontake's documented eruptive activity in the 20th century began with a phreatic eruption on October 28, 1979, at the south flank of Kengamine peak, forming a line of craters and ejecting approximately 200,000 tons of tephra with ashfall extending to Maebashi, about 150 km east-northeast. This VEI 2 event caused crop damage but no casualties. A smaller phreatic explosion occurred in May 1991 at the 1979 No. 7 crater, producing minor ashfall limited to 200 m east of the vent. The (JMA) initiated continuous monitoring of Mount Ontake in the 1970s, deploying seismometers, tiltmeters, and later webcams to detect such as seismic swarms, ground deformation, and visual changes in steaming or plumes. These instruments, supplemented by GPS stations and sensors, enabled analysis and the implementation of a five-level alert system starting in 2007, with levels ranging from 1 (normal) to 5 (evacuation). In the early , a minor took place in late 2007 at the 79-7 crater, preceded by inflation detected via tiltmeters and over 160 earthquakes on January 17, with ash emissions reaching about 200 m northeast. The JMA raised the alert level to 2 during this unrest, facilitating timely restrictions on summit access. The most deadly event in recent history was the on September 27, 2014, classified as VEI 2, which originated from new vents along a NW-SE line southeast of the 1979 craters. The sudden blast at 11:52 JST ejected ballistic blocks up to 4 km from the vent, with some reaching 1.2 tons in mass and landing energies exceeding 10 MJ, posing lethal hazards to nearby areas. An ash plume rose to approximately 11 km altitude, depositing up to 50 cm of ash near the crater and thinner layers to the east-northeast, accompanied by pyroclastic flows down the southwestern flank. Over 250 hikers were on the summit trails when the eruption began without clear precursory warnings beyond mild and tilt changes detected hours earlier; the JMA raised the alert level from 1 to 3 immediately after onset, but the rapid escalation led to 63 fatalities, primarily from impact trauma and suffocation. Following the 2014 eruption, activity gradually declined to background levels by late October, but elevated persisted intermittently through 2015-2018, with occasional swarms prompting temporary alert level increases to 2. emissions surged to over 2,000 tons per day in the immediate aftermath, reflecting magmatic gas input, before stabilizing at lower levels around 100-140 tons per day by November 2014; these ongoing fumarolic outputs, combined with unstable ground conditions from ash deposits, resulted in prolonged restrictions on trails and access to mitigate risks to visitors. Enhanced monitoring, including additional webcams and seismic arrays, has since supported these measures, ensuring early detection of unrest. In January 2025, escalating seismicity coupled with minor ground inflation led the JMA to raise the alert level to 2 (do not approach the crater) on January 17, with warnings to stay 1 km away from Jigokudani Crater. No eruption occurred, and the alert level was lowered to 1 (normal, ) on May 20, 2025, as activity returned to background levels. As of November 2025, the remains at alert level 1 with ongoing monitoring.

Cultural and Religious Significance

Ontake Faith and Mythology

Mount Ontake has long been revered in the syncretic faith known as Ontake-shinkō, a tradition blending mountain worship with esoteric Buddhist elements and asceticism, which emerged prominently during the in the 17th and 18th centuries. This faith views the mountain as a sacred power spot imbued with spiritual energy (), ideal for rigorous ascetic practices aimed at spiritual purification and enlightenment. Practitioners, including mountain ascetics, undertake intense training such as , , and exposure to harsh natural elements to connect with the mountain's divine forces. Central to Ontake-shinkō are enshrined , particularly Ontake Gongen, a protective considered a manifestation of Zaō Gongen, the principal of . Zaō Gongen, depicted as a fierce guardian with flames and wrathful expression, embodies the union of Buddhist figures like Shakyamuni, Kannon, and Miroku, serving to banish evil influences and facilitate purification rituals essential for enlightenment. On Mount Ontake, this is invoked through practices to harness the mountain's , transforming the volcanic landscape into a site for transcending worldly attachments. Mythological narratives surrounding Mount Ontake often portray the mountain's spirits as active interveners in human affairs, particularly during natural upheavals. Legends associate protective entities, including associated with Ontake Gongen, with averting greater calamities. Within Ontake-shinkō, volcanic eruptions are interpreted as manifestations of divine anger or prophetic warnings from the mountain's , compelling to intensify ascetic practices for appeasement and harmony. Such events are woven into the faith's cosmology, where seismic activity signals the need for renewed purification rituals to restore balance between humans and the sacred landscape, influencing ongoing traditions of reverence and caution.

Shrines, Pilgrimages, and Traditions

Mount Ontake is home to several significant shrines integral to its religious landscape, including the Ontake-jinja Satomiya at the base in Otaki, a key starting point for pilgrims with roots tracing back over a millennium. At higher elevations, the summit features the Okusha (innermost shrine) and Ōtaki Ontake Shrine, which enshrine deities such as and , while the sacred Naka-no-ike pond serves as a spiritual site marked by gates and stone memorials dedicated to ascetic spirits known as reijin. These structures, often surrounded by volcanic features, symbolize the mountain's role as a divine abode and include over 20,000 reijinhi monuments erected by followers to honor deceased pilgrims' souls returning to the peak. Pilgrimages to Mount Ontake follow the ancient Ontake Kodo trails, a network of paths connecting base shrines to the summit and used for centuries by devotees seeking spiritual purification and enlightenment. These ascents occur annually from to , when snow-free conditions allow groups of pilgrims, often dressed in white robes, to undertake the climb as a form of ascetic practice, passing through sites like sacred waterfalls for takigyo (waterfall ) to cleanse the spirit before reaching the peak. The routes, such as the Otaki and Kurosawa paths, emphasize communal devotion, with participants chanting prayers and observing purification rites at stations along the way. Traditional practices on the mountain include fire ceremonies, esoteric Buddhist rituals where wooden offerings are burned to invoke protection and appease volcanic forces, performed at summit temples to symbolize purification and spiritual renewal. Festivals like the Reitai-sai, held in late at Ontake Satomiya , feature processions and rituals honoring the mountain's deities, while the broader Ontake faith historically restricted women from full ascents until the Meiji-era reforms of 1872 lifted such bans nationwide, though local customs persisted longer on sacred peaks like Ontake. In the wake of the 2014 eruption, which resulted in 58 deaths (with 5 missing), modern traditions have incorporated annual memorial ceremonies at sites like Ontake-jinja, where families and pilgrims offer prayers blending remembrance with ongoing spiritual reverence for the mountain's power. These events, held each in Otaki, integrate traditional rites such as collective chanting and offerings at shrines, fostering a renewed emphasis on volcanic appeasement while attracting visitors who combine pilgrimage with reflection on the disaster's impact.

Recreation and Conservation

Hiking Trails and Tourism

Mount Ontake offers several well-established hiking routes for recreational climbers, with the Ta-no-hara route from the side being the most popular. Starting at the Tanohara at around 2,150 meters , this path features a challenging ascent of approximately 900 meters over about 6 kilometers, typically taking 5 to 7 hours to reach the 3,067-meter summit. The route passes through diverse terrain, including forests and alpine meadows, and is supported by mountain huts such as Ontake Koya and Ta-no-hara Sanso, which provide overnight accommodations and essential supplies for multi-day hikes. From the Gifu Prefecture side, the Kurosawa route provides an alternative approach, beginning with the Ontake Ropeway that ascends to the 8th station at 2,150 meters in about 15 minutes, followed by a 1.5- to 2-hour hike to the summit along a less strenuous path. Another option is the Nigorigo route near a secluded hot spring area, which involves a longer 7- to 8-hour climb without public transport access, suitable for experienced hikers seeking solitude. Shuttle buses operate seasonally from Kiso-Fukushima Station to the Tanohara trailhead, but no direct cable cars reach the summit on any route, emphasizing the mountain's reliance on foot travel for the final sections. Prior to the 2014 eruption, the mountain drew up to 100,000 visitors annually during peak summer and autumn seasons, significantly boosting local economies in Nagano and Gifu through expenditures on accommodations, shuttle services, guided tours, and souvenirs. Visitor numbers have gradually recovered since then. In response to the disaster, which highlighted vulnerabilities in volcanic areas, authorities implemented mandatory hiker registration systems at trailheads to monitor entries and aid in search-and-rescue operations. Enhanced safety infrastructure now includes additional weather stations for real-time alerts on sudden changes, expanded volcanic gas and seismic monitoring networks, and detailed evacuation plans with designated routes and emergency shelters. Guided tours, increasingly popular for first-time visitors, incorporate education on recognizing phreatic eruption signs like unusual gas emissions or ground tremors. A brief alert level increase in early 2025 due to elevated seismicity temporarily affected access, but trails fully reopened after the level was lowered to 1 in May 2025.

Environmental Protection and Biodiversity

Mount Ontake forms a core part of Chūbu-Sangaku National Park, designated in to conserve the volcanic and alpine landscapes of central , with special protection afforded to geothermal zones around fumaroles and hot springs to minimize human impact on sensitive volcanic soils and gas emissions. These zones are managed under strict regulations that limit access and activities to preserve geological features and prevent erosion in fragile high-elevation terrains. The mountain's is characterized by diverse alpine meadows and subalpine coniferous forests, supporting endemic adapted to harsh conditions. Prominent among the is Maries' fir (Abies mariesii), a shade-tolerant that dominates old-growth stands near the , forming dense canopies that stabilize slopes and provide for understory plants. Fauna includes the Japanese rock ptarmigan (Lagopus muta japonica), a vulnerable endemic that inhabits rocky plateaus between 2,400 and 2,700 meters, feeding on crowberry and shrubs amid Siberian dwarf pines. Conservation efforts emphasize restoration and monitoring following natural disturbances. After the 2014 phreatic eruption, which blanketed slopes with up to 50 cm of ash and disrupted vegetation, revegetation projects incorporated nitrogen-fixing actinorhizal plants such as Alnus maximowiczii and Alnus matsumurae to accelerate soil recovery and support microbial communities like Frankia symbionts. Ongoing monitoring as of 2025 continues to track recovery, with no significant new impacts reported from early 2025 seismicity. Park regulations enforce trail adherence to curb erosion from foot traffic, while ongoing surveillance targets potential invasive species introduction via hiker gear, aligning with broader national park protocols to protect native ecosystems. Key threats to Mount Ontake's environment include episodic volcanic activity and its cascading effects. The 2014 eruption buried alpine vegetation under acidic , severely reducing habitat for ptarmigan and altering microbial assemblages in affected , with potential for long-term decline if recovery is delayed. deposits have been shown to decrease downstream and pH, inhibiting regrowth and nutrient availability in lahar-prone valleys.

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