Inflation and increased seismicity were detected at Ontakesan in February, causing JMA to raise the Alert Level. Inflation ceased in late February and deformation rates had stabilized. Seismicity continued to fluctuate, but decreased in mid-March and volcanic tremor ceased on 19 March. No changes in emissions were observed on 4 June. JMA lowered the Alert Level for Ontakesan to 1 (on a scale of 1-5) on 23 June.
Source: Japan Meteorological Agency (JMA)
Eruptions: (a) March 2007 and (b) 27 September 2014 (~60 deaths and ~70 injured)
This Bulletin report on Ontakesan (Kiso-Ontakesan, Ontake) covers activity from November 2003 to November 2014. During this reporting interval, two eruptions occurred, both broadly described as phreatic, yet containing a minor component of identified juvenile magmatic material. The first eruption was on an unknown date in late March 2007, and the second eruption was on 27 September 2014. The 2014 eruption took place with a sudden onset and with few if any precursory warnings. The volcano is a famous tourist area to see color changes in autumn foliage, it also contains considerable alpine touristic infrastructure, including lodges. The 2014 eruption took place during the autumn color season on a Saturday. Hundreds of people were on the mountain at the time. The 2014 eruption included ashfall, pyroclastic flows, and related density currents. The eruption killed ~57 people and an additional 6 were still missing as of 27 October 2014 (Kyodo, 2014). The 2014 impulsive eruption was documented by an outstanding number of close-up photographs and videos taken by eyewitnesses.
Between the 2007 and 2014 eruptions, activity receded to background levels. Our last Bulletin report (BGVN 28:11) noted occasional white plumes during 2000 to 2003.
The data for this report was collected chiefly from online reports by the Japanese Meteorological Agency (JMA), the Geological Survey of Japan (GSJ), and the National Institute of Advanced Industrial Science and Technology (AIST).
Historically, activity at Ontakesan has consisted mainly of phreatic explosions every several hundred years. However, recent research cited in JMA (date unknown) indicates that over the past 10,000 years, four magmatic eruptions have also occurred. Although there are no reported records of historical eruptions before 1979, fumarolic activity was noted as ongoing for several hundred years near to Ontakesan's summit (Jigokudani and Hachotarumi). The period of activity after 1979 represents what appears to be Ontakesan's most active during the past 250 years (Oikawa, 2008).
2006–2007. The March 2007 eruption was preceded by minor inflation and an increase in seismic activity (JMA, date unknown). During mid- to late December 2006, instruments detected inflation of the volcanic edifice and an increase in shallow seismicity directly below the summit. During January 2007, instruments recorded 90 earthquakes on the 16th and 164 earthquakes on the 17th. On 25 January 2007, tremor occurred with the largest recorded amplitude in at least a year. Tremor had, according to a JMA plot, remained near zero during all of 2006. The January 2007 tremor was described as very low frequency, containing a 15- to 20-second-long component. Furthermore, GPS observations detected a small amount of crustal deformation preceding the seismic activity, indicating a slight inflation at Ontakesan.
On 16 March 2007, fumarolic activity increased; fumes at the summit were occasionally detected by a surveillance camera (at "Mitake Kurozawa," but the exact location was not found in English on maps in Ontakesan reports). Seismic and other data considered by JMA showed that an earthquake had occurred during late March, originating directly below Ontakesan. The specific dates of the seismicity and earthquake were not specified in the available reporting. Based on the data collected, JMA inferred that the earthquake had resulted from a magmatic intrusion that had advanced toward the surface reaching ~4 km below the volcano's summit.
A field study two months later, on 29 May 2007, noted fresh volcanic ash from Ontakesan's 79-7 crater. The ash reached ~200 m NE of the crater. This finding of fresh ash was believed to indicate that the 2007 eruption was not merely phreatic but involved some escape of juvenile components to the surface. The exact date of the eruption was undeterminable.
JMA cited a model by Nakamichi and others (2009) regarding the intrusion of a magmatic body and the subsequent 2007 eruption, to describe phreatic eruptions at Ontakesan (figure 12). The depths shown reflect but one set of depth values for the top of the intrusion ((a) in this case 3 km depth below the summit) and the zone of groundwater ((b) centered at ~2.4 km depth below the summit). Thus, figure 12 illustrates a basic model of the various processes involved in a phreatic eruption, which is defined by Harris (2000) as a ". . . steam eruption that produces no fresh magma. A common precursor of eruptive activity, it is caused when groundwater, heated by a magmatic source, flashes into steam."
Figure 12a considers an earlier pre-eruptive stage, where magma advanced upward to 3 km below the volcano's summit. Volcano-tectonic (VT) earthquakes resulted from breaking rock. Note that in the March 2007 eruption, the magma was thought to have advanced to 4 km depth below the summit and the tremor noted then was very-long period (VLP, because of the above-mentioned long-period (15-20 second) component).
Figure 12b considers a later stage of the intrusion event, where the magma ceased to advance towards the surface. The magma heated the groundwater, which expanded into steam. The pressure from the heated water and steam broke rock as it advanced towards the surface. Acoustical signals include VLP and long period (LP) earthquakes. In this model, the steam escaped through the ancestral vents, thus producing a phreatic eruption.
Eruption in September 2014. Available JMA and GSJ reports say very little about the period leading up to the September 2014 eruption. According to a news source (Asahi Shimbun, 2014b), during the early part of September, daily tremor peaked at 85 on 11 September and were followed by 3 to 27 tremor events per day starting on 12 September.
The JMA Executive Committee (2014) reported that on the morning of 27 September, a few hours before the eruption at 1152 Local Time (LT=UTC+9), there was no major unrest. They did record mild seismic events, tilt, and increased steaming; the noted data appearing from 1130 to 1210. The report noted that seismic signal recorded 11 minutes prior to the eruption was nearly flat, with only one small event, in contrast to the robust signal associated with the subsequent eruption. Tilt began 7 minutes prior to and peaked during the explosion.
GSJ (2014) stated: "A volcanic eruption occurred on September 27, 2014 at Mount Ontake on the border between Nagano and Gifu Prefectures. According to the Japan Meteorological Agency, the eruption began at about 11:52 JST [Japan Standard Time] (=UTC+9h) on September 27. It is estimated that the plume from this eruption reached a maximum height of 7000 m, and a pyroclastic flow cascaded down the mountain in a southwesterly direction for a distance of more than 3 km."
Additionally, about forty minutes later, the Tokyo Volcanic Ash Advisory Center (VAAC) noted that the plume resulting from the eruption ascended to 11 km above sea level (a.s.l.) extending to the E. The JMA raised the Alert Level to 3, and the level remained elevated throughout the reporting interval. Figure 13 provides an oblique view of the volcano with the approximate area of the eruption and the summit mountain lodge labelled.
The 27 September eruption was captured by a camera system (Yamamoto, 2014; AIST, 2014b; GSJ, 2014) (figure 14). The term pyroclastic flow generally applies to laterally moving mixtures of hot gas and particles such as tephra and lithics; a broader term that includes ash cloud surges, etc. is pyroclastic density current (see Roche, 2015, and the references therein). In the case of the 2014 eruption, density currents occurred near the summit and on the western flank; some of the complexity may have been due to secondary explosions well downslope of the vent area (AIST, 2014b; Boyle and others, 2014). The density currents descended at variously reported maximum speeds of 30 to 72 km per hour (AIST, 2014b; Yamamoto, 2014). According to Boyle and others (2014), the pyroclastic density currents traveled more than 3 km down Ontakesan's S flank.
On 28 September, the day following the eruption, the GSJ conducted several aerial observations, utilizing media helicopters (GSJ, 2014). At 0800 LT, the height of the plume was ~500 m, heading S to SW. The scientists noted the eruption formed a new line of craters (figure 15) running NW to SE. These new craters resided 250–300 m to the SE of those formed during a previous eruption in 1979. The line of craters is roughly parallel to the 1979 line, but covers a wider area.
GSJ also conducted expeditions to the Kaida Plateau, located ~6 km E to NE of the Kengamine summit, and collected ash samples on 28 September. A photo depicted in GSJ (2014) shows a light coating (on the order of several millimeters) of gray ash covering the leaves and horizontal surfaces of plants in the region. The geologists described the ash as "medium-to-fine-grain sand-sized particles" with a maximum diameter of 0.5 mm. Most of the ash was altered rock fragments and less than 10% was unaltered red-orange and crystalline fragments (as seen in figure 16). GSJ (2014) reported that, as a result of this ash analysis, the recent eruption was considered as phreatic (rather than predominantly magmatic).
GSJ (2014) also noted that scientists had charted the main axis of ash fall from the 2014 eruption, based on the findings from their expeditions. The ash distribution extended towards Ontakesan's E to NE (red arrow, figure 17).
News sources contributed the following. The ash resulting from the eruption was ~50 cm thick near the crater and up to 20 cm thick in lower areas (Adonai, 2014). Asahi Shimbun (2014b) also quoted a scholar, Takayuki Kaneko, as allegedly stating that the ash was "moist" and stuck together like "sesame seeds."
According to JMA, from 1 to 7 October, Ontakesan continued to emit ash, but the resultant plume height could not be determined due to poor visibility. On 7 October, the plume was observed to rise 300 m above the crater rim, drifting E. Tremor continued to be detected; the number of earthquakes detected from 27 September to 6 October are compiled in figure 18 (JMA daily reports).
Figure 18. The number of earthquakes detected per day during 27 September to 6 October 2014. Data courtesy of JMA (daily reports); figure by Bulletin editors. |
According to JMA, Ontakesan emitted ash plumes during 8–9 October, white plumes on 10 October, and plumes with only small amounts of ash during 10–14 October. During 8–14 October, tremors were below the detection limits. White plumes rose 100–200 m above the crater rim, drifting NE and SE, during 16–18 October. On 19 October, plumes rose to 600 m above crater.
Impact of eruption on people. As previously mentioned, according to news sources, the 27 September eruption killed 57 hikers on Ontakesan's slopes, and as of 27 October another 6 were missing (Kyodo, 2014). Furthermore, more than 70 were injured (RT, 2014). According to the Associated Press in Tokyo (2014), the explosion was the deadliest volcanic eruption in Japan in the post-WWII period.
According to the BBC (2014a), nearly 300 people were hiking on Ontakesan on the day of the eruption. The news article characterized the accounts of the eruption as consisting of falling ash and boulders, at times with sufficient density to cause several minutes of total darkness. Kuroda Terutoshi (Kuroda Terutoshi, 2014), posted a video of the eruption to YouTube that he took while hiking. The expanding ash plume engulfed a cabin on the slopes above him, and he was soon surrounded by the plume, which included dark ballistics and ashfall. The ash plume grew rapidly and continued downhill, as depicted in two other videos (Asahi Shimbun, 2014a and BBC News, 2014).
Boston Globe (2014) stated that rescue and recovery missions began on 28 September deploying more than 500 Japanese military and police. Metal and landmine detectors played a role in locating victims buried under ash (Asahi Shimbun, 2014c). National Geographic (2014) and Ogrodnik (2014) provide several photos of the rescue missions, derived from various news sources. According to Malm (2014), several of the casualties found during rescue operations were "still holding their smartphones." Lies and Meyers (2014) noted the halting of some initial search and recovery efforts on 30 September owing to increased tremor the night before raising concerns then about the return of volcanic activity.
On 6 October, Typhoon Phanfone (No. 18) came near to the Ngano Prefecture where Ontakesan is located (Asahi Shimbun, 2014b, c). Accompanied by heavy rains, a mixture of volcanic ash and rain formed into mud, making it hard for large helicopters to land near the summit. Rescue missions were halted on 15 October due to the wintery conditions despite people still missing. The article said that the search for bodies was expected to resume in the springtime.
References. T (?Pfeiffer, T), 2014, Ontake-san volcano (Japan): death toll from yesterday's eruption rises to more than 30, 28 September 2014, Volcano Discovery (URL: http://www.volcanodiscovery.com/on-take/news/48168/Ontake-san-volcano-Japan-death-toll-from-yesterday-s-eruption-rises-to-more-than-30.html) [accessed in June 2015]
AIST, 2014a, Analysis of Volcanic Ash Falling from the September 2014 Eruption of the Ontake Volcano, 28 September 2014, National Institute of Advanced Industrial Science and Technology (URL: https://www.gsj.jp/hazards/volcano/kazan-bukai/yochiren/ontake_ash_140928E.pdf)
AIST, 2014b, The Pyroclastic Flow Generated by the September 27, 2014 Eruption of the Ontake Volcano, 29 September 2014, National Institute of Advanced Industrial Science and Technology (URL: https://www.gsj.jp/hazards/volcano/kazan-bukai/yochiren/ontake_flow_140928E.pdf)
Asahi Shimbun, 2014a, Ontakesan eruption prediction was difficult, the Japan Meteorological Agency did not find any omens, 27 September 2014 (URL: http://www.asahi.com/articles/ASG9W5KFJG9WULBJ00D.html) [accessed in June 2015]
Asahi Shimbun, 2014b, Volcanologists: with few telltale signs, Mt. Ontakesan's eruption hard to predict, 28 September 2014, (URL: http://ajw.asahi.com/article/behind_news/social_affairs/AJ201409280022) [accessed in June 2015]
Asahi Shimbun, 2014c, Update: More victims of Mt. Ontakesan eruption found as typhoon nears, 4 October 2014 (URL: http://ajw.asahi.com/article/behind_news/social_affairs/AJ201410040056)
Associated Press in Tokyo, 2014, Hikers killed by Japanese volcano left poignant pictures of final moments, 5 October 2014, The Guardian (URL: http://www.theguardian.com/world/2014/oct/05/-sp-hikers-killed-japanese-volcano-pictures-final-moments) [accessed in June 2015]
Australian Associated Press with Australia Geographic staff, 2014, Japan Volcano Ontake an Extremely Rare Eruption, 29 September 2014, Australia Geographic (URL: www.australiangeographic.com.au/news/2014/09/japan-volcano-ontake-an-extremely-rare-eruption) [accessed in June 2015]
BBC News, 2014, Video: Japan volcano shoots rock & ash on Mount Ontake - BBC News, 29 September 2014, YouTube (URL: https://www.youtube.com/watch?v=aQtkoLxqUNQ) [accessed in June 2015]
BBC, 2014a, Japan's Mount Ontake volcanic eruption injures 30, 27 September 2014, British Broadcasting Corporation (URL: http://www.bbc.com/news/world-asia-29392810) [accessed in June 2015]
BBC, 2014b, Japan Mount Ontake Volcano: Death Toll Reaches 47, 1 October 2014, British Broadcasting Corporation (URL: www.bbc.com/news/world-asia-29440982) [accessed in June 2015]
Boston Globe, 2014, Military Helicopters Rescue People Stranded After Mt Ontake Eruption, 28 September 2014, Boston.com (URL: http://www.boston.com/news/world/asia/2014/09/28/military-helicopters-rescue-people-stranded-after-ontake-eruption/iW6wHPhW5K0rAsYM0EUe7H/video.html) [accessed in June 2015]
Boyle, D., Charlton, C., 2014, 36 Now Feared Dead in Japanese Volcano Disaster, 28 September 2014, Daily Mail (URL: http://www.dailymail.co.uk/news/article-2772458/More-30-hikers-dead-near-Japanese-volcano-erupted-without-warning-spewinf-eight-inch-blanket-ash.html) [accessed in June 2015]
GSJ, 2014, Ontake Volcano Information, 7 October 2014, Geological Survey of Japan (URL: https://www.gsj.jp/en/hazards/ontake2014/index.html) [accessed in June 2015]
Harris, 2002, Archaeology and volcanism, in The encyclopedia of volcanoes. Sigurdsson, H., Houghton, B., McNutt, S., Rymer, H., and Stix, J. (Eds.). pp. 1301-1314. Elsevier.
JMA, date unknown, 53. Ontakesan, Japan Meteorological Agency (JMA) (URL: http://www.data.jma.go.jp/svd/vois/data/tokyo/STOCK/souran_eng/volcanoes/053_ontakesan.pdf) [accessed in June 2015]
JMA Executive Committee, 2014, Prediction of Volcanic Eruptions Coordinating Committee Expanded Executive Committee, 21 pages, 28 September 2014, Japan Meteorological Agency (JMA) (URL: www.data.jma.go.jp/svd/vois/data/tokyo/STOCK/kaisetsu/CCPVE/shiryo/kakudai140928/kakudai140928_no01.pdf)
Kuroda Terutoshi, 2014, Ontake Eruption, original, 26 September 2014, YouTube (URL: https://www.youtube.com/watch?t=77&v=7Ea3uED1Zgc) [accessed in June 2015]
Kyodo, 2014, Ontake victims mourned a month after eruption as tourism industry scrambles to recover, 27 October 2014, Japan Times (URL: http://www.japantimes.co.jp/news/2014/10/27/national/ontake-victims-mourned-month-eruption-tourism-industry-scrambles-recover/) [accessed in June 2015]
Lies, E. and Meyers, C., 2014, Recovery of Japan Volcano Victims Suspended Amid Signs of Rising Activity, 30 September 2014, Reuters (URL: www.reuters.com/article/2014/09/30/us-japan-volcano-idUSKCN0HP07G20140930) [accessed in June 2015]
Nakamichi, H., Kumagai, H., Nakano, M., Okubo, M., Kimata, F., Ito, Y., Obara, K., 2014, Source mechanism of a very-long-period event at Mt Ontake, central Japan: Response of a hydrothermal system to magma intrusion beneath the summit, 10 November 2009, Journal of Volcanology and Geothermal Research (URL: http://www.sciencedirect.com/science/article/pii/S0377027309003588)
Malm, S., 2014, One last picture... that cost their lives: More than half the victims killed by erupting volcano in Japan were found clutching smartphones, 12 November 2014, Daily Mail (URL: http://www.dailymail.co.uk/news/article-2831305/One-selfie-cost-lives-half-victims-killed-erupting-volcano-Japan-clutching-smartphones-photos-lava-coming-them.html) [accessed in June 2015]
National Geographic, 2014, Pictures: Japanese Volcano that Killed Hikers, 29 September 2014 (URL: http://news.nationalgeographic.com/news/2014/09/pictures/140929-japan-volcano-ontake-pictures/) [accessed in June 2015]
Ogrodnik, I., 2014, IN PHOTOS: Powerful images as Japanese Volcano Mount Ontake Erupts, 1 October 2014, Global News (URL: http://globalnews.ca/news/1587737/in-photos-powerful-images-as-japans-mount-ontake-erupts/) [accessed in June 2015]
Oikawa, T., 2008, Re-examination of historical records and fumarolic activity of eruption records of the Ontake volcano, Japanese with English abstract, Geological Survey of Japan (GSJ) (URL: https://www.gsj.jp/data/bulletin/59_05_01.pdf)
Roche, O., 2015, Nature and Velocity of Pyroclastic Density Currents Inferred from Models of Entertainment of Substrate Lithic Clasts, Earth and Planetary Science Letters, 418, 115-125 (URL: http://adsabs.harvard.edu/abs/2015E&PSL.418..115R)
RT, 2014, Volcano erupts in central Japan, dozens injured (VIDEO, PHOTOS), 27 September 2014 (URL: http://rt.com/news/191124-japan-volcano-erupts-injured/) [access in June 2015]
Yamamoto, T., 2014, The Pyroclastic Density Currents Generated by the September 27, 2014 Phreatic Eruption of Ontake Volcano, Bulletin of the Geological Survey of Japan, number 65 (URL: https://www.gsj.jp/data/bulletin/65_09_03.pdf)
Information Contacts: Japan Meteorological Agency (JMA), Otemachi, 1-3-4, Chiyoda-ku Tokyo 100-8122, Japan (URL: http://www.jma.go.jp/); Tokyo Volcanic Ash Advisory Center (VAAC), Tokyo, Japan (URL: http://ds.data.jma.go.jp/svd/vaac/data/)
2022: February
| June
2015: February
| July
2014: September
| October
| November
| December
Inflation and increased seismicity were detected at Ontakesan in February, causing JMA to raise the Alert Level. Inflation ceased in late February and deformation rates had stabilized. Seismicity continued to fluctuate, but decreased in mid-March and volcanic tremor ceased on 19 March. No changes in emissions were observed on 4 June. JMA lowered the Alert Level for Ontakesan to 1 (on a scale of 1-5) on 23 June.
Source: Japan Meteorological Agency (JMA)
JMA reported that the number of volcanic earthquakes at Ontakesan began increasing at 1415 on 23 February. Four minutes later a volcanic tremor signal was detected along with uplift on the S flank. At 1635 JMA raised the Alert Level to 2 (on a scale of 1-5). The report warned the public to stay at least 1 km away from Crater 79-7 on the SW flank of the Kenga-mine summit. After a peak on 25 February, the number of daily volcanic earthquakes began to decline; there were two volcanic earthquakes recorded on 24 February, a total of 17 on 25 February, 4-5 per day during 26-28 February, and 3 on 1 March. During an overflight on 25 February scientists observed no changes in the fumarolic areas or other morphological changes on the volcano.
Source: Japan Meteorological Agency (JMA)
JMA reported that activity at Ontakesan continued to decline during 26 June-3 July, although the volcano continued to be seismically active and emit white plumes to less than 1 km high. The Alert Level was lowered to 2 (on a scale of 1-5).
Source: Japan Meteorological Agency (JMA)
JMA reported that cloud cover mostly prevented visual observations of Ontakesan during 13-20 February; white plumes rose 50-200 m above the crater rim. Seismicity remained low. The Alert Level remained at 3 (on a scale of 1-5).
Source: Japan Meteorological Agency (JMA)
JMA reported that cloud cover mostly prevented visual observations of Ontakesan during 10-16 December; white plumes rose 50 m above the crater rim and drifted SW on 10 December. Seismicity remained low. The Alert Level remained at 3 (on a scale of 1-5).
Source: Japan Meteorological Agency (JMA)
JMA reported that cloud cover mostly prevented visual observations of Ontakesan during 3-9 December; white plumes rose 100 m above the crater rim on 7 December. The Alert Level remained at 3 (on a scale of 1-5).
Source: Japan Meteorological Agency (JMA)
JMA reported that cloud cover often prevented visual observations of Ontakesan during 12-18 November; white plumes rose 200 m above the crater rim and drifted E during 16-17 November. The Alert Level remained at 3 (on a scale of 1-5).
Source: Japan Meteorological Agency (JMA)
JMA reported that cloud cover often prevented visual observations of Ontakesan during 5-11 November; white plumes rose 200-300 m above the crater rim and drifted NE, E, and SE. The Alert Level remained at 3 (on a scale of 1-5).
Source: Japan Meteorological Agency (JMA)
JMA reported that cloud cover often prevented visual observations of Ontakesan during 29 October-4 November; white plumes rose 100-300 m above the crater rim and drifted NE and SE during 29-30 October and 4 November. The Alert Level remained at 3 (on a scale of 1-5).
Source: Japan Meteorological Agency (JMA)
JMA reported that cloud cover often prevented visual observations of Ontakesan during 22-28 October; white plumes were periodically observed rising 100-300 m above the crater rim and drifting E and SE. Seismicity remained low. The Alert Level remained at 3 (on a scale of 1-5).
Source: Japan Meteorological Agency (JMA)
JMA reported that cloud cover often prevented visual observations of Ontakesan during 15-21 October; white plumes rose 100-200 m above the crater rim and drifted NE and SE during 16-18 October. White plumes rose 600 m on 19 October. A news article from 17 October noted that the search for the seven people still missing from the 27 September eruption was stopped due to wintery conditions; the search was expected to resume in the springtime. The Alert Level remained at 3 (on a scale of 1-5).
Sources: Japan Meteorological Agency (JMA); Agence France-Presse (AFP)
JMA reported that during 8-9 October ash emissions from Ontakesan continued. The plume turned white on 10 October, but during 10-14 October the emissions may have contained small amounts of ash. Tremor was below detection limits during 8-14 October. A news article from 12 October noted that the number of people killed in the 27 September eruption had reached 56; seven more were still missing. The Alert Level remained at 3 (on a scale of 1-5).
Sources: Japan Meteorological Agency (JMA); The Japan Times
JMA reported that ash emissions from Ontakesan likely continued during 1-7 October. The plume height could not be determined due to poor visibility although on 7 October observers noted that the plume rose 300 m above the crater rim and drifted E. Seismic levels fluctuated; tremor continued to be detected. A news article from 8 October noted that the number of people killed in the 27 September eruption had reached 55; nine were still missing. The Alert Level remained at 3 (on a scale of 1-5).
Sources: Japan Meteorological Agency (JMA); RIA Novosti
According to the Japan Meteorological Agency, an unexpected phreatic eruption at Ontakesan occurred at 1152 on 27 September after an 11-minute period of tremor and uplift detected just minutes beforehand. The eruption produced a pyroclastic flow that traveled more than 3 km down the S flank and an ash plume that rose 7-10 km and drifted E. Ashfall was extensive in the area and up to 50 cm thick near the craters. The Alert Level was raised to 3.
Earthquakes near the summit had temporarily increased during 10-11 September, and low-frequency signals were detected on 14 September.
News articles on 1 October noted that 47 people had died, most of them found at the summit area while others were at a slightly lower elevation. Almost 70 more people were injured. Survivors described falling ash and boulders, and being in total darkness for several minutes as they made their way down the flanks. The volcano is popular to climb and nearly 300 people were hiking on the mountain that day.
Seismicity fluctuated but remained elevated during 28 September-1 October. Ash-and-gas plumes rose 300-400 m above the craters and drifted E and SE.
Sources: Japan Meteorological Agency (JMA); Huffington Post; Huffington Post
Reports are organized chronologically and indexed below by Month/Year (Publication Volume:Number), and include a one-line summary. Click on the index link or scroll down to read the reports.
First eruption in historical time
[JMA and Tokiko Tiba have made substantial revisions to this report.] On-take's first eruption in historic time began early on [28] October. Vapor emission apparently started at about 0500, then activity strengthened at about 0800 to emission of an [ash] column . . . [Activity increased further from around 1100.] A tephra column that included ash and lapilli . . . was rising 1,500 m, and ash was falling on the E flank. Tephra clouds were ejected [continuously] during the afternoon. [Only white vapor was emitted the next day.]
Tephra was ejected from several craters that [formed in a fissure about 300 m S of the summit (figure 1). There had been no fumaroles in the area]. . . .
The Kyodo radio network reported that officials were assessing damage caused by the eruption; damage was particularly heavy at Kaida, about [12 km NE of the summit (Kenga-mine)]. Some livestock had to be evacuated because of ashfall on pastureland.
An earthquake swarm, including a magnitude [5.3 shallow] event, was recorded in the On-take area in October 1978. . . .
Information Contacts: T. Tiba, National Science Museum, Tokyo; Kyodo Radio, Tokyo; USGS/NEIS, Denver CO.
More information on 28 October eruption
On-take's first eruption in historic time began suddenly before dawn on 28 October. No initial explosion was heard and no shock wave was recorded by JMA seismic stations, [but long-duration tremor was recorded from 0520 that may have been eruption tremor]. Ash emission continued through the day, intermittently during the morning but continuously during the afternoon, with strongest activity at about 1400. A dark ash cloud rose about 1 km (figure 2). About 1.5 m of ash fell near the summit and a few tens of centimeters fell on the flank. [A few millimeters] were deposited on [the villages of] Kaida-mura (12 km NE) and Mitake-mura (14 km SE), [the nearest inhabited areas] and slight ashfall covered a wide area as far as 150 km NE of the volcano (figure 3). No ejections of incandescent blocks were seen, but aerial observers reported that blocks were scattered around the vents (see below). Activity declined to white vapor emission before dawn on 29 October, although a slight ashfall occurred at a nearby village that morning. Steaming continued at varying intensity through mid-November.
Figure 3. Sketch map of S Honshu and Shikoku Islands, Japan. Area of ashfall from On-take is shaded. Courtesy of JMA. |
During the eruption, numerous vents were active in a 500 m-long NW-SE-trending zone near the summit (figures 1 and 4). Along some portions of the zone, curtains of steam were visible from the air on 28 October. Kazuaki Nakamura reported that 10 small craters were seen during an aerial inspection on 3 November; four craters were emitting vapor. Takeshi Kobayashi, who has studied the volcano for 20 years, reported that no fumaroles existed prior to the eruption in the new vent zone.
No historical eruptions are known from On-take, one of Japan's larger stratovolcanoes. Kobayashi reports that the youngest 14C dates from On-take, 23,000 BP, are from scoria and lava flows composed of two-pyroxene andesite, ejected from at least five craters forming a NNE-SSW line on the N flank.
Further References. Aoki, H., 1980, A compilation of reports on the volcanic activity and hazards of the 1979 eruption of On-take volcano: Special publication by the research group for the 1979 On-take eruption, no. B-54-3, 168 p.
Aramaki, S., and Ossaka, J., 1983, Eruption of On-takesan, October 28, 1979, in XVIII IUGG General Assembly, Hamburg, Report on volcano activities and studies in Japan for the period from 1979 to 1982, p. 1-7.
Information Contacts: JMA, Tokyo; JMA also forwarded information fromT. Kobayashi (Toyama Univ.); K. Nakamura, ERI, Univ. of Tokyo.
Vapor emission declines; local earthquakes continue
In the 2 months since the 1-day eruption of 28 October, no ash ejection has been observed and vapor emission has declined. At the end of December, the vapor column was only 100 m high.
About 10 local seismic events per day have been recorded since instruments were installed [on 29 October]. Epicenters have been distributed along a sharply defined narrow linear zone extending about 2 km N-S on the SE flank. Earthquakes had been felt in the area for about 2 years, but the number of felt events declined to about 1 per week after the eruption.
Information Contacts: JMA, Tokyo.
Vapor emission continues; acid water kills fish
Steam from the 28 October vents rose steadily to 100-200 m through January. No ashfalls have been observed in inhabited areas on the flanks since November, although snow in the summit area has been [slightly] darkened by ash and colored yellow by sulfur during this period. Muddy acidic water has been flowing from the 28 October vents since the eruption, killing fish in the Otaki River. The number of dead fish decreased in January. Local earthquake activity remained at November-December levels, about 10 recorded events per day.
Information Contacts: JMA, Tokyo.
Emission of vapor and a little ash continues
Steady vapor emission, to 100-300 m heights, continued through March. Vapor emerged from four of the numerous (at least 10) vents formed during the eruption in a linear, 500-m-long, NW-SE-trending zone near the summit. Airphoto data show that three of the four active vents have increased in size since the eruption. Ash in the vapor columns has repeatedly caused slight darkening of the snow in the summit area.
Information Contacts: JMA, Tokyo.
Emission of vapor and a little ash continues
Steady emission of a 100-300-m-high vapor column continued through early May. Ash had darkened snow in the summit area through March, but the snow melted in April. However, a pale dust cloud, presumably the source of the ash, continued to drift over the summit.
Information Contacts: JMA, Tokyo.
Steaming continues
Quiet emission of white vapor continued through June. The vapor rose several hundred meters above four summit-area vents. JMA personnel removed temporary seismic equipment installed 29 October and discontinued the visual monitoring begun on that date.
Information Contacts: JMA, Tokyo.
Earthquake swarms and tremor; no change in steam emission
Three earthquake swarms (20, 23, and 27 April) and four tremor episodes (27-28 April and 2 May) were recorded during late April-early May. The strongest swarm, on 20 April, lasted a few hours and included a M 1.6 event. None of the shocks were felt, and it was not possible to locate them accurately, but they were believed to be in the summit area. The 27 April tremor episode was the largest (table 1), and accompanying seismicity was the strongest registered (figure 5), since installation of the current seismometer, in July 1988.
Date | Time | Amplitude (N) | Duration (min) |
02 Oct 1988 | 0132 | 0.1 | 1 |
06 Oct 1988 | 1035 | 0.1 | 1 |
12 Jan 1989 | 1725 | 0.6 | 1 |
19 Aug 1989 | 1313 | 0.4 | 2 |
11 Apr 1990 | 1808 | 0.2 | 2 |
27 Apr 1991 | 0716 | 2.3 | 4 |
27 Apr 1991 | 1201 | 0.1 | 2 |
28 Apr 1991 | 1309 | 1.4 | 3 |
02 May 1991 | 0938 | 0.3 | 3 |
Figure 5. Daily number of recorded earthquakes at On-take, 15 July 1988-5 May 1991. Courtesy of JMA. |
White steam emissions, unchanged from previous months (figure 6), rose 200 m from summit vents formed during a small phreatic eruption in October 1979. That eruption emitted ash for 1 day; steam emission declined, but has remained steady since then.
A M 6.8 earthquake, 12 km SE of the summit on 14 September 1984, triggered a landslide on the S slope of the volcano that killed 29 people. Aftershocks were distributed on the volcano's S flank in an elliptical zone that may mark a 20-km-long WSW-ENE fault (figure 7). Steam emission and surface activity were unchanged by the 1984 earthquake.
Information Contacts: JMA.
Earthquake swarms and tremor; renewed steam emission from 1979 vent
Many earthquakes and tremor episodes have been detected by a seismometer near the volcano since April, bringing seismicity to its highest levels since the start of regular seismic monitoring in 1988. Earthquake swarms were recorded on 20, 23, and 27 April, and 12 and 13 May, with tremor on 27 and 28 April, and 2 and 12-16 May (figure 8). In mid-May, steam began to emerge from a vent formed in the last eruption (in 1979) that had remained quiet since soon after the eruption ended. Similar seismicity continued in June, and as of the 19th, 170 earthquakes and eight tremor episodes had been recorded.
Figure 8. Daily number of earthquakes (top) and tremor episodes (bottom) at On-take, January-May, 1991. |
Information Contacts: JMA.
Seismicity declines slightly; steam plumes
Seismicity has remained at high levels since April, with nine tremor episodes and 234 small earthquakes recorded in June (figure 9), down from 28 and 313, respectively, in May. Similar seismicity +continued as of 18 July. White steam plumes . . . rose to 200 m height.
Information Contacts: JMA.
Decreasing seismicity
Seismicity decreased in July, with 94 earthquakes and two tremor episodes recorded . . . (figure 10). Summit vents continued emitting white steam plumes but these rose weakly to ~ 100 m . . . .
Information Contacts: JMA.
Earthquake swarm but no change in gas emission
A swarm of 40 small, shallow earthquakes, centered beneath the summit, were recorded between 1600 and 2000 on 12 November by a seismometer 2 km SE of the summit (figure 11). No change was recorded in the emission of steam, which has steadily risen to several tens of meters, and no volcanic tremor was recorded. This was the first increase in summit seismic activity since May 1991 when seismicity was accompanied by increased steaming and perhaps by minor ash ejection (Kazan, 1991).
Reference. Volcanic Activity in Japan during April-June 1991, 1991: Kazan, v. 36, no. 3, p. 385.
Information Contacts: JMA.
Small tremors in late August
Small volcanic tremors were recorded in late August from a station 1.5 km SE of the summit.
Information Contacts: Volcanological Division, Seismological and Volcanological Department, Japan Meteorological Agency (JMA), 1-3-4 Ote-machi, Chiyoda-ku, Tokyo 100 Japan.
Seismic activity increases
High seismicity was recorded on 6 July with a total of 29 earthquakes.
Information Contacts: Volcanological Division, Seismological and Volcanological Department, Japan Meteorological Agency (JMA), 1-3-4 Ote-machi, Chiyoda-ku, Tokyo 100 Japan.
Persistent long-term seismicity and occasional small white plumes
Seismic activity at On-take has been ongoing in recent years. Data provided by the Japan Meteorological Agency indicates that from January 2000 through April 2003 an average of 140 volcanic earthquakes per month were recorded by the local seismic station. The number usually ranged between 90 and 200 each month. Activity was higher in July 2001 (300 total events, with 65 on the 1st) and December 2002 (206 total events, with 63 on the 4th). No volcanic tremor was registered. White plumes rising no higher than 300 m were observed once in June 2000 and March 2001, and more frequently during November 2001-January 2002. Small white plumes were seen once per month in September-November 2002 and January-March 2003.
Information Contacts: Volcanological Division, Japan Meteorological Agency (JMA), 1-3-4 Ote-machi, Chiyoda-ku, Tokyo 100, Japan (URL: http://www.jma.go.jp/).
Eruptions: (a) March 2007 and (b) 27 September 2014 (~60 deaths and ~70 injured)
This Bulletin report on Ontakesan (Kiso-Ontakesan, Ontake) covers activity from November 2003 to November 2014. During this reporting interval, two eruptions occurred, both broadly described as phreatic, yet containing a minor component of identified juvenile magmatic material. The first eruption was on an unknown date in late March 2007, and the second eruption was on 27 September 2014. The 2014 eruption took place with a sudden onset and with few if any precursory warnings. The volcano is a famous tourist area to see color changes in autumn foliage, it also contains considerable alpine touristic infrastructure, including lodges. The 2014 eruption took place during the autumn color season on a Saturday. Hundreds of people were on the mountain at the time. The 2014 eruption included ashfall, pyroclastic flows, and related density currents. The eruption killed ~57 people and an additional 6 were still missing as of 27 October 2014 (Kyodo, 2014). The 2014 impulsive eruption was documented by an outstanding number of close-up photographs and videos taken by eyewitnesses.
Between the 2007 and 2014 eruptions, activity receded to background levels. Our last Bulletin report (BGVN 28:11) noted occasional white plumes during 2000 to 2003.
The data for this report was collected chiefly from online reports by the Japanese Meteorological Agency (JMA), the Geological Survey of Japan (GSJ), and the National Institute of Advanced Industrial Science and Technology (AIST).
Historically, activity at Ontakesan has consisted mainly of phreatic explosions every several hundred years. However, recent research cited in JMA (date unknown) indicates that over the past 10,000 years, four magmatic eruptions have also occurred. Although there are no reported records of historical eruptions before 1979, fumarolic activity was noted as ongoing for several hundred years near to Ontakesan's summit (Jigokudani and Hachotarumi). The period of activity after 1979 represents what appears to be Ontakesan's most active during the past 250 years (Oikawa, 2008).
2006–2007. The March 2007 eruption was preceded by minor inflation and an increase in seismic activity (JMA, date unknown). During mid- to late December 2006, instruments detected inflation of the volcanic edifice and an increase in shallow seismicity directly below the summit. During January 2007, instruments recorded 90 earthquakes on the 16th and 164 earthquakes on the 17th. On 25 January 2007, tremor occurred with the largest recorded amplitude in at least a year. Tremor had, according to a JMA plot, remained near zero during all of 2006. The January 2007 tremor was described as very low frequency, containing a 15- to 20-second-long component. Furthermore, GPS observations detected a small amount of crustal deformation preceding the seismic activity, indicating a slight inflation at Ontakesan.
On 16 March 2007, fumarolic activity increased; fumes at the summit were occasionally detected by a surveillance camera (at "Mitake Kurozawa," but the exact location was not found in English on maps in Ontakesan reports). Seismic and other data considered by JMA showed that an earthquake had occurred during late March, originating directly below Ontakesan. The specific dates of the seismicity and earthquake were not specified in the available reporting. Based on the data collected, JMA inferred that the earthquake had resulted from a magmatic intrusion that had advanced toward the surface reaching ~4 km below the volcano's summit.
A field study two months later, on 29 May 2007, noted fresh volcanic ash from Ontakesan's 79-7 crater. The ash reached ~200 m NE of the crater. This finding of fresh ash was believed to indicate that the 2007 eruption was not merely phreatic but involved some escape of juvenile components to the surface. The exact date of the eruption was undeterminable.
JMA cited a model by Nakamichi and others (2009) regarding the intrusion of a magmatic body and the subsequent 2007 eruption, to describe phreatic eruptions at Ontakesan (figure 12). The depths shown reflect but one set of depth values for the top of the intrusion ((a) in this case 3 km depth below the summit) and the zone of groundwater ((b) centered at ~2.4 km depth below the summit). Thus, figure 12 illustrates a basic model of the various processes involved in a phreatic eruption, which is defined by Harris (2000) as a ". . . steam eruption that produces no fresh magma. A common precursor of eruptive activity, it is caused when groundwater, heated by a magmatic source, flashes into steam."
Figure 12a considers an earlier pre-eruptive stage, where magma advanced upward to 3 km below the volcano's summit. Volcano-tectonic (VT) earthquakes resulted from breaking rock. Note that in the March 2007 eruption, the magma was thought to have advanced to 4 km depth below the summit and the tremor noted then was very-long period (VLP, because of the above-mentioned long-period (15-20 second) component).
Figure 12b considers a later stage of the intrusion event, where the magma ceased to advance towards the surface. The magma heated the groundwater, which expanded into steam. The pressure from the heated water and steam broke rock as it advanced towards the surface. Acoustical signals include VLP and long period (LP) earthquakes. In this model, the steam escaped through the ancestral vents, thus producing a phreatic eruption.
Eruption in September 2014. Available JMA and GSJ reports say very little about the period leading up to the September 2014 eruption. According to a news source (Asahi Shimbun, 2014b), during the early part of September, daily tremor peaked at 85 on 11 September and were followed by 3 to 27 tremor events per day starting on 12 September.
The JMA Executive Committee (2014) reported that on the morning of 27 September, a few hours before the eruption at 1152 Local Time (LT=UTC+9), there was no major unrest. They did record mild seismic events, tilt, and increased steaming; the noted data appearing from 1130 to 1210. The report noted that seismic signal recorded 11 minutes prior to the eruption was nearly flat, with only one small event, in contrast to the robust signal associated with the subsequent eruption. Tilt began 7 minutes prior to and peaked during the explosion.
GSJ (2014) stated: "A volcanic eruption occurred on September 27, 2014 at Mount Ontake on the border between Nagano and Gifu Prefectures. According to the Japan Meteorological Agency, the eruption began at about 11:52 JST [Japan Standard Time] (=UTC+9h) on September 27. It is estimated that the plume from this eruption reached a maximum height of 7000 m, and a pyroclastic flow cascaded down the mountain in a southwesterly direction for a distance of more than 3 km."
Additionally, about forty minutes later, the Tokyo Volcanic Ash Advisory Center (VAAC) noted that the plume resulting from the eruption ascended to 11 km above sea level (a.s.l.) extending to the E. The JMA raised the Alert Level to 3, and the level remained elevated throughout the reporting interval. Figure 13 provides an oblique view of the volcano with the approximate area of the eruption and the summit mountain lodge labelled.
The 27 September eruption was captured by a camera system (Yamamoto, 2014; AIST, 2014b; GSJ, 2014) (figure 14). The term pyroclastic flow generally applies to laterally moving mixtures of hot gas and particles such as tephra and lithics; a broader term that includes ash cloud surges, etc. is pyroclastic density current (see Roche, 2015, and the references therein). In the case of the 2014 eruption, density currents occurred near the summit and on the western flank; some of the complexity may have been due to secondary explosions well downslope of the vent area (AIST, 2014b; Boyle and others, 2014). The density currents descended at variously reported maximum speeds of 30 to 72 km per hour (AIST, 2014b; Yamamoto, 2014). According to Boyle and others (2014), the pyroclastic density currents traveled more than 3 km down Ontakesan's S flank.
On 28 September, the day following the eruption, the GSJ conducted several aerial observations, utilizing media helicopters (GSJ, 2014). At 0800 LT, the height of the plume was ~500 m, heading S to SW. The scientists noted the eruption formed a new line of craters (figure 15) running NW to SE. These new craters resided 250–300 m to the SE of those formed during a previous eruption in 1979. The line of craters is roughly parallel to the 1979 line, but covers a wider area.
GSJ also conducted expeditions to the Kaida Plateau, located ~6 km E to NE of the Kengamine summit, and collected ash samples on 28 September. A photo depicted in GSJ (2014) shows a light coating (on the order of several millimeters) of gray ash covering the leaves and horizontal surfaces of plants in the region. The geologists described the ash as "medium-to-fine-grain sand-sized particles" with a maximum diameter of 0.5 mm. Most of the ash was altered rock fragments and less than 10% was unaltered red-orange and crystalline fragments (as seen in figure 16). GSJ (2014) reported that, as a result of this ash analysis, the recent eruption was considered as phreatic (rather than predominantly magmatic).
GSJ (2014) also noted that scientists had charted the main axis of ash fall from the 2014 eruption, based on the findings from their expeditions. The ash distribution extended towards Ontakesan's E to NE (red arrow, figure 17).
News sources contributed the following. The ash resulting from the eruption was ~50 cm thick near the crater and up to 20 cm thick in lower areas (Adonai, 2014). Asahi Shimbun (2014b) also quoted a scholar, Takayuki Kaneko, as allegedly stating that the ash was "moist" and stuck together like "sesame seeds."
According to JMA, from 1 to 7 October, Ontakesan continued to emit ash, but the resultant plume height could not be determined due to poor visibility. On 7 October, the plume was observed to rise 300 m above the crater rim, drifting E. Tremor continued to be detected; the number of earthquakes detected from 27 September to 6 October are compiled in figure 18 (JMA daily reports).
Figure 18. The number of earthquakes detected per day during 27 September to 6 October 2014. Data courtesy of JMA (daily reports); figure by Bulletin editors. |
According to JMA, Ontakesan emitted ash plumes during 8–9 October, white plumes on 10 October, and plumes with only small amounts of ash during 10–14 October. During 8–14 October, tremors were below the detection limits. White plumes rose 100–200 m above the crater rim, drifting NE and SE, during 16–18 October. On 19 October, plumes rose to 600 m above crater.
Impact of eruption on people. As previously mentioned, according to news sources, the 27 September eruption killed 57 hikers on Ontakesan's slopes, and as of 27 October another 6 were missing (Kyodo, 2014). Furthermore, more than 70 were injured (RT, 2014). According to the Associated Press in Tokyo (2014), the explosion was the deadliest volcanic eruption in Japan in the post-WWII period.
According to the BBC (2014a), nearly 300 people were hiking on Ontakesan on the day of the eruption. The news article characterized the accounts of the eruption as consisting of falling ash and boulders, at times with sufficient density to cause several minutes of total darkness. Kuroda Terutoshi (Kuroda Terutoshi, 2014), posted a video of the eruption to YouTube that he took while hiking. The expanding ash plume engulfed a cabin on the slopes above him, and he was soon surrounded by the plume, which included dark ballistics and ashfall. The ash plume grew rapidly and continued downhill, as depicted in two other videos (Asahi Shimbun, 2014a and BBC News, 2014).
Boston Globe (2014) stated that rescue and recovery missions began on 28 September deploying more than 500 Japanese military and police. Metal and landmine detectors played a role in locating victims buried under ash (Asahi Shimbun, 2014c). National Geographic (2014) and Ogrodnik (2014) provide several photos of the rescue missions, derived from various news sources. According to Malm (2014), several of the casualties found during rescue operations were "still holding their smartphones." Lies and Meyers (2014) noted the halting of some initial search and recovery efforts on 30 September owing to increased tremor the night before raising concerns then about the return of volcanic activity.
On 6 October, Typhoon Phanfone (No. 18) came near to the Ngano Prefecture where Ontakesan is located (Asahi Shimbun, 2014b, c). Accompanied by heavy rains, a mixture of volcanic ash and rain formed into mud, making it hard for large helicopters to land near the summit. Rescue missions were halted on 15 October due to the wintery conditions despite people still missing. The article said that the search for bodies was expected to resume in the springtime.
References. T (?Pfeiffer, T), 2014, Ontake-san volcano (Japan): death toll from yesterday's eruption rises to more than 30, 28 September 2014, Volcano Discovery (URL: http://www.volcanodiscovery.com/on-take/news/48168/Ontake-san-volcano-Japan-death-toll-from-yesterday-s-eruption-rises-to-more-than-30.html) [accessed in June 2015]
AIST, 2014a, Analysis of Volcanic Ash Falling from the September 2014 Eruption of the Ontake Volcano, 28 September 2014, National Institute of Advanced Industrial Science and Technology (URL: https://www.gsj.jp/hazards/volcano/kazan-bukai/yochiren/ontake_ash_140928E.pdf)
AIST, 2014b, The Pyroclastic Flow Generated by the September 27, 2014 Eruption of the Ontake Volcano, 29 September 2014, National Institute of Advanced Industrial Science and Technology (URL: https://www.gsj.jp/hazards/volcano/kazan-bukai/yochiren/ontake_flow_140928E.pdf)
Asahi Shimbun, 2014a, Ontakesan eruption prediction was difficult, the Japan Meteorological Agency did not find any omens, 27 September 2014 (URL: http://www.asahi.com/articles/ASG9W5KFJG9WULBJ00D.html) [accessed in June 2015]
Asahi Shimbun, 2014b, Volcanologists: with few telltale signs, Mt. Ontakesan's eruption hard to predict, 28 September 2014, (URL: http://ajw.asahi.com/article/behind_news/social_affairs/AJ201409280022) [accessed in June 2015]
Asahi Shimbun, 2014c, Update: More victims of Mt. Ontakesan eruption found as typhoon nears, 4 October 2014 (URL: http://ajw.asahi.com/article/behind_news/social_affairs/AJ201410040056)
Associated Press in Tokyo, 2014, Hikers killed by Japanese volcano left poignant pictures of final moments, 5 October 2014, The Guardian (URL: http://www.theguardian.com/world/2014/oct/05/-sp-hikers-killed-japanese-volcano-pictures-final-moments) [accessed in June 2015]
Australian Associated Press with Australia Geographic staff, 2014, Japan Volcano Ontake an Extremely Rare Eruption, 29 September 2014, Australia Geographic (URL: www.australiangeographic.com.au/news/2014/09/japan-volcano-ontake-an-extremely-rare-eruption) [accessed in June 2015]
BBC News, 2014, Video: Japan volcano shoots rock & ash on Mount Ontake - BBC News, 29 September 2014, YouTube (URL: https://www.youtube.com/watch?v=aQtkoLxqUNQ) [accessed in June 2015]
BBC, 2014a, Japan's Mount Ontake volcanic eruption injures 30, 27 September 2014, British Broadcasting Corporation (URL: http://www.bbc.com/news/world-asia-29392810) [accessed in June 2015]
BBC, 2014b, Japan Mount Ontake Volcano: Death Toll Reaches 47, 1 October 2014, British Broadcasting Corporation (URL: www.bbc.com/news/world-asia-29440982) [accessed in June 2015]
Boston Globe, 2014, Military Helicopters Rescue People Stranded After Mt Ontake Eruption, 28 September 2014, Boston.com (URL: http://www.boston.com/news/world/asia/2014/09/28/military-helicopters-rescue-people-stranded-after-ontake-eruption/iW6wHPhW5K0rAsYM0EUe7H/video.html) [accessed in June 2015]
Boyle, D., Charlton, C., 2014, 36 Now Feared Dead in Japanese Volcano Disaster, 28 September 2014, Daily Mail (URL: http://www.dailymail.co.uk/news/article-2772458/More-30-hikers-dead-near-Japanese-volcano-erupted-without-warning-spewinf-eight-inch-blanket-ash.html) [accessed in June 2015]
GSJ, 2014, Ontake Volcano Information, 7 October 2014, Geological Survey of Japan (URL: https://www.gsj.jp/en/hazards/ontake2014/index.html) [accessed in June 2015]
Harris, 2002, Archaeology and volcanism, in The encyclopedia of volcanoes. Sigurdsson, H., Houghton, B., McNutt, S., Rymer, H., and Stix, J. (Eds.). pp. 1301-1314. Elsevier.
JMA, date unknown, 53. Ontakesan, Japan Meteorological Agency (JMA) (URL: http://www.data.jma.go.jp/svd/vois/data/tokyo/STOCK/souran_eng/volcanoes/053_ontakesan.pdf) [accessed in June 2015]
JMA Executive Committee, 2014, Prediction of Volcanic Eruptions Coordinating Committee Expanded Executive Committee, 21 pages, 28 September 2014, Japan Meteorological Agency (JMA) (URL: www.data.jma.go.jp/svd/vois/data/tokyo/STOCK/kaisetsu/CCPVE/shiryo/kakudai140928/kakudai140928_no01.pdf)
Kuroda Terutoshi, 2014, Ontake Eruption, original, 26 September 2014, YouTube (URL: https://www.youtube.com/watch?t=77&v=7Ea3uED1Zgc) [accessed in June 2015]
Kyodo, 2014, Ontake victims mourned a month after eruption as tourism industry scrambles to recover, 27 October 2014, Japan Times (URL: http://www.japantimes.co.jp/news/2014/10/27/national/ontake-victims-mourned-month-eruption-tourism-industry-scrambles-recover/) [accessed in June 2015]
Lies, E. and Meyers, C., 2014, Recovery of Japan Volcano Victims Suspended Amid Signs of Rising Activity, 30 September 2014, Reuters (URL: www.reuters.com/article/2014/09/30/us-japan-volcano-idUSKCN0HP07G20140930) [accessed in June 2015]
Nakamichi, H., Kumagai, H., Nakano, M., Okubo, M., Kimata, F., Ito, Y., Obara, K., 2014, Source mechanism of a very-long-period event at Mt Ontake, central Japan: Response of a hydrothermal system to magma intrusion beneath the summit, 10 November 2009, Journal of Volcanology and Geothermal Research (URL: http://www.sciencedirect.com/science/article/pii/S0377027309003588)
Malm, S., 2014, One last picture... that cost their lives: More than half the victims killed by erupting volcano in Japan were found clutching smartphones, 12 November 2014, Daily Mail (URL: http://www.dailymail.co.uk/news/article-2831305/One-selfie-cost-lives-half-victims-killed-erupting-volcano-Japan-clutching-smartphones-photos-lava-coming-them.html) [accessed in June 2015]
National Geographic, 2014, Pictures: Japanese Volcano that Killed Hikers, 29 September 2014 (URL: http://news.nationalgeographic.com/news/2014/09/pictures/140929-japan-volcano-ontake-pictures/) [accessed in June 2015]
Ogrodnik, I., 2014, IN PHOTOS: Powerful images as Japanese Volcano Mount Ontake Erupts, 1 October 2014, Global News (URL: http://globalnews.ca/news/1587737/in-photos-powerful-images-as-japans-mount-ontake-erupts/) [accessed in June 2015]
Oikawa, T., 2008, Re-examination of historical records and fumarolic activity of eruption records of the Ontake volcano, Japanese with English abstract, Geological Survey of Japan (GSJ) (URL: https://www.gsj.jp/data/bulletin/59_05_01.pdf)
Roche, O., 2015, Nature and Velocity of Pyroclastic Density Currents Inferred from Models of Entertainment of Substrate Lithic Clasts, Earth and Planetary Science Letters, 418, 115-125 (URL: http://adsabs.harvard.edu/abs/2015E&PSL.418..115R)
RT, 2014, Volcano erupts in central Japan, dozens injured (VIDEO, PHOTOS), 27 September 2014 (URL: http://rt.com/news/191124-japan-volcano-erupts-injured/) [access in June 2015]
Yamamoto, T., 2014, The Pyroclastic Density Currents Generated by the September 27, 2014 Phreatic Eruption of Ontake Volcano, Bulletin of the Geological Survey of Japan, number 65 (URL: https://www.gsj.jp/data/bulletin/65_09_03.pdf)
Information Contacts: Japan Meteorological Agency (JMA), Otemachi, 1-3-4, Chiyoda-ku Tokyo 100-8122, Japan (URL: http://www.jma.go.jp/); Tokyo Volcanic Ash Advisory Center (VAAC), Tokyo, Japan (URL: http://ds.data.jma.go.jp/svd/vaac/data/)
This compilation of synonyms and subsidiary features may not be comprehensive. Features are organized into four major categories: Cones, Craters, Domes, and Thermal Features. Synonyms of features appear indented below the primary name. In some cases additional feature type, elevation, or location details are provided.
Synonyms |
||||
Kiso-ontake | On-take | ||||
Cones |
||||
Feature Name | Feature Type | Elevation | Latitude | Longitude |
Komikasa-yama | Cone | 2045 m | ||
Mikasa-yama | Stratovolcano | 2256 m | ||
Tobu volcano group | Stratovolcano | |||
Tsuchiurazawa | Stratovolcano | |||
Uetawara-yama | Stratovolcano | |||
Craters |
||||
Feature Name | Feature Type | Elevation | Latitude | Longitude |
Gono-ike | Crater | |||
Ichino-ike
Itino-ike |
Crater | |||
Jigoku
Zigoku |
Crater | |||
Marishiten | Crater | |||
Nino-ike | Crater | |||
Sanno-ike | Crater | |||
Shino-ike
Sino-ike |
Crater |
|
|
There is data available for 4 confirmed Holocene eruptive periods.
2014 Sep 27 - 2014 Oct 14 Confirmed Eruption VEI: 3
Episode 1 | Eruption | Summit crater | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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2014 Sep 27 - 2014 Oct 14 | Evidence from Observations: Reported | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
List of 14 Events for Episode 1 at Summit crater
|
2007 Mar 24 ± 7 days Confirmed Eruption VEI: 0
Episode 1 | Eruption | 1979 Crater #7 | ||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
2007 Mar 24 ± 7 days - Unknown | Evidence from Observations: Reported | ||||||||||||||||||||||||
List of 3 Events for Episode 1 at 1979 Crater #7
|
1991 May 13 - 1991 May 16 Confirmed Eruption VEI: 0
Episode 1 | Eruption | 1979 Crater #7 | ||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1991 May 13 - 1991 May 16 | Evidence from Observations: Reported | ||||||||||||||||||||||||
List of 3 Events for Episode 1 at 1979 Crater #7
|
1979 Oct 28 - 1980 Apr 25 Confirmed Eruption VEI: 2
Episode 1 | Eruption | 200 m SW of Kengamine | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1979 Oct 28 - 1980 Apr 25 | Evidence from Observations: Reported | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
List of 10 Events for Episode 1 at 200 m SW of Kengamine
|
[ 0774 ] Uncertain Eruption
Episode 1 | Eruption | ||||
---|---|---|---|---|
0774 - Unknown | Evidence from Unknown |
There is data available for 1 deformation periods. Expand each entry for additional details.
Start Date: 1999 Sep | Stop Date: 2004 Apr | Direction: Uplift | Method: Leveling |
Magnitude: 1.000 cm | Spatial Extent: Unknown | Latitude: Unknown | Longitude: Unknown |
Remarks: Uplift of 3-6 mm near the earthquake swarm area of 2002-2004 is likely related to hydrothermal activity. |
Reference List: Kimata et al 2004.
Full References:
Kimata, F., Miyajima, R., Murase, M., Darwaman, D., Ito, T., Ohata, Y., Irwan, M., Takano, K., Ibrahim, F., Koyama, E. and Tsuji, H.,, 2004. Ground uplift detected by precise leveling in the Ontake earthquake swarm area, central Japan in 2002-2004. Earth, planets and space, 56(12), pp.e45-e48.
There is data available for 1 emission periods. Expand each entry for additional details.
Start Date: 2014 Sep 27 | Stop Date: 2014 Sep 27 | Method: Satellite (Aura OMI) |
SO2 Altitude Min: 10 km | SO2 Altitude Max: 10 km | Total SO2 Mass: 1 kt |
Data Details
Date Start | Date End | Assumed SO2 Altitude | SO2 Algorithm | SO2 Mass |
20140927 | 10.0 | 1.000 |
Maps are not currently available due to technical issues.
The maps shown below have been scanned from the GVP map archives and include the volcano on this page. Clicking on the small images will load the full 300 dpi map. Very small-scale maps (such as world maps) are not included.
The following 1 samples associated with this volcano can be found in the Smithsonian's NMNH Department of Mineral Sciences collections, and may be availble for research (contact the Rock and Ore Collections Manager). Catalog number links will open a window with more information.
Catalog Number | Sample Description | Lava Source | Collection Date |
---|---|---|---|
NMNH 112972 | Pyroxene Andesite | MARISITON CRATER | -- |
Copernicus Browser | The Copernicus Browser replaced the Sentinel Hub Playground browser in 2023, to provide access to Earth observation archives from the Copernicus Data Space Ecosystem, the main distribution platform for data from the EU Copernicus missions. |
MIROVA | Middle InfraRed Observation of Volcanic Activity (MIROVA) is a near real time volcanic hot-spot detection system based on the analysis of MODIS (Moderate Resolution Imaging Spectroradiometer) data. In particular, MIROVA uses the Middle InfraRed Radiation (MIR), measured over target volcanoes, in order to detect, locate and measure the heat radiation sourced from volcanic activity. |
MODVOLC Thermal Alerts | Using infrared satellite Moderate Resolution Imaging Spectroradiometer (MODIS) data, scientists at the Hawai'i Institute of Geophysics and Planetology, University of Hawai'i, developed an automated system called MODVOLC to map thermal hot-spots in near real time. For each MODIS image, the algorithm automatically scans each 1 km pixel within it to check for high-temperature hot-spots. When one is found the date, time, location, and intensity are recorded. MODIS looks at every square km of the Earth every 48 hours, once during the day and once during the night, and the presence of two MODIS sensors in space allows at least four hot-spot observations every two days. Each day updated global maps are compiled to display the locations of all hot spots detected in the previous 24 hours. There is a drop-down list with volcano names which allow users to 'zoom-in' and examine the distribution of hot-spots at a variety of spatial scales. |
WOVOdat
Single Volcano View Temporal Evolution of Unrest Side by Side Volcanoes |
WOVOdat is a database of volcanic unrest; instrumentally and visually recorded changes in seismicity, ground deformation, gas emission, and other parameters from their normal baselines. It is sponsored by the World Organization of Volcano Observatories (WOVO) and presently hosted at the Earth Observatory of Singapore.
GVMID Data on Volcano Monitoring Infrastructure The Global Volcano Monitoring Infrastructure Database GVMID, is aimed at documenting and improving capabilities of volcano monitoring from the ground and space. GVMID should provide a snapshot and baseline view of the techniques and instrumentation that are in place at various volcanoes, which can be use by volcano observatories as reference to setup new monitoring system or improving networks at a specific volcano. These data will allow identification of what monitoring gaps exist, which can be then targeted by remote sensing infrastructure and future instrument deployments. |
Volcanic Hazard Maps | The IAVCEI Commission on Volcanic Hazards and Risk has a Volcanic Hazard Maps database designed to serve as a resource for hazard mappers (or other interested parties) to explore how common issues in hazard map development have been addressed at different volcanoes, in different countries, for different hazards, and for different intended audiences. In addition to the comprehensive, searchable Volcanic Hazard Maps Database, this website contains information about diversity of volcanic hazard maps, illustrated using examples from the database. This site is for educational purposes related to volcanic hazard maps. Hazard maps found on this website should not be used for emergency purposes. For the most recent, official hazard map for a particular volcano, please seek out the proper institutional authorities on the matter. |
IRIS seismic stations/networks | Incorporated Research Institutions for Seismology (IRIS) Data Services map showing the location of seismic stations from all available networks (permanent or temporary) within a radius of 0.18° (about 20 km at mid-latitudes) from the given location of Ontakesan. Users can customize a variety of filters and options in the left panel. Note that if there are no stations are known the map will default to show the entire world with a "No data matched request" error notice. |
UNAVCO GPS/GNSS stations | Geodetic Data Services map from UNAVCO showing the location of GPS/GNSS stations from all available networks (permanent or temporary) within a radius of 20 km from the given location of Ontakesan. Users can customize the data search based on station or network names, location, and time window. Requires Adobe Flash Player. |
DECADE Data | The DECADE portal, still in the developmental stage, serves as an example of the proposed interoperability between The Smithsonian Institution's Global Volcanism Program, the Mapping Gas Emissions (MaGa) Database, and the EarthChem Geochemical Portal. The Deep Earth Carbon Degassing (DECADE) initiative seeks to use new and established technologies to determine accurate global fluxes of volcanic CO2 to the atmosphere, but installing CO2 monitoring networks on 20 of the world's 150 most actively degassing volcanoes. The group uses related laboratory-based studies (direct gas sampling and analysis, melt inclusions) to provide new data for direct degassing of deep earth carbon to the atmosphere. |
Large Eruptions of Ontakesan | Information about large Quaternary eruptions (VEI >= 4) is cataloged in the Large Magnitude Explosive Volcanic Eruptions (LaMEVE) database of the Volcano Global Risk Identification and Analysis Project (VOGRIPA). |
EarthChem | EarthChem develops and maintains databases, software, and services that support the preservation, discovery, access and analysis of geochemical data, and facilitate their integration with the broad array of other available earth science parameters. EarthChem is operated by a joint team of disciplinary scientists, data scientists, data managers and information technology developers who are part of the NSF-funded data facility Integrated Earth Data Applications (IEDA). IEDA is a collaborative effort of EarthChem and the Marine Geoscience Data System (MGDS). |