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Tofua

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  • Tonga
  • Caldera
  • 2014 CE
  •  
  • Country
  • Primary Volcano Type
  • Last Known Eruption
  •  
  • 19.75°S
  • 175.07°W

  • 515 m
    1690 ft

  • 243060
  • Latitude
  • Longitude

  • Summit
    Elevation

  • Volcano
    Number
Most Recent Weekly Report: 5 July-11 July 2023 Citation IconCite this Report

Tonga Geological Services issued a public notice on 7 July noting the ongoing eruption at Tofua and requesting that the public contact them with any information, including photos and video. Data and observations indicated that the activity was normal and no significant seismic activity nor thermal anomalies were recorded.

Source: Tonga Geological Services, Government of Tonga


Most Recent Bulletin Report: February 2023 (BGVN 48:02) Citation IconCite this Report

Intermittent thermal anomalies in the Lofia crater during August 2022-January 2023

Tofua Island in the central part of the Tonga Islands group is the emergent summit of a large stratovolcano. Its summit contains a 5-km-wide caldera. Three post-caldera cones were constructed at the northern end of a caldera lake. The easternmost cone has three craters that produced lava flows, some of which have traveled into the caldera lake. The largest and northernmost of the cones, Lofia, has been the source of previous eruptions dating back to the 18th century. The current eruption period began in October 2015 and has more recently consisted of intermittent thermal anomalies in the Lofia crater (BGVN 47:08). This report covers continued thermal activity in the Lofia crater during August 2022 through January 2023 using information primarily from satellite data.

Intermittent hotspots were detected by Sentinel-2 infrared satellite imagery, the MODVOLC infrared satellite data using NASA’s MODIS instrument, and Suomi NPP/VIIRS sensor data (figure 17). Sentinel-2 imagery showed a bright thermal anomaly in the Lofia crater 1-5 times each month during the reporting period, though some days the summit was not visible due to cloudy weather (figure 18). A total of four thermal alerts were detected by the MODVOLC system on 12 August 2022, 18 September, and 2 and 18 January 2023. There was a total of 46 days of hotspots during the reporting period that ranged from 4-10 each month in Suomi NPP/VIIRS data.

Figure (see Caption) Figure 17. Timeline summary of thermal activity at Tofua detected using satellite data from August 2022 through January 2023. The dates indicated represent detected thermal anomalies for Sentinel-2, MODVOLC, and VIIRS data. White areas indicate no activity was observed, which may also be due to cloud cover. Each cell represents one calendar day. Data courtesy of Sentinel Hub Playground, HIGP - MODVOLC Thermal Alerts System, and NASA Worldview using the “Fire and Thermal Anomalies” layer.
Figure (see Caption) Figure 18. Sentinel-2 infrared satellite imagery showed a persistent bright thermal anomaly (bright yellow-orange) in the Lofia crater at Tofua during August 2022 through January 2023. The black color at the bottom center of the images is the crater lake. Images were taken on 20 August 2022 (top left), 4 September 2022 (top right), 24 October 2022 (middle left), 8 November 2022 (middle right), 3 December 2022 (bottom left), and 12 January 2023 (bottom right). Images with "Atmospheric penetration" (bands 12, 11, 8A) rendering. Courtesy of Sentinel Hub Playground.

Information Contacts: MIROVA (Middle InfraRed Observation of Volcanic Activity), a collaborative project between the Universities of Turin and Florence (Italy) supported by the Centre for Volcanic Risk of the Italian Civil Protection Department (URL: http://www.mirovaweb.it/); Hawai'i Institute of Geophysics and Planetology (HIGP) - MODVOLC Thermal Alerts System, School of Ocean and Earth Science and Technology (SOEST), Univ. of Hawai'i, 2525 Correa Road, Honolulu, HI 96822, USA (URL: http://modis.higp.hawaii.edu/); NASA Worldview (URL: https://worldview.earthdata.nasa.gov/); Sentinel Hub Playground (URL: https://www.sentinel-hub.com/explore/sentinel-playground).

Weekly Reports - Index


2023: July
2011: July


5 July-11 July 2023 Citation IconCite this Report

Tonga Geological Services issued a public notice on 7 July noting the ongoing eruption at Tofua and requesting that the public contact them with any information, including photos and video. Data and observations indicated that the activity was normal and no significant seismic activity nor thermal anomalies were recorded.

Source: Tonga Geological Services, Government of Tonga


13 July-19 July 2011 Citation IconCite this Report

Based on information from Tonga Meteorological Services and pilot observations, the Wellington VAAC reported that a cloud from Tofua rose to an altitude of 1.2 km (4,000 ft) a.s.l.

Source: Wellington Volcanic Ash Advisory Center (VAAC)


Bulletin Reports - Index

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.

06/1979 (SEAN 04:06) Emission of "smoke" reported

12/1979 (SEAN 04:12) Fumarolic activity noted during July

12/2001 (BGVN 26:12) Typical fumarolic emissions continue; geologic mapping of cinder-cone complexes

06/2006 (BGVN 31:06) Glow seen in summit crater vent during May-June 2006 fieldwork

02/2009 (BGVN 34:02) Intermittent observations and thermal alerts in 2004 and 2007-2009 indicate activity

07/2011 (BGVN 36:07) Evidence of ongoing intermittent eruption into 2011

09/2011 (BGVN 36:09) Elaborative comments on April 2010 observations

07/2013 (BGVN 38:07) 2005 field observations and elevated temperatures detected during 2011-2013

04/2015 (BGVN 40:04) Five thermal alerts detected, 28 September-30 June 2015

08/2020 (BGVN 45:08) Intermittent thermal anomalies in the Lofia crater from October 2015 through July 2020

08/2021 (BGVN 46:08) Intermittent thermal anomalies and sulfur dioxide emissions in the Lofia crater during August 2020-July 2021

08/2022 (BGVN 47:08) Intermittent thermal anomalies persist in the Lofia crater during August 2021-July 2022

02/2023 (BGVN 48:02) Intermittent thermal anomalies in the Lofia crater during August 2022-January 2023




Information is preliminary and subject to change. All times are local (unless otherwise noted)


June 1979 (SEAN 04:06) Citation IconCite this Report

Emission of "smoke" reported

A message received from the ship MV Marama at 1445 on 31 May stated that the W side of frequently active Tofua . . . was emitting smoke, but that no activity was visible on Late.

Information Contacts: R. Richmond, Mineral Resources Dept., Fiji; J. Latter, DSIR, Wellington; S. Tongilava, Lands Survey and Natural Resources, Tonga; R. Jones, Air Tonga.


December 1979 (SEAN 04:12) Citation IconCite this Report

Fumarolic activity noted during July

Most of the reported eruption sites were investigated during the 11-18 July cruise of the Fijian research vessel RV Bulikula.... Large fluctuations in the intensity of fumarolic activity were observed at both Fonualei and Tofua.

Information Contacts: D. Woodhall and R. Richmond, Mineral Resources Dept., Fiji; D. Tuni, Ministry of Natural Resources, Solomon Islands.


December 2001 (BGVN 26:12) Citation IconCite this Report

Typical fumarolic emissions continue; geologic mapping of cinder-cone complexes

On 1 August 2000, Jeff and Raine Williams, aboard the sailing yacht Gryphon, reported that they spent a couple nights at Uanukuhahaki island, approximately 48 km E of the volcanic islands of Kao and Tofua. They noted that "steam can be seen rising from Tofua almost continuously." They also observed that pumice stones were scattered all along the beach at Uanukuhahaki.

Tim Worthington (Christian-Albrechts-Universität zu Kiel) notes that the activity seen on 1 August 2000 is the normal state of Tofua. In September 1999, Worthington mapped a thick compound ash layer (with three distinct units) containing abundant pumice clasts that is widespread on Kotu, Ha'afeva, Matuku, and other islands in the group 30-50 km E of Tofua and Kao. The ash represents the distal part of the pyroclastic flow sequence associated with a pre-historic caldera-forming eruption on Tofua. Other workers, including Shane Cronin (GEOMAR), are looking at these units in more detail with a view to dating the eruption. The "pumice stones" seen on Uanukuhahaki may be blocks of andesitic pumice eroded from this ash sequence.

Geologic mapping and observations, November 2000. Worthington was part of a group that spent 8 days mapping and sampling at Tofua in late November 2000. Tofua is a nearly circular island 9.5 x 7.1 km in diameter. The flanks rise steeply to a well-defined caldera rim reaching 515 m elevation in the NW and SE. The inner caldera walls are precipitous, and the caldera is occupied by a large, cold, fresh-water lake standing at 30 m elevation. The most recent volcanism took place from vents within the N half of the caldera, where there are three cinder-cone complexes.

The westernmost cinder-cone complex is densely forested and rather degraded. The easternmost complex consists of four distinct but intergrown small cinder cones with well-formed craters (two have sub-craters). A series of young rubble-topped basaltic andesite lavas were erupted from these cones and flowed towards (and into) the lake. Different degrees of vegetation on each flow suggest a recurrence interval of about 50 years, and the youngest may have been emplaced during the 1958-60 eruptions. It was mapped by visiting geologists in the early 1970s.

The northernmost cinder cone is the large and vigorously degassing Lofia, with a basal diameter of ~500 m and a summit at 380 m elevation. Lofia has a summit crater 70 m in diameter with vertical inner walls, which was completely filled by dense brownish-blue SO2-rich steam during the visit. Intermittent chugging sounds resembling a train starting to move could be heard from the crater rim. From the yacht, occasional dull orange reflections were observed in clouds above the caldera rim on two nights. However, there was no evidence of recent spatter around the crater rim, nor any indication of significant volcanic activity since the 1958-60 eruptions.

On calm days the plume from Lofia rose above the caldera rim and was visible from nearby islands and to passing ships; more commonly it dispersed in the wind before passing the caldera rim. Numerous breadcrust bombs were plastered onto the NW caldera wall downwind from Lofia, and had welded to form a sparsely vegetated 20-m-thick rootless lava flow on the NW caldera rim. The region of sparse vegetation on the outer NW caldera wall extended from 300 to 515 m elevation, gaving the NW summit of Tofua a "burnt" appearance to passing ships. The spatter testifies to vigorous fire-fountaining at Lofia, whose summit is 130 m below and 700 m S of the caldera rim. The latest episode of this activity may have taken place during the 1958-60 eruptions, but the spatter almost certainly represents the accumulated result of many such episodes.

Information Contacts: Tim J. Worthington, Institut für Geowissenschaften, Christian-Albrechts-Universität zu Kiel, Olshausenstr. 40, D-24118 Kiel, Germany; Jeff and Raine Williams, P.O. Box 729, Funkstown, MD 21734, USA.


June 2006 (BGVN 31:06) Citation IconCite this Report

Glow seen in summit crater vent during May-June 2006 fieldwork

Fieldwork at Tofua during 11 May-1 June 2006 was accomplished by a group led by John Caulfield (Macquarie University). The work involved detailed lithological mapping of the island, with specific focus on the N side. It is hoped that correlation of geological units and U-Series disequilibria will help to unravel the eruptive history.

The active vent, Lofia, was degassing throughout the visit. Fumaroles were located at the bottom of the vent and on the lower half of the inside of the vent. There was no degassing on the flanks of Lofia. Expelled gases were brownish-blue, with a strong sulfurous smell. The "chugging" sounds reported by Tim Worthington (BGVN 26:12) were still occurring at a rate of once every few minutes to bursts of up to four, one after the other. The highest point on the rim of Lofia was very unstable, probably weakened by the large earthquake that occurred on 4 May. A large crack (~ 30 cm wide), trending roughly WNW-ESE had opened across the thick ash and spatter deposits in the caldera, several hundred meters N of Lofia.

When the gas was periodically cleared by wind gusts, three craters could be seen at the bottom of the 150-200-m-deep vent. Of these craters, one was fumarolic, one was quiet, and one contained an orange glow. Although the depth and angle of the vent meant that the magma itself was not visible, the strong glow suggested that lava had ponded there. There was abundant spatter around the rim and abundant bombs on the flanks, the latter most likely resulting from eruptive activity in 1958. The pH of the large crater lake was determined to be 5.5-6.

Information Contacts: John Caulfield and Heather Cunningham, ARC National Key Centre for Geochemical Evolution and Metallogeny of Continents (GEMOC), Department of Earth & Planetary Sciences, Macquarie University, NSW 2109, Australia (URL: http://gemoc.mq.edu.au/); Graham Smith, Department of Earth Sciences, University of Cambridge, Downing Street, Cambridge CB2 3EQ,United Kingdom.


February 2009 (BGVN 34:02) Citation IconCite this Report

Intermittent observations and thermal alerts in 2004 and 2007-2009 indicate activity

An increased number of satellite-based MODVOLC thermal alerts occurred at Tofua (figure 1) on nine days during March to November 2008, as compared with alerts on three days in 2004, none in 2005 or 2006, two days in 2007, and one day in 2009 (as of 5 April). All of these infrared-derived alerts have been in the same area, a zone several kilometers N of the lake near the 5-km-diameter caldera's N rim, a region where numerous cones and craters reside. One or more of those cones was steaming in a 1990 image. In that image, this area appears steep and largely rocky, an unlikely location for repeated fires (figure 2). Eyewitness views of glow, scoria and spatter ejections from in the crater of Lofia cone during 1993, 2004, and 2009 suggest that at least some if not all the MODVOLC alerts are credible signatures reflecting the minimum level of volcanism at Tofua.

Figure (see Caption) Figure 1. A set of index maps and a larger map of the main part of the Tonga Archipelago. The latter shows the location of Tofua Island in the western part of the Ha'apai Island Group. From Bauer (1970).
Figure (see Caption) Figure 2. Aerial photograph of Tofua volcano showing the steaming Lofia cinder cone. Courtesy of the Tonga Ministry of Lands, Survey, and Natural Resources, 1990 (published in Taylor and Ewart, 1997).

Previous reports in the Bulletin on Tofua covered aspects of activity during portions of 1979, 2000, and 2006 (SEAN 04:06, 04:12; BGVN 26:12, and 31:06, respectively). Taylor and Ewart (1997) compiled a chronology of Tongan eruptions.

Observations during 1993. Mary Lyn Fonua sent the following summary regarding a visit to Tofua in 1993. "It was quite a long time ago that we did a photographic feature on Tofua in May 1993 for our Eva magazine. Pesi, my husband, went there on [29 April 1993] on a two seater amphibian aircraft piloted by Peter Goldstern that landed on the crater lake. There was a smoking vent on the side of the volcano and thick yellowish smoke pouring out of the wall of the crater. They felt the island rumbling. There were hot thermal pools to bathe in. I seem to remember Pesi saying that ... it was possible to see a glow from volcanic activity in the crater at night. About 10 people were living on the island at the time, on the southern tip of the island .... There was forest and scrub on some parts of the island."

The above description of visible glow presumably came from the Lofia vent area just N of the lake. Vegetation and permanent or itinerant inhabitants suggests that some of the outlying thermal alerts discussed below might have been false-positives due to fires. Nicole Keller, of Woods Hole Oceanographic Institution, also notes that Tongans often communicate from island to island using fires.

Observations during 2004. Nicole Keller sent the following information about her October 2004 visit. "The only fumaroles were located inside Lofia crater?not at all accessible. None of the other, smaller cones around Lofia were active in any way (no obvious signs of degassing, no sulfur smell), but definitely had some alteration features that suggest they were hydrothermally altered in the past. Every few minutes there was a rumbling, and every now and again (1-time to 2-times per hour) there was a bigger explosion projecting juvenile scoria over the crater rim." Similar activity was seen by John Caulfield in May 2006 (BGVN 31:06), but without the scoria showers.

MODVOLC Thermal Alerts, 2004-2009. Satellite thermal data over Tofua revealed the absence of thermal alerts between 30 May 2004 and 18 March 2007. The MODVOLC alerts mentioned above began 19 March 2004 (table 1 and figure 3). The maps reveal repeating alerts at and adjacent to the N-caldera cone (Lofia). The October 2004 in situ observations from Keller confirm that the 19 March and 10 and 29 May 2004 MODVOLC alerts were probably due to volcanism. Given the pattern of small ongoing eruptions from a deep crater at Lofia as discussed by visitors during 1993, 2004, and at some point during 2008-2009, it is likely most of the MODVOLC alerts reflect volcanism at Tofua.

Figure (see Caption) Figure 3. Graphic depiction (by year) of satellite thermal alerts (MODVOLC) for Tofua volcano from 19 March 2004 through 6 April 2009. No alerts were measured between 30 May 2004 and 14 March 2007. Images show alerts during 2004, 2007, 2008, and 2009. Courtesy of HIGP Thermal Alerts System.

Table 1. Satellite thermal alerts (MODVOLC) for Tofua volcano from 19 March 2004 through 6 April 2009. No alerts were measured between 30 May 2004 and 14 March 2007. Courtesy of HIGP Thermal Alerts System.

Date (UTC) Time (UTC) Pixels Satellite
19 Mar 2004 1020 1 Terra
10 May 2004 1300 1 Aqua
29 May 2004 1025 1 Terra
15 Mar 2007 0125 1 Aqua
22 May 2007 1025 3 Terra
07 Mar 2008 1015 1 Terra
07 Mar 2008 1320 1 Aqua
21 Jun 2008 1050 2 Terra
21 Jun 2008 2145 1 Terra
22 Jun 2008 1305 2 Aqua
23 Jun 2008 1040 1 Terra
04 Jul 2008 1020 1 Terra
22 Aug 2008 0140 1 Aqua
23 Aug 2008 0045 1 Aqua
20 Nov 2008 1310 2 Aqua
21 Nov 2008 1045 1 Terra
08 Mar 2009 1030 1 Terra

The HIGP Thermal Alerts System listed approximately 190 pixels ~ 45 km SE of Tofua Island on 17 January 2009. Rob Wright of the MODIS/MODVOLC team explained that these were artifacts over the ocean due to reflected sunlight (see http://modis.higp.hawaii.edu/daytime.html). "The last field in the MODVOLC text alert file is a sunglint vector. When this number is over 12 degrees it means that the MODIS sensor was 'looking' within 12 degrees of the specular angle (like being blinded by a mirror when the sun-mirror-eye angle is just right). In this case the mirror is the water surface. We leave them off the map because they are not real hot-spots. We leave them in the text alert file because our 12 degree threshold errs on the side of caution, and other workers may want to use a less restrictive threshold." On the date in question the glint vector was between 1 and 3.

Observations during March 2009. Swiss adventurer Xavier Rosset reported a clear description of minor eruptive activity at Tofua. His audio dialog, posted 13 March 2009, referred to his visit to the active cone during the preceding week, although the exact date of observation was unclear. At that time the crater was about 80-100 m deep and the same in diameter. Three openings of undetermined size displayed an orange glow. Lava ejections from these vents rose 10-50 m high and were accompanied by loud noises. Photos taken by Rosset (figures 4 and 5) show the active cone with lava in the bottom. Rosset's 27 March 2009 dialog discusses a strong earthquake in the region (Mw 7.6 on 20 March, centered ~ 45 km SE of Tofua), which caused several rockfalls on the island. He visited the volcano in the afternoon and, looking into the active crater, saw few noticeable changes.

Figure (see Caption) Figure 4. Photo of Xavier Rosset in front of the active Lofia cinder cone at Tofua, March 2009. The caldera lake resides in the background. Courtesy of X. Rosset.
Figure (see Caption) Figure 5. Photo looking down into the vertical-walled Lofia crater to an orange-colored, circular zone of lava on the floor, March 2009. Courtesy of X. Rosset.

References. Bauer, G.R., 1970, The Geology of Tofua Island, Tonga: Pacific Science, v. 24, no. 3, p. 333-350.

Morrison, C., 29 May 2008, Xavier Rosset, 300 days alone on an island: The Islomaniac website (http://www.the-islomaniac.com/).

Taylor, P.W., and Ewart, A., 1997, The Tofua Volcanic Arc, Tonga, SW Pacific: a review of historic volcanic activity: Aust Volc Invest Occ Rpt, 97/01, 58 p.

Information Contacts: Hawai'i Institute of Geophysics and Planetology (HIGP) Thermal Alerts System, School of Ocean and Earth Science and Technology (SOEST), Univ. of Hawai'i, 2525 Correa Road, Honolulu, HI 96822, USA (URL: http://modis.higp.hawaii.edu/); Mary Lyn Fonua, Matangi Tonga Online, Vava'u Press Ltd., Tonga (URL: http://www.matangitonga.to/); Xavier Rosset (URL: http://www.xavierrosset.com/); Paul W. Taylor, Australian Volcanological Investigations, P.O. Box 291, Pymble, NSW, 2073 Australia; Nicole S. Keller, Department of Geology and Geophysics, Woods Hole Oceanographic Institution, Woods Hole, MA, USA.


July 2011 (BGVN 36:07) Citation IconCite this Report

Evidence of ongoing intermittent eruption into 2011

Tofua is a non-instrumented, remote, island volcano that is seldom the subject of reports; it continued to emit at least low-level eruptions well into 2011. This small volcanic island lies in southern Tonga (see map and other figures in BGVN 34:02), ~ 1,700 km NNE of New Zealand. In 1993 there were ~ 10 residents (BGVN 34:02).

Our previous report on Tofua (BGVN 34:02) gave a summary of MODVOLC thermal alert data through March 2009 and discussed data artifacts due to reflected sunlight over the ocean. Since that time, only a single-pixel thermal alert was measured, located at the vent on 4 March 2011.

Sailors visit in 2010. On 24 April 2010, sailors in a replica 7.6-m-long wooden boat landed on the island associated with a re-enactment of the landing made by Captain Bligh after he and his crew were cast off of the Bounty in 1789. A number of photos associated with announcements regarding the 2010 landing and activities on Tofua suggests that the volcano was still active in a manner similar to that previously discussed (BGVN 31:06 and 34:02), issuing spatter from a small vent that contained lava (figure 6).

Figure (see Caption) Figure 6. Looking into the active crater at Tofua on 24 April 2010 from the crater's N side. The shot emphasizes the crater's sheer walls, ledges draped with ash, and a morphologically complex crater floor covered by black, fresh looking spatter, ash, and possibly lava flows. The scene on the crater floor differs somewhat from the photo made in March 2009 (BGVN 34:02). A large down-dropped zone seems to have developed adjacent (to the right of) the glowing vent. Portions of that lower area emitted gases. As in the 2009 photo, this documents a glowing vent that contains molten lava and the area at the far end of this vent suggest active spattering. Photo by Stuart Kershaw posted by the Tonga Visitors Bureau.

Other photos confirmed that, seen from a distance, the active Lofia crater emitted either a substantial white plume or thin gaseous emissions. A down-dropped zone appears to have developed on part of the crater floor between March 2009 and early 2010 (figure 6). The floor itself is not horizontal; much of it slopes at ~45 degrees from the horizontal.

The original caption for the photo shown in figure 6 read "Mark Belvedere peers into Tofua's very active volcanic crater." Belvedere (president of the Kalia Foundation, an organization developed to preserve and extend the Polynesian seafaring tradition) participated in events associated with the re-enactment. The sailors traveled on a replica of the boat used by Bligh and the crew members loyal to him.

According to the expedition announcements, the re-enactment attempted to make the voyage under similar conditions with the same amount of food and water. The sailors went without charts, additional landfalls, and many modern luxuries. According to news accounts, the 2010 voyage took 7 weeks, ending in Kupang, West Timor.

VAAC report in 2011. July reports by the Tonga Meteorological Services and pilot observations described a cloud of unspecified color and dimension from Tofua that rose to an altitude of 1.3 km. This led the Wellington Volcanic Ash Advisory Centre (VAAC) to produce aviation reports (called Volcanic Ash Advisories) starting 13 July 2011. Follow-up reports (without new information) continued until 19 July 2011. Subsequent notices stated that the cloud was not detected in satellite imagery.

Bligh's comment. Following the 1789 mutiny on the Bounty, Captain William Bligh and 18 others were cast adrift on the small launch in which they completed a 6,700 km journey from near Tofua to West Timor. Bligh's small notebook formed the basis of In Bligh's Hand: Surviving the Mutiny on the Bounty (Gall, 2010). An entire chapter is devoted to Tofua ("We eat under great apprehension of the Natives, Tofua and indigenous relations") but the remarks describing the volcano's behavior are brief:

"When Bligh left the Bounty in the launch, he set course for Tofua, 30 miles away. Its location was marked by a smoke smudge on the skyline issuing from the island's active volcano."

That comment indicates the volcano was degassing when seen in 1789, but leaves the issue of the exact eruptive state ambiguous. The earliest witnessed eruption, the 1774 eruption seen by Captain Cook, was judged as explosive (a VEI 2 eruption; Siebert and others, 2010).

References. Gall, J., 2010, In Bligh's Hand: Surviving the Mutiny on the Bounty, National Library of Australia collection highlights, 234 pp. [ISBN: 9780642277053] (Selected portions, including those referred to here, available on Google books, URL: http://books.google.com/books?id=0TfjOmTv8bYC& )

Siebert, L., Simkin, T., and Kimberly, P., 2010, Volcanoes of the World, 3nd edition: University of California Press and Smithsonian Institution, 568 p.

Tonga Visitors Bureau, 2010, The 'Mutiny on the Bounty' crew visit the volcanic island of Tofua; Tonga Visitors Bureau (Ministry of Tourism), the National Tourist Office (NTO) for the Kingdom of Tonga, URL: http://www.tongaholiday.com/?p=4892; Posted 6 May 2010; accessed August 2011.

Information Contacts: Hawai'i Institute of Geophysics and Planetology (HIGP) MODVOLC Thermal Alerts System, School of Ocean and Earth Science and Technology (SOEST), Univ. of Hawai'i, 2525 Correa Road, Honolulu, HI 96822, USA (URL: http://modis.higp.hawaii.edu/); Kalia Foundation USA, 4515 SW Natchez Ct., Tualatin, Oregon 97062 USA; Mark Belvedere, Treasure Island Eueiki Eco Resort, Vava'u, Tonga; Stuart Kershaw, In the Dark Productions company (URL: http://inthedarkproductions.co.uk/); Wellington Volcanic Ash Advisory Center (VAAC), New Zealand (URL: http://vaac.metservice.com/).


September 2011 (BGVN 36:09) Citation IconCite this Report

Elaborative comments on April 2010 observations

This report on Tofua elaborates on observations in our previous report (BGVN 36:07).

Several maps show Tofua (figure 7) with respect to other geographic features, and also areas of responsibility of Volcanic Ash Advisory Centers in the region. A map of islands in the main part of the Archipelago appeared in BGVN 34:02.

Figure (see Caption) Figure 7. (inset at lower right) Tofua shown in geographic context. Tofua is a part of the Kingdom of Tonga. (main map) Various areas of responsibility of Volcanic Ash Advisory Centers (VAACs) in the region; responsibility for Tonga resides with the Wellington Volcanic Ash Advisory Centre. Courtesy of ESRI Corporation (modified).

Mark Belvedere (Kalia Foundation) sent additional comments regarding his visit to Tofua on 24 April 2010 (see BGVN 36:07). Belvedere noted that at night as they approached the island the glow from the active crater flickered and was visible ~50 km from the volcano. The glow was absent during the day but a plume was conspicuous. In describing his approach to the crater he stated that "As I was walking up towards [it] the area was littered with lava stone from the sizes of golf balls to beach balls." The observation of those ejecta made him nervous. To him, the crater "looked like an air-breathing red hot lava tube ready to shoot out lava stones at any moment but NO I didn't stay to physically see it shooting out the lava nor the lava stones."

Upon reaching the summit the visitors were surprised at how unstable the rim looked. Belvedere had to have his companions hold his feet in order to lean out over the crater to get the photo shown in our previous report (BGVN 36:07). He guessed the distance to the sloping crater floor was on the order of 50 m. The low-level eruptions accompanied larger ash plumes. The plumes were quite reflective at night. A sulfurous odor prevailed.

Stuart Kershaw's attempts to create a video with narration on the scene proved difficult because the eruptions were broken with pauses of about 8-15 minutes, and each pulse behaved differently in terms of how much sound they generated.

Information Contacts: Mark Belvedere, Kalia Foundation USA, 4515 SW Natchez Ct., Tualatin, OR 97062, USA (www.kaliafoundation.org); Treasure Island Eueiki Eco Resort, Vava'u, Kingdom of Tonga (www.tongaislandresort.com); Stuart Kershaw, In the Dark Productions (URL: http://inthedarkproductions.co.uk/); Sakopo Lolohea, Tongan Visitor Bureau, Ministry of Tourism. Vuna Rd., Nuku'alofa, Tonga (URL: http://www.tonga.holiday.com/).


July 2013 (BGVN 38:07) Citation IconCite this Report

2005 field observations and elevated temperatures detected during 2011-2013

Tofua is a remote volcano in Tonga that is not monitored. The active Lofia crater, the largest and northernmost cone, appears to be undergoing a long-term, low level eruption, with spatter from a small vent containing lava, thin gaseous emissions, and an infrequent plume (BGVN 36:07 and 36:09). This report covers activity since our previous reports in July and September 2011, enumerates thermal alerts since April 2009, and quotes part of a blog published in 2005 by a traveler to Tofua that was not previously included in our previous reports.

During 13-14 August 2012, the Wellington Volcanic Ash Advisory Centre (VAAC) issued several volcano ash advisories, based on a pilot report and subsequently confirmed by the Tongan Meterological Service. Apparently, however, the advisories were triggered by a scrub fire that residents had set to flush out wild boars.

A previous report (BGVN 34:02) listed thermal alerts through 6 April 2009. Since then, ten thermal alerts were recorded through 27 September 2013, listed in table 2.

Table 2. Thermal alerts between 4 March 2011 and 27 September 2013. Thermal alerts are derived from data collected by the MODIS thermal sensors aboard the Aqua and Terra satellites and processed by the Hawaii Institute of Geophysics and Planetology using the MODVOLC algorithm. Courtesy of Hawaii Institute of Geophysics and Planetology.

Date (UTC) No. of Pixels Satellite
04 Mar 2011 1 Aqua
04 Nov 2011 1 Aqua
06 Mar 2012 1 Aqua
09 Mar 2012 1 Terra
22 Mar 2012 1 Aqua
01 Sep 2012 1 Terra
20 Jan 2013 1 Aqua
23 Jan 2013 1 Terra
25 Aug 2013 1 Aqua
15 Sep 2013 1 Terra

The following is a portion of a blog published by Richard Cowley on the STA Travel Blogs website on 9 August 2005. The author and fourteen others traveled to Tofua by boat and hiked to the summit. In the author's words:

"We took about 2 hours to reach the summit of the island through a mixed terrain of jungle. When we got to the summit we set up camp again on a volcanic type surface which was really strange and nothing like I had seen before. Once we had set up camp we headed towards the active volcano walking around the rim of the island gaining some great views at the same time. The whole island had a great big lake in the middle of it with the old craters of extinct volcanoes and then the big one which was still active. We headed around the rim and down towards the active volcano. Once we got up to the active volcano which was a steep climb we could look right into the creator [sic] where we could see all of the lava below and smell all the gases coming out of the crater ...".

Information Contacts: Wellington Volcanic Ash Advisory Centre (VAAC), Meteorological Service of New Zealand Ltd (MetService), PO Box 722, Wellington, New Zealand (URL: http://www.metservice.com/vaac/ , http://vaac.metservice.com/); Hawai'i Institute of Geophysics and Planetology (HIGP), MODVOLC Thermal Alerts System, School of Ocean and Earth Science and Technology (SOEST), Univ. of Hawai'i, 2525 Correa Road, Honolulu, HI 96822, USA (URL: http://modis.higp.hawaii.edu/); Earthquake Report (URL: http://earthquake report.com/); and STA Travel Blog (URL: http://blogs.statravel.com).


April 2015 (BGVN 40:04) Citation IconCite this Report

Five thermal alerts detected, 28 September-30 June 2015

Tofua is a remote volcano in Tonga that is not monitored. The primary sources of information about the volcano's activity are from infrequent field visits, ash advisories from the Wellington Volcanic Ash Advisory Centre, and MODIS thermal sensors aboard the Aqua and Terra satellites.

No ash advisories from the Wellington Volcanic Ash Advisory Centre were issued during the reporting period, 28 September 2013-30 June 2015. Since the last report through 27 September 2013 (BGVN 38:07), five thermal alerts were recorded through 30 June 2015 (table 3). Two of those alerts, on 14 and 23 September 2014, were located outside and NW of the caldera rim and therefore were probably not associated with volcanic activity. No thermal alerts were issued between 18 October 2014 and 30 June 2015.

Table 3. Thermal alerts between 28 September 2013 and 30 June 2015. Thermal alerts are derived from data collected by the MODIS thermal sensors aboard the Aqua and Terra satellites and processed by the Hawaii Institute of Geophysics and Planetology using the MODVOLC algorithm. Courtesy of Hawaii Institute of Geophysics and Planetology.

Date No. Pixels Satellite
10 Oct 2013 2 Aqua
27 Jul 2014 1 Aqua
14 Sep 2014 1 Aqua
23 Sep 2014 1 Terra
18 Oct 2014 2 Terra

Several articles on Tofua's volcanic geology and geochemistry published in the past few years have come to our attention (Caulfield, 2011, 2012, 2015). Caulfield and others (2011, 2012) include helpful aerial and cross-section sketches of the volcano's various geologic features.

References: Caulfield, J. T., Cronin, S.J., Turner, S.P., & Cooper, L.B., 2011, Mafic Plinian volcanism and ignimbrite emplacement at Tofua volcano, Tonga, Bull. Volcanology, v. 73, pp.1259–1277.

Caulfield, J. T., Turner, S. P., Smith, I. E. M., Cooper, L. B., & Jenner, G. A., 2012, Magma evolution in the primitive, intra-oceanic Tonga arc: petrogenesis of basaltic andesites at Tofua volcano. Journal of Petrology, v. 53(6), pp. 1197-1230.

Caulfield, J. T., Blichert-Toft, J., Albarède, F., & Turner, S. P., 2015, Corrigendum to 'Magma Evolution in the Primitive, Intra-oceanic Tonga Arc: Petrogenesis of Basaltic Andesites at Tofua Volcano'and 'Magma Evolution in the Primitive, Intra-oceanic Tonga Arc: Rapid Petrogenesis of Dacites at Fonualei Volcano, Journal of Petrology, v. 56(3), pp. 641-644.

Information Contacts: Hawai'i Institute of Geophysics and Planetology (HIGP), MODVOLC Thermal Alerts System, School of Ocean and Earth Science and Technology (SOEST), Univ. of Hawai'i, 2525 Correa Road, Honolulu, HI 96822, USA (URL: http://modis.higp.hawaii.edu/).


August 2020 (BGVN 45:08) Citation IconCite this Report

Intermittent thermal anomalies in the Lofia crater from October 2015 through July 2020

Tofua is a remote volcano located in the central part of the Tonga Islands group. The summit contains a 5-km-wide caldera; three post-caldera cones were constructed at the N end of a caldera lake. The easternmost cone has three craters that have produced young basaltic-andesite lava flows, some of which traveled into the caldera lake. The largest and northernmost of the cones, Lofia, has a steep-sided crater that is 70 m wide and 120 m deep and has been the source of historical eruptions, first reported in the 18th century. The previous report described few thermal alerts primarily during the latter part of 2014 using satellite data (BGVN 40:04), after which no thermal anomalies were detected between 18 October 2014 and 1 October 2015. A new eruptive period began on 2 October 2015 when a thermal anomaly was detected on the N end of the caldera. A posting of satellite imagery by Cultur Volcan about this ongoing activity resulted in this report; it updates activity from July 2015-July 2020 and includes information from various satellite data, primarily looking at thermal anomalies.

Summary of activity during October 2015-July 2020. No ash advisories from the Wellington Volcanic Ash Advisory Centre were issued during the reporting period. There was no activity detected in available satellite data from 18 October 2014 to 1 October 2015; however, on 2 October 2015 the MODVOLC system registered a single MODIS thermal anomaly in the N end of the caldera, marking the beginning of a new eruptive period. Intermittent hotspots were detected by Sentinel-2 thermal satellite imagery, Suomi NPP/VIIRS sensor data, and the MODVOLC system throughout the reporting period, with more frequent anomalies observed beginning in February 2018 through July 2020 (figure 8).

Figure (see Caption) Figure 8. Timeline summary of observed activity at Tofua from October 2015 through July 2020. For Sentinel-2, MODVOLC, and VIIRS data, the dates indicated represent detected thermal anomalies. White areas indicate no activity was observed, which may also be due to cloud cover. Each cell represents one calendar day. Data courtesy of Sentinel Hub Playground, HIGP, and NASA Worldview using the “Fire and Thermal Anomalies” layer.

Sentinel-2 thermal satellite imagery and NASA Worldview captured intermittent variable-strength thermal anomalies during November 2015 through July 2020, primarily in the Lofia crater on the N end of the caldera lake (figures 9 and 10). Activity was relatively lower from November 2015 through 2017 compared to that of 2018 through July 2020. Some anomalies may have been obscured by cloud coverage. A significant thermal anomaly was observed during 22 June 2019, located in the N end of the caldera. Planet Labs satellite imagery shows gas-and-steam emissions rising from the Lofia crater and drifting NW during March and May 2020 (figure 11).

Figure (see Caption) Figure 9. Sentinel-2 thermal satellite imagery detected thermal anomalies (bright yellow-orange) at Tofua occurred primarily in the Lofia crater on the N end of the caldera lake during 2015-2017. Sentinel-2 atmospheric penetration (bands 12, 11, 8A) images courtesy of Sentinel Hub Playground.
Figure (see Caption) Figure 10. A consistent thermal anomaly (bright yellow-orange) was detected in Sentinel-2 thermal satellite imagery at Tofua continued primarily in the Lofia crater on the N end of the caldera lake during 2018-2020. Sentinel-2 atmospheric penetration (bands 12, 11, 8A) images courtesy of Sentinel Hub Playground.
Figure (see Caption) Figure 11. Planet Labs imagery showing a small gas-and-steam plume rising from Tofua during May 2020 drifting NW. Courtesy of Planet Labs.

Information Contacts: Hawai'i Institute of Geophysics and Planetology (HIGP) - MODVOLC Thermal Alerts System, School of Ocean and Earth Science and Technology (SOEST), Univ. of Hawai'i, 2525 Correa Road, Honolulu, HI 96822, USA (URL: http://modis.higp.hawaii.edu/); Sentinel Hub Playground (URL: https://www.sentinel-hub.com/explore/sentinel-playground); NASA Worldview (URL: https://worldview.earthdata.nasa.gov/); Planet Labs, Inc. (URL: https://www.planet.com/); Cultur Volcan, Journal d’un volcanophile, (URL: https://laculturevolcan.blogspot.com).


August 2021 (BGVN 46:08) Citation IconCite this Report

Intermittent thermal anomalies and sulfur dioxide emissions in the Lofia crater during August 2020-July 2021

Tofua is a remote volcano in the central part of the Tonga Islands group that contains a 5-km-wide caldera; three post-caldera cones were constructed at the N end of a caldera lake. The easternmost cone has three craters that have produced young basaltic-andesite lava flows, some of which traveled into the caldera lake. The largest and northernmost of the cones, Lofia, has a steep-sided crater that is 70 m wide and 120 m deep and has been the source of historical eruptions dating back to the 18th century. Recent activity has been characterized by intermittent thermal anomalies in the Lofia crater (BGVN 45:08), which continues through this reporting period of August 2020 through July 2021. Information primarily comes from satellite data.

Summary of activity during August 2020-July 2021. No ash advisories were issued during the reporting period; however, intermittent hotspots were detected by Sentinel-2 thermal satellite imagery and Suomi NPP/VIIRS sensor data throughout the reporting period (figure 12). Anomalies from the MODVOLC system clustered during February 2021 through April and June. There was a notable increase in activity during mid-February through July, compared to the previous months, which included distinct sulfur dioxide plumes (figure 13) and consecutive days with thermal anomalies, according to NASA VIIRs satellite data.

Figure (see Caption) Figure 12. Timeline summary of observed activity at Tofua from August 2020 through July 2021. For Sentinel-2, MODVOLC, and VIIRs data, the dates indicated represent detected thermal anomalies. For the SO2 data, the dates indicated represent detected sulfur dioxide plumes. White areas indicate no activity was observed, which may also be due to cloud cover. Each cell represents one calendar day. Data courtesy of Sentinel Hub Playground, HIGP, NASA Worldview using the “Fire and Thermal Anomalies” layer, and NASA Global Sulfur Dioxide Monitoring Page.
Figure (see Caption) Figure 13. Weak but distinct sulfur dioxide emissions were detected from Tofua on 17 (top left), 18 (top right), 19 (bottom left), and 25 (bottom right) February 2021, each of which drifted W, based on data from the TROPOMI instrument on the Sentinel-5P satellite. Courtesy of NASA Global Sulfur Dioxide Monitoring Page.

Sentinel-2 infrared satellite imagery and NASA Worldview detected intermittent thermal anomalies during August 2020 through July 2021 dominantly in the Lofia crater (figure 14); rare fires were noted along the NW coast of the island. Beginning in mid-February, the activity notably increased with a stronger thermal anomaly. This increase was accompanied by white gas-and-steam emissions, which included distinct sulfur dioxide plumes.

Figure (see Caption) Figure 14. Sentinel-2 infrared satellite imagery showed a persistent thermal anomaly in the Lofia crater at Tofua during September 2020 through May 2021; the intensity of the anomaly notably increased during February through May and was occasionally accompanied by white gas-and-steam emissions. Images with "Atmospheric penetration" (bands 12, 11, 8A) rendering. Courtesy of Sentinel Hub Playground.

Information Contacts: MIROVA (Middle InfraRed Observation of Volcanic Activity), a collaborative project between the Universities of Turin and Florence (Italy) supported by the Centre for Volcanic Risk of the Italian Civil Protection Department (URL: http://www.mirovaweb.it/); Hawai'i Institute of Geophysics and Planetology (HIGP) - MODVOLC Thermal Alerts System, School of Ocean and Earth Science and Technology (SOEST), Univ. of Hawai'i, 2525 Correa Road, Honolulu, HI 96822, USA (URL: http://modis.higp.hawaii.edu/); NASA Global Sulfur Dioxide Monitoring Page, Atmospheric Chemistry and Dynamics Laboratory, NASA Goddard Space Flight Center (NASA/GSFC), 8800 Greenbelt Road, Goddard, Maryland, USA (URL: https://so2.gsfc.nasa.gov/); NASA Worldview (URL: https://worldview.earthdata.nasa.gov/); Sentinel Hub Playground (URL: https://www.sentinel-hub.com/explore/sentinel-playground).


August 2022 (BGVN 47:08) Citation IconCite this Report

Intermittent thermal anomalies persist in the Lofia crater during August 2021-July 2022

Tofua is located in the central part of the Tonga Islands group and contains a 5-km-wide caldera. Three post-caldera cones were constructed at the N end of a caldera lake. The easternmost cone has three craters that have produced young basaltic-andesite lava flows, some of which traveled into the caldera lake. The largest and northernmost of the cones, Lofia, has a steep-sided crater that is 70 m wide and 120 m deep and has been the source of recorded eruptions dating back to the 18th century. The current eruption period began in October 2015 and recent activity has consisted of mostly intermittent thermal anomalies in the Lofia crater and sulfur dioxide emissions (BGVN 46:08). This reporting period covers persistent thermal anomalies in the Lofia crater during August 2021 through July 2022. Information primarily comes from satellite data.

Summary of activity during August 2021-July 2022. Intermittent hotspots were detected by Sentinel-2 infrared satellite imagery, the MODVOLC infrared satellite data using NASA’s MODIS instrument, and Suomi NPP/VIIRS sensor data (figure 15). Sentinel-2 imagery showed a bright thermal anomaly in the Lofia crater 2-5 times each month during the reporting period (figure 16). A total of 14 thermal alerts were detected by the MODVOLC system 1-3 times every month of the reporting period. Many of these hotspots were also reflected in the Sentinel-2 and Suomi NPP/VIIRS data. There was a total of 114 days of hotspots during the reporting period that ranged from 3-14 each month in Suomi NPP/VIIRS data.

Figure (see Caption) Figure 15. Timeline summary of thermal activity at Tofua detected using satellite data from August 2021 through July 2022. The dates indicated represent detected thermal anomalies for Sentinel-2, MODVOLC, and VIIRS data. White areas indicate no activity was observed, which may also be due to cloud cover. Each cell represents one calendar day. Data courtesy of Sentinel Hub Playground, HIGP - MODVOLC Thermal Alerts System, and NASA Worldview using the “Fire and Thermal Anomalies” layer.
Figure (see Caption) Figure 16. Sentinel-2 infrared satellite imagery showed a persistent bright thermal anomaly (bright yellow-orange) in the Lofia crater at Tofua during August 2021 through July 2022. Images were taken on 15 August 2021 (top left), 24 September 2021 (top middle), 17 January 2022 (top right), 12 April 2022 (bottom left), 12 May 2022 (bottom middle), and 16 July 2022 (bottom right). Images with "Atmospheric penetration" (bands 12, 11, 8A) rendering. Courtesy of Sentinel Hub Playground.

Information Contacts: MIROVA (Middle InfraRed Observation of Volcanic Activity), a collaborative project between the Universities of Turin and Florence (Italy) supported by the Centre for Volcanic Risk of the Italian Civil Protection Department (URL: http://www.mirovaweb.it/); Hawai'i Institute of Geophysics and Planetology (HIGP) - MODVOLC Thermal Alerts System, School of Ocean and Earth Science and Technology (SOEST), Univ. of Hawai'i, 2525 Correa Road, Honolulu, HI 96822, USA (URL: http://modis.higp.hawaii.edu/); NASA Worldview (URL: https://worldview.earthdata.nasa.gov/); Sentinel Hub Playground (URL: https://www.sentinel-hub.com/explore/sentinel-playground); Sentinel Hub Playground (URL: https://www.sentinel-hub.com/explore/sentinel-playground).


February 2023 (BGVN 48:02) Citation IconCite this Report

Intermittent thermal anomalies in the Lofia crater during August 2022-January 2023

Tofua Island in the central part of the Tonga Islands group is the emergent summit of a large stratovolcano. Its summit contains a 5-km-wide caldera. Three post-caldera cones were constructed at the northern end of a caldera lake. The easternmost cone has three craters that produced lava flows, some of which have traveled into the caldera lake. The largest and northernmost of the cones, Lofia, has been the source of previous eruptions dating back to the 18th century. The current eruption period began in October 2015 and has more recently consisted of intermittent thermal anomalies in the Lofia crater (BGVN 47:08). This report covers continued thermal activity in the Lofia crater during August 2022 through January 2023 using information primarily from satellite data.

Intermittent hotspots were detected by Sentinel-2 infrared satellite imagery, the MODVOLC infrared satellite data using NASA’s MODIS instrument, and Suomi NPP/VIIRS sensor data (figure 17). Sentinel-2 imagery showed a bright thermal anomaly in the Lofia crater 1-5 times each month during the reporting period, though some days the summit was not visible due to cloudy weather (figure 18). A total of four thermal alerts were detected by the MODVOLC system on 12 August 2022, 18 September, and 2 and 18 January 2023. There was a total of 46 days of hotspots during the reporting period that ranged from 4-10 each month in Suomi NPP/VIIRS data.

Figure (see Caption) Figure 17. Timeline summary of thermal activity at Tofua detected using satellite data from August 2022 through January 2023. The dates indicated represent detected thermal anomalies for Sentinel-2, MODVOLC, and VIIRS data. White areas indicate no activity was observed, which may also be due to cloud cover. Each cell represents one calendar day. Data courtesy of Sentinel Hub Playground, HIGP - MODVOLC Thermal Alerts System, and NASA Worldview using the “Fire and Thermal Anomalies” layer.
Figure (see Caption) Figure 18. Sentinel-2 infrared satellite imagery showed a persistent bright thermal anomaly (bright yellow-orange) in the Lofia crater at Tofua during August 2022 through January 2023. The black color at the bottom center of the images is the crater lake. Images were taken on 20 August 2022 (top left), 4 September 2022 (top right), 24 October 2022 (middle left), 8 November 2022 (middle right), 3 December 2022 (bottom left), and 12 January 2023 (bottom right). Images with "Atmospheric penetration" (bands 12, 11, 8A) rendering. Courtesy of Sentinel Hub Playground.

Information Contacts: MIROVA (Middle InfraRed Observation of Volcanic Activity), a collaborative project between the Universities of Turin and Florence (Italy) supported by the Centre for Volcanic Risk of the Italian Civil Protection Department (URL: http://www.mirovaweb.it/); Hawai'i Institute of Geophysics and Planetology (HIGP) - MODVOLC Thermal Alerts System, School of Ocean and Earth Science and Technology (SOEST), Univ. of Hawai'i, 2525 Correa Road, Honolulu, HI 96822, USA (URL: http://modis.higp.hawaii.edu/); NASA Worldview (URL: https://worldview.earthdata.nasa.gov/); Sentinel Hub Playground (URL: https://www.sentinel-hub.com/explore/sentinel-playground).

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.

Eruptive History

There is data available for 11 confirmed Holocene eruptive periods.

2015 Oct 2 - 2024 Mar 1 (continuing) Confirmed Eruption Max VEI: 0

Episode 1 | Lava Lake Episode Lofia crater
2015 Oct 2 - 2024 Mar 1 (continuing) Evidence from Observations: Reported

List of 199 Events for Episode 1 at Lofia crater

Start Date End Date Event Type Event Remarks
2015 Oct 2    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2015 Oct 2    - - - - VEI (Explosivity Index) VEI 0
2015 Nov 15    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2015 Dec 5    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2016 Mar 4    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2016 Mar 24    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2016 May 23    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2016 Sep 20    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2016 Nov 9    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2016 Nov 19    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2016 Dec 1    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2016 Dec 9    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2016 Dec 29    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2017 Jan 8    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2017 Apr 5    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2017 Jun 7    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2017 Jul 12    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2017 Jul 17    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2017 Jul 22    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2017 Aug 1    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2017 Aug 6    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2017 Oct 5    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2017 Oct 30    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2017 Nov 19    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2017 Dec 9    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2017 Dec 19    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Feb 2    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Feb 17    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Feb 22    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Feb 27    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Mar 14    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Mar 19    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Mar 19    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2018 Mar 24    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Apr 8    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Apr 18    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 May 3    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 May 13    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 May 23    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Jun 12    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Jun 17    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Jul 22    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Aug 1    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Aug 6    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Aug 21    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Oct 30    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Nov 19    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Nov 24    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Nov 29    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2018 Dec 9    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Jan 13    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Jan 23    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Feb 3    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2019 Feb 17    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Feb 22    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Mar 24    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Jun 20 2019 Jun 23 Thermal Anomaly Seven MODVOLC thermal alerts were issued.
2019 Jun 22    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Jun 27    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Jul 17    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Jul 22    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Aug 26    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Sep 5    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Sep 20    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Oct 5    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Oct 10    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Oct 30    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Nov 9    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Nov 14    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Nov 19    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Nov 24    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Dec 9    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Dec 14    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Dec 19    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2019 Dec 24    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Jan 3    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Jan 8    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Jan 18    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Jan 28    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Feb 2    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Feb 17    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Mar 3    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Mar 8    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Mar 23    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Apr 7    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Apr 12    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Apr 17    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 May 2    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 May 17    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 May 22    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 May 27    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Jun 11    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Jun 16    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Jun 26    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Jul 1    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Jul 11    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Jul 16    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Jul 21    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Aug 10    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Aug 15    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Aug 25    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Sep 4    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Sep 24    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Oct 9    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Oct 14    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Nov 8    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Nov 23    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Dec 3    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2020 Dec 8    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Jan 12    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Jan 17    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Feb 16    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Feb 17    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Feb 21    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Feb 24 2021 Feb 27 Thermal Anomaly Six MODVOLC thermal alerts were issued.
2021 Mar 3    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Mar 8    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Mar 13    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Mar 13    - - - - Thermal Anomaly Two MODVOLC thermal alerts were issued.
2021 Mar 18    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Mar 28    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Mar 31    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Apr 2    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Apr 5    - - - - Thermal Anomaly Three MODVOLC thermal alerts were issued.
2021 Apr 7    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Apr 10    - - - - Thermal Anomaly Two MODVOLC thermal alerts were issued.
2021 Apr 13    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Apr 16    - - - - Thermal Anomaly Two MODVOLC thermal alerts were issued.
2021 Apr 17    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Apr 19    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Apr 22    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Apr 26    - - - - Thermal Anomaly Two MODVOLC thermal alerts were issued.
2021 May 2    - - - - Thermal Anomaly Two MODVOLC thermal alerts were issued.
2021 May 12    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 May 17    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 May 27    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 May 27    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Jun 4 2021 Jun 5 Thermal Anomaly Four MODVOLC thermal alerts were issued.
2021 Jun 6    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Jun 10    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Jun 21    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Jun 22 2021 Jun 24 Thermal Anomaly Two MODVOLC thermal alerts were issued.
2021 Jun 26    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Jun 28    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Jul 6    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Jul 11    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Jul 16    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Jul 21    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Jul 24    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Aug 5    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Aug 15    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Aug 15    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Aug 30    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Sep 1    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Sep 8    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Sep 14    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Sep 19    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Sep 24    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Oct 2    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2021 Oct 12 2021 Oct 14 Thermal Anomaly Three MODVOLC thermal alerts were issued.
2021 Oct 14    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Oct 19    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Oct 24    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Nov 8    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Nov 28    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Nov 29    - - - - Thermal Anomaly Two MODVOLC thermal alerts were issued.
2021 Dec 18    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2021 Dec 28    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Jan 12    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Jan 17    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Jan 22    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Jan 27    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Feb 11    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Feb 17    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2022 Feb 21    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Feb 24    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2022 Mar 3    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Mar 8    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Mar 13    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Mar 18    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Mar 23    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Mar 30    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2022 Apr 2    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Apr 12    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Apr 17    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Apr 27    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 May 6    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2022 May 12    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 May 22    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Jun 6    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Jun 11    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Jun 16    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Jun 21    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Jun 26    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Jul 11    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Jul 16    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Jul 21    - - - - Thermal Anomaly A thermal anomaly was present in Sentinel-2 satellite imagery.
2022 Aug 12    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.
2022 Sep 18    - - - - Thermal Anomaly A MODVOLC thermal alert was issued.

2004 Mar 19 - 2014 Oct 18 Confirmed Eruption Max VEI: 1 (?)

Episode 1 | Eruption Episode Lofia crater
2004 Mar 19 - 2014 Oct 18 Evidence from Observations: Reported

List of 27 Events for Episode 1 at Lofia crater

Start Date End Date Event Type Event Remarks
   - - - -    - - - - VEI (Explosivity Index)
2004 Mar 19    - - - - Thermal Anomaly
2004 May 10    - - - - Thermal Anomaly
2004 May 29    - - - - Thermal Anomaly
2004 Oct    - - - - Explosion
2004 Oct    - - - - Scoria
2004 Oct    - - - - Observation Nicole Keller: "The only fumaroles were located inside Lofia crater. Every few minutes there was a rumbling, and every now and again (1-2/hour) there was a bigger explosion ejecting juvenile scoria over the crater rim."
2005 Aug 13    - - - - Observation Richard Crowley visited and reported seeing lava bubbling in a crater vent.
2006 May    - - - - Lava lake Orange glow in one crater vents during May-June 2006.
2008 Mar 7    - - - - Thermal Anomaly March 7 (twice).
2008 Jun 21    - - - - Thermal Anomaly June 21-23.
2008 Jul 4    - - - - Thermal Anomaly July 4
2008 Aug 22    - - - - Thermal Anomaly August 22-23.
2008 Nov 21    - - - - Thermal Anomaly November 21 (twice).
2009 Mar 8    - - - - Thermal Anomaly
2009 Mar 10 ± 1 days    - - - - Explosion
2009 Mar 10 ± 1 days    - - - - Bombs
2009 Mar 20    - - - - Observation Swiss adventurer Xavier Rosset posted an audio dialog on 13 March 2009 referring to his visit the preceding week, although the exact date of observation was unclear. The crater was 80-100 m deep and the same in diameter. Three openings of undetermined size displayed an orange glow. Lava ejections from these vents rose 10-50 m high accompanied by loud noises. Rosset's 27 March dialog discusses a strong earthquake in the region on 20 March, which caused several rockfalls on the island. He visited the volcano in the afternoon and, looking into the active crater, saw few noticeable changes.
2010 Apr 24    - - - - Lava lake
2010 Apr 24    - - - - Bombs
2010 Apr 24    - - - - Observation Sailors who went to the crater rim observed a small active vent at the bottom of the Lofia crater. Ledges were also draped with ash.
2011 Nov 4    - - - - Thermal Anomaly Two MODVOLC alerts.
2012 Mar 6    - - - - Thermal Anomaly March 6, 9, and 22.
2012 Sep 1    - - - - Thermal Anomaly September 1
2013 Jan 20    - - - - Thermal Anomaly January 20 and 23.
2013 Aug 25    - - - - Thermal Anomaly August 25.
2013 Sep 15    - - - - Thermal Anomaly September 15.

[ 1993 Apr 29 ] Uncertain Eruption

Episode 1 | Eruption Episode Northern part of caldera
1993 Apr 29 - Unknown Evidence from Unknown

List of 1 Events for Episode 1 at Northern part of caldera

Start Date End Date Event Type Event Remarks
1993 Apr 29    - - - - VEI (Explosivity Index)

1958 Dec 31 ± 120 days - 1960 Jul 2 (?) ± 182 days Confirmed Eruption Max VEI: 2

Episode 1 | Eruption Episode Northern part of caldera
1958 Dec 31 ± 120 days - 1960 Jul 2 (?) ± 182 days Evidence from Observations: Reported

List of 3 Events for Episode 1 at Northern part of caldera

Start Date End Date Event Type Event Remarks
   - - - -    - - - - Explosion
   - - - -    - - - - Lava flow Uncertain
1958 Dec 31 ± 120 days    - - - - VEI (Explosivity Index)

1906 Dec Confirmed Eruption Max VEI: 2

Episode 1 | Eruption Episode Northern part of caldera
1906 Dec - Unknown Evidence from Observations: Reported

List of 3 Events for Episode 1 at Northern part of caldera

Start Date End Date Event Type Event Remarks
   - - - -    - - - - Explosion
   - - - -    - - - - Lava flow
1906 Dec    - - - - VEI (Explosivity Index)

1906 Jan - 1906 Feb Confirmed Eruption Max VEI: 2

Episode 1 | Eruption Episode Northern part of caldera
1906 Jan - 1906 Feb Evidence from Observations: Reported

List of 4 Events for Episode 1 at Northern part of caldera

Start Date End Date Event Type Event Remarks
   - - - -    - - - - Explosion
   - - - -    - - - - Lava flow
   - - - -    - - - - Blocks
1906 Jan    - - - - VEI (Explosivity Index)

1885 Oct (in or before) Confirmed Eruption Max VEI: 2

Episode 1 | Eruption Episode
1885 Oct (in or before) - Unknown Evidence from Observations: Reported

List of 2 Events for Episode 1

Start Date End Date Event Type Event Remarks
   - - - -    - - - - Explosion
1885 Oct
(in or before)
   - - - - VEI (Explosivity Index)

1854 Confirmed Eruption Max VEI: 2

Episode 1 | Eruption Episode
1854 - Unknown Evidence from Observations: Reported

List of 2 Events for Episode 1

Start Date End Date Event Type Event Remarks
   - - - -    - - - - Explosion
1854    - - - - VEI (Explosivity Index)

1847 Jul 10 (in or before) Confirmed Eruption Max VEI: 1

Episode 1 | Eruption Episode
1847 Jul 10 (in or before) - Unknown Evidence from Observations: Reported

List of 3 Events for Episode 1

Start Date End Date Event Type Event Remarks
   - - - -    - - - - Volcanic "smoke"
   - - - -    - - - - Flames
   - - - -    - - - - VEI (Explosivity Index)

1845 Jul 1 ± 60 days Confirmed Eruption  

Episode 1 | Eruption Episode
1845 Jul 1 ± 60 days - Unknown Evidence from Observations: Reported

List of 1 Events for Episode 1

Start Date End Date Event Type Event Remarks
   - - - -    - - - - Lava flow

1792 Confirmed Eruption Max VEI: 0

Episode 1 | Eruption Episode
1792 - Unknown Evidence from Observations: Reported

List of 2 Events for Episode 1

Start Date End Date Event Type Event Remarks
   - - - -    - - - - Lava flow
1792    - - - - VEI (Explosivity Index)

1774 Jun Confirmed Eruption Max VEI: 2

Episode 1 | Eruption Episode
1774 Jun - Unknown Evidence from Observations: Reported

List of 2 Events for Episode 1

Start Date End Date Event Type Event Remarks
   - - - -    - - - - Explosion
1774 Jun    - - - - VEI (Explosivity Index)
Deformation History

There is no Deformation History data available for Tofua.

Emission History

There is no Emissions History data available for Tofua.

GVP Map Holdings

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 maps database originated over 30 years ago, but was only recently updated and connected to our main database. We welcome users to tell us if they see incorrect information or other problems with the maps; please use the Contact GVP link at the bottom of the page to send us email.

Smithsonian Sample Collections Database

There are no samples for Tofua in the Smithsonian's NMNH Department of Mineral Sciences Rock and Ore collection.

External Sites