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Report on Hunga Tonga-Hunga Ha'apai (Tonga) — February 2022

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Bulletin of the Global Volcanism Network, vol. 47, no. 2 (February 2022)
Managing Editor: Edward Venzke. Edited by A. Elizabeth Crafford.

Hunga Tonga-Hunga Ha'apai (Tonga) Surtseyan explosions begin on 20 December 2021; large ash plumes and island growth

Please cite this report as:

Global Volcanism Program, 2022. Report on Hunga Tonga-Hunga Ha'apai (Tonga) (Crafford, A.E., and Venzke, E., eds.). Bulletin of the Global Volcanism Network, 47:2. Smithsonian Institution.

Hunga Tonga-Hunga Ha'apai


20.536°S, 175.382°W; summit elev. 114 m

All times are local (unless otherwise noted)

The Hunga Tonga-Hunga Ha’apai volcano includes small islands and shallow submarine reefs along the caldera rim of a much larger submarine edifice in the western South Pacific Ocean (figure 25), west of the main inhabited islands in the Kingdom of Tonga. It is one of 12 confirmed submarine volcanoes along the Tofua Arc, a segment of the larger Tonga-Kermadec volcanic arc. The Tonga-Kermadec arc formed as a result of subduction of the Pacific Plate beneath the Indo-Australian Plate. The capital city of Tonga, Nuku’alofa, is located 65 km S on the island of Tongatapu. New Zealand lies 2,000 km S, and Australia is over 3,000 km SW. Evidence for at least two caldera-forming eruptions was present in the volcanic stratigraphy on the island (Brenna et al, 2022); five eruptions have been documented since 1900. This report provides a summary of previous activity through 2015, followed by information on new eruptive activity that began on 20 December 2021 until a pause in the eruption on 5 January 2022. Subsequent reports will cover details of the large 14-15 January 2022 events. Primary sources of information include the Tonga Geological Services (TGS), Tongan and New Zealand news outlets, the Wellington Volcanic Ash Advisory Center (VAAC), and satellite information from multiple sources.

Eruptive activity during 1912-2015. Eruptions were recorded at Hunga Tonga-Hunga Ha’apai in 1912, 1937, 1988, 2009, and 2014-2015 (figure 26). The eruptions of 1912 and 1937 were located at a group of shallow reefs about 3 km S of Hunga Tonga island (Brenna et al., 2022), on the SE caldera rim. Fisherman witnessed an eruption in June 1988 near the same reefs which included large volumes of dense steam, tephra, and incandescent ejecta (SEAN 13:05). The tephra erupted from three vents, aligned SW-NE, but there was no evidence of an island above sea level after the activity subsided.

In March 2009 a new eruption that lasted for several days was witnessed by airline passengers in the vicinity (BGVN 34:02). Dense steam plumes, both rising vertically and spreading across the water surface, were accompanied by black ash-laden eruption plumes from two separate vents that rose as high as 7.6 km altitude and drifted NE. Pumice rafts drifted tens of kilometers from the site. By the time activity subsided, a new vent had emerged above sea level, extending Hunga Ha’apai island by about 1 km to the S. The crater of the new vent was about 350 m in diameter and began to erode away soon after it formed. The second vent was located immediately W of the island (figure 27). By November 2013 there was no longer any trace of the vents from the 2009 eruption (figure 28).

An eruption during December 2014-January 2015 (BGVN 40:01) built a pyroclastic cone over 100 m in elevation in the area between Hunga Ha’apai and Hunga Tonga islands; it initially created a separate island but was later joined to the others (figure 29) due to water moving the unconsolidated tephra. Fishermen had first observed this eruption in mid-December, and a kilometer-high steam plume was visible from Tongatapu on the 30th. Vigorous emissions of black ash and billowing white clouds were reported on 6 January 2015, with plumes below 2 km altitude. Activity increased during 12-14 January, producing 6-km-high plumes and causing cancellation of numerous airline flights. Repeated explosions ejected rock and ash 400 m above the ocean and produced multiple basal surges that extended up to 1 km out from the vent. Ashfall was noted in a 10 km radius, destroying vegetation on both islands. By 17 January steam emissions were rising to heights of 7-10 km but contained only minor amounts of ash; the new island was quiet when visited by Tongan officials on 24 January.

Bathymetric mapping in April 2016 clarified the extent of the submarine portion of the edifice, which rises more than 2,000 m from the surrounding seafloor (figure 30). No volcanic activity was reported from February 2015 through November 2021; satellite imagery acquired during this time shows gradual erosion of the 2015 cone, and continued growth of the beach areas from ocean currents around the island.

Eruptive activity during 20 December 2021-5 January 2022. Tonga's head geologist, Taaniela Kula, confirmed that an ash eruption from Hunga Tonga-Hunga Ha’apai started at about 0935 local time on 20 December 2021 according to the Matangi Tonga Online news website. The initial plume, described as primarily steam and gas without identifiable ash, and having a 30-km radius, was reported by the Wellington VAAC at about 6 km altitude. Kula reported it rising to 16 km later in the day and drifting N; he also told RNZ Pacific that by the afternoon “ash had dusted the whole of Tonga.” He further noted that the plume had reached the Vava’u Islands (250 km NE) and Fonualei Island (300 km NNE) before 1700, it reached Niuafo’ou (550 km N) by 1900, and Niuatoputapu and Tafahi Islands (550 km NE) by 2100 that evening. On Vava’u loud explosions were noted by Scott Bryan several times a minute for the first 1-2 hours; they continued to be heard for 12 hours after the eruption began. Images from Himawari-8 and Korean GeoKompsat weather satellites, and photography from air passengers, confirmed a high-altitude plume (figure 31).

Lightning in the eruption plume was observed from Nuku’alofa on Tongatapu (65 km SE) overnight on 20-21 December. By the next morning the ash cloud had dispersed and a steam-rich plume at 12.2 km altitude was detected drifting NE in satellite imagery; it was also clearly visible from Tongatapu (figure 32). A Maxar satellite image taken on 21 December confirmed that the new vent was very close to the 2014-2015 site, and also showed dark tephra within the plume (figure 33). Pilots reported intermittent eruption plumes ranging from 6-12 km altitude that day; weather satellites also detected continuous pulses of plumes. Multiple bursts of lightning continued to be reported during the next several evenings, visible from Nuku'alofa and the Kanokupolu coast (figure 34).

The Tonga Geological Services (TGS) reported to Matangi Tonga Online that plumes with sulfur dioxide continued to spread over the Ha'apai, Vava'u, and Niuatoutapu island groups on 22 and 23 December, drifting NNE at altitudes of 8-14 km. They noted that the steam plumes were significantly less dense by the morning of 23 December. The Wellington VAAC reported plumes still visible in satellite imagery at 10.9 km altitude drifting NE early that day but dropping to 6 km altitude later. The first ground-based images of the eruption came from a Tonga Navy crew near the island on 23 December. They recorded Surtseyan explosions ejecting tephra 350 m high, billowing steam plumes rising kilometers, and steam bursts travelling horizontally out from the vent (figure 35). Pulses of steam and gas emissions continued rising to 10.3-12.2 km altitude during 24-27 December, while ash rose only to 3 km; ashfall was confined to the vicinity of the volcano. Tonga’s head geologist reported to RNZ Pacific that satellite images from 25 December showed that the island had grown 300-600 m on the E side, and ash was falling within a 10 km radius. Air travel to Tonga was interrupted by eruption plumes multiple times during the second half of December.

The altitude of the upper-level steam and gas plumes decreased to 9 km during 27-28 December; a pulse later in the day increased the altitude of the ash cloud from 3 to 3.7 km and the steam and gas cloud to 16 km. Matangi Tonga Online reported powerful lightning bursts overnight on 28-29 December, and volcanic ash was detected 1-7 km above sea level. The ash cloud was reported at 6.1 km altitude early on 29 December, but from midday onward, only steam and gas drifting N at 7.6-12.2 km was reported by the Wellington VAAC. TGS reported on 29 December that the eruption continued intermittently throughout the day, with steam and gas plumes containing small amounts of ash drifting NNW at altitudes up to 18 km. Ash was detected in satellite imagery within 40 km of the vent in all directions in the morning. Passengers on a small South Seas Charters boat witnessed multiple Surtseyan explosions on 29 December with jets of black tephra and dense steam rising up and out from the vent, and ash falling from the drifting plumes (figure 36). Several surges of Surtseyan activity, with some periods lasting as long as 30 minutes, occurred overnight during 29-30 December local time; similar activity during the midday of 30 December was photographed by TGS (figures 37 and 38). The ash and steam drifted N, passing to the W of Tofua (90 km NNE), Kao (100 km NNE), and Late (200 km NNE) islands. Rafts of pumice were seen floating in the water several kilometers from the vent (figure 39).

In a public notice released at 0700 on the morning of 31 December, TGS noted that ash had been detected during the prior evening, with the plume drifting N to the W of Ha’apai and Vava’u Islands at altitudes of 4-18 km. Ash was last detected in satellite images 30 km S of Niuafo’ou (550 km N) at 0150 on 31 December. They detected only steam and gas at 0430 later that morning drifting NNE at about 12 km altitude. The following day, 1 January 2022, intermittent gas and steam eruptions continued, but no ash was reported after 1200. Plumes drifted E across the ‘Otu Mu’omu’a Islands of the Ha’apai Group (130 km NE) at an estimated altitude of 12 km. The next morning, 2 January, they drifted ESE across the Tongatapu waters. TGS reported on the morning of 3 January that no ash, steam, or gas emissions had been observed for 24 hours. A small ash plume was detected between 2220 and 2230 that evening at 5-7 km altitude located 5-10 km NE of the volcano. Just after midnight on 4-5 January a minor ash plume was detected at 8 km altitude about 15 km N of the volcano that dissipated after about 30 minutes; this was the last ash emission observed during this series of events.

A substantial sulfur dioxide plume of nearly 9 kilotons was released on 20 December 2021 at the beginning of the eruption; plumes with 6-13 kilotons of SO2 drifted daily over the Pacific Ocean during 22 December-1 January 2022 (figure 40). A large area of pumice rafts around 10 km wide was visible in Sentinel 2 satellite imagery drifting almost 100 km W of the volcano on 2 January 2022 (figure 41). Dark pumice washed up on the northwestern beaches of Tongatapu Island on 5 January (figure 42). A clear satellite image of the island on 7 January 2021 revealed the extent of the growth of Hunga Tonga-Hunga Ha’apai during the eruptive activity of 20 December 2021-5 January 2022 (figure 43). A second subaerial vent had appeared to the E of the original 2015 vent and was surrounded on the E and S by a wide apron of tephra connecting the vent to the older Hunga Tonga Island to the NE.


Cronin S J, Brenna M, Smith I E M, Barker S J, Tost M, Ford M, Tonga’onevai S, Kula T, Vaiomounga R, 2017. New volcanic island unveils explosive past. Eos, 98 (26 June 2017). https://doi.org/10.1029/2017EO076589

Garvin J B, Slayback D A, Ferrini V, Frawley J, Giguere C, Asrar G R, Andersen K, 2018. Monitoring and modeling the rapid evolution of Earth’s newest volcanic island: Hunga Tonga Hunga Ha’apai (Tonga) using high spatial resolution satellite observations . Geophysical Research Letters, 45: 3445-3452. https://doi.org/10.1002/2017GL076621

Brenna M, Cronin S J, Smith I E M, Pontesilli A, Tost M, Barker S, Tonga’onevai S, Kula T, Vaiomounga R, 2022. Post-caldera volcanism reveals shallow priming of an intra-ocean arc andesitic caldera: Hunga volcano, Tonga, SW Pacific. Lithos, 412-413, 106614. https://doi.org/10.1016/j.lithos.2022.106614

Geological Summary. The small andesitic islands of Hunga Tonga and Hunga Ha'apai are part of the western and northern remnants of the rim (~6 km diameter) of a largely submarine caldera located about 30 km SSE of Falcon Island. The topmost sequence of welded and unwelded ignimbrite units from a caldera-forming eruption was 14C dated to 1040-1180 CE (Cronin et al., 2017; Brenna et al. 2022). At least two additional welded pumice-rich ignimbrite units and nonwelded pyroclastic flow deposits, below paleosols and other volcaniclastic deposits, indicated more very large previous eruptions (Cronin et al., 2017; Brenna et al. 2022). Several submarine eruptions have occurred at this caldera system since the first recorded eruption in 1912, including 1937 and S of the islands in 1988. A short eruption in 2009 added land to to Hunga Ha'apai. At that time the two islands were each about 2 km long, displaying inward-facing sea cliffs with lava and tephra layers dipping gently away from the caldera. An eruption during December 2014-January 2015 was centered between the islands, and combined them into one larger structure. Major explosive eruptions in late 2021 initially reshaped the central part of the combined island before stronger activity in mid-January 2022 removed most of the 2014-15 material; an even larger eruption the next day sent an eruption plume high into the stratosphere, triggered shock waves through the atmosphere and tsunami across the Pacific Ocean, and left only small remnants of the islands above the ocean surface.

Information Contacts: Tonga Geological Services, 51 Vaha'akolo Road, Nuku’alofa, Tonga (URL: https://www.facebook.com/tongageologicalservice); Matangi Tonga Online (URL: https://matangitonga.to/); RNZ Pacific (URL: https://www.rnz.co.nz); 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://www.ssd.noaa.gov/VAAC/OTH/NZ/messages.html); Google Earth (URL: https://www.google.com/earth/); Planet Labs, Inc. (URL: https://www.planet.com/); Tanya Harrison, Planet Labs, Inc. (URL: https://twitter.com/tanyaofmars/status/1483560804226109444); Scott Bryan, Queensland University of Technology (QUT), Brisbane, QLD 4001, Australia (URL: https://www.qut.edu.au/about/our-people/academic-profiles/scott.bryan); The Pacific Newsroom (URL: https://www.facebook.com/groups/Pacificnewsroom); Simon Proud (https://twitter.com/simon_sat/status/1472852455708889089); Maxar Technologies (URL: https://www.maxar.com/); Murray Ford (URL: https://twitter.com/mfordNZ/status/1473509942090813441); Alakihihifo Vailala (URL: https://twitter.com/alakihihifo/status/1473997579373318147); NASA Global Sulfur Dioxide Monitoring Page, Atmospheric Chemistry and Dynamics Laboratory, NASA Goddard Space Flight Center (NASA/GSFC), 8800 Greenbelt Road, Goddard MD 20771, USA (URL: https://so2.gsfc.nasa.gov/); Sentinel Hub Playground (URL: https://www.sentinel-hub.com/explore/sentinel-playground); GP Orbassano (URL: https://www.facebook.com/gp.tonga/posts/1742471535946154).