Smithsonian / USGS Weekly Volcanic Activity Report 29 December 2021-4 January 2022

[Rachel Holsteen-Bruyere <rbruyere@xxxxxxx>]

3-3-3-3-3-3-3-3-3-3-3-3-3


From: "Kuhn, Sally" <KUHNS@xxxxxx>


Smithsonian / USGS Weekly Volcanic Activity Report

29 December 2021-4 January 2022



Sally Kuhn Sennert - Weekly Report Editor (kuhns@xxxxxx)

URL: https://urldefense.com/v3/__https://volcano.si.edu/reports_weekly.cfm__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWfHvqGwg$ 
<https://urldefense.com/v3/__https://volcano.si.edu/reports_weekly.cfm__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHeUZa1D9g$>





New Activity/Unrest: Ambae, Vanuatu  | Hunga Tonga-Hunga Ha'apai, Tonga
Islands  | Karangetang, Siau Island (Indonesia)  | Krysuvik-Trolladyngja,
Iceland  | Nyiragongo, DR Congo  | Piton de la Fournaise, Reunion Island
(France)  | Semeru, Eastern Java (Indonesia)



Ongoing Activity: Aira, Kyushu (Japan)  | Davidof, United States  |
Fukutoku-Oka-no-Ba, Volcano Islands (Japan)  | Great Sitkin, Andreanof
Islands (USA)  | Ibu, Halmahera (Indonesia)  | Karymsky, Eastern Kamchatka
(Russia)  | Kilauea, Hawaiian Islands (USA)  | Lewotolok, Lembata Island
(Indonesia)  | Merapi, Central Java (Indonesia)  | Nevado del Ruiz,
Colombia  | Pavlof, United States  | Rincon de la Vieja, Costa Rica  |
Sabancaya, Peru  | Semisopochnoi, Aleutian Islands (USA)  | Sheveluch,
Central Kamchatka (Russia)  | Suwanosejima, Ryukyu Islands (Japan)  |
Yasur, Vanuatu





The Weekly Volcanic Activity Report is a cooperative project between the
Smithsonian's Global Volcanism Program and the US Geological Survey's
Volcano Hazards Program. Updated by 2300 UTC every Wednesday, these reports
are preliminary and subject to change as events are studied in more detail.
This is not a comprehensive list of all of Earth's volcanoes erupting
during the week, but rather a summary of activity at volcanoes that meet
criteria discussed in detail in the "Criteria and Disclaimers" section.
Carefully reviewed, detailed reports about recent activity are published in
issues of the Bulletin of the Global Volcanism Network.



Note that many news agencies do not archive the articles they post on the
Internet, and therefore the links to some sources may not be active. To
obtain information about the cited articles that are no longer available on
the Internet contact the source.







New Activity/Unrest





Ambae  | Vanuatu  | 15.389°S, 167.835°E  | Summit elev. 1496 m



The Vanuatu Meteorology and Geo-Hazards Department (VMGD) stated that
ash-and-gas plumes from Ambae had recently become more noticeable and that
residents had reported minor ashfall on roofs and crops. Webcam images
showed ash plumes drifting ENE at 1730 and 1830 on 2 January. At 0600 on 3
January an ash-and-steam plume rose 5 km, though only the lower portion of
the plume contained ash. At 0730 that same day an ash plume rose almost 1.6
km. The Alert Level remained at 2 (on a scale of 0-5) and the public was
warned to stay outside of the Danger Zone defined as a 2-km radius around
the active vents in Lake Voui and away from drainages during heavy rains.



Geologic Summary. The island of Ambae, also known as Aoba, is a massive
2,500 km3 basaltic shield that is the most voluminous volcano of the New
Hebrides archipelago. A pronounced NE-SW-trending rift zone dotted with
scoria cones gives the 16 x 38 km island an elongated form. A broad
pyroclastic cone containing three crater lakes (Manaro Ngoru, Voui, and
Manaro Lakua) is located at the summit within the youngest of at least two
nested calderas, the largest of which is 6 km in diameter. That large
central edifice is also called Manaro Voui or Lombenben volcano.
Post-caldera explosive eruptions formed the summit craters about 360 years
ago. A tuff cone was constructed within Lake Voui (or Vui) about 60 years
later. The latest known flank eruption, about 300 years ago, destroyed the
population of the Nduindui area near the western coast.



Source: Vanuatu Meteorology and Geo-Hazards Department (VMGD)
https://urldefense.com/v3/__http://www.geohazards.gov.vu/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWI3sC8Bo$ 
<https://urldefense.com/v3/__http://www.geohazards.gov.vu/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHerA7PCyU$>





Hunga Tonga-Hunga Ha'apai  | Tonga Islands  | 20.536°S, 175.382°W  | Summit
elev. 114 m



The eruption at Hunga Tonga-Hunga Ha'apai continued intermittently during
29 December 2021 to 4 January 2022, though by 3 January activity had
significantly decreased. Several surges of Surtseyan activity, with some
periods lasting as long as 30 minutes, occurred during 28-29 December; gas,
steam, and ash plumes rose at least to 12.2 km (40,000 ft) a.s.l. and
drifted N, though the maximum altitude of the ash-rich portion of the plume
was lower. Ashfall was local to areas around the island. Discolored water
and rafts of pumice were visible in areas around the island on 30 December,
and had been observed since the beginning of the eruption. Steam-and-gas
plumes were visible throughout the day, interspersed with occasional tephra
ejections. The plumes rose as high as 12 km (39,400 ft) a.s.l. and drifted
NNE. During the morning of 31 December intermittent plumes of ash, steam,
and gas rose to 3 km (10,000 ft) a.s.l. according to the Wellington VAAC,
though the steam-and-gas portion of the plume rose as high as 18 km (59,000
ft) a.s.l. as stated by the Tonga Meteorological Services. The Met Services
also noted that ash was no longer visible in the emissions starting around
noon.



Steam-and-gas plumes were occasional visible in satellite data during 1-2
January. A small ash plume rose 6-7 km (19,700-23,000 ft) a.s.l. during
2220-2230 on 2 January and drifted 10 m NE, dropping in altitude along the
way. A cyclone that passed through the area during 3-4 January obscured
views of the volcano.



Geologic Summary. The small islands of Hunga Tonga and Hunga Ha'apai cap a
large seamount located about 30 km SSE of Falcon Island. The two linear
andesitic islands are about 2 km long and represent the western and
northern remnants of the rim of a largely submarine caldera lying east and
south of the islands. Hunga Tonga reaches an elevation of about 114 m above
sea level, and both islands display inward-facing sea cliffs with lava and
tephra layers dipping gently away from the submarine caldera. A rocky shoal
3.2 km SE of Hunga Ha'apai and 3 km south of Hunga Tonga marks a
historically active vent. Several submarine eruptions have occurred at
Hunga Tonga-Hunga Ha'apai since the first historical eruption in 1912. An
eruption that began in mid-December 2014 built a new island between the
other two large islands.



Sources: Wellington Volcanic Ash Advisory Center (VAAC)
https://urldefense.com/v3/__http://vaac.metservice.com/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWnqHJu_U$ 
<https://urldefense.com/v3/__http://vaac.metservice.com/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHez3pigCA$>
;

Tonga Geological Services, Government of Tonga
https://urldefense.com/v3/__https://www.facebook.com/tongageologicalservice__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWo7RgFa4$ 
<https://urldefense.com/v3/__https://www.facebook.com/tongageologicalservice__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHeeva60Yc$>
;

Tonga Meteorological Services, Government of Tonga
https://urldefense.com/v3/__https://www.facebook.com/tongametservice__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWq49cEvA$ 
<https://urldefense.com/v3/__https://www.facebook.com/tongametservice__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHe117NmM4$>





Karangetang  | Siau Island (Indonesia)  | 2.781°N, 125.407°E  | Summit
elev. 1797 m



PVMBG reported that incandescence from Karangetangâ??s N crater was
periodically visible during 31 December 2021 to 4 January 2022.
Bluish-white emissions drifted S on 2 January. White-and-gray plumes rose
as high as 200 m during 2-3 January. The Alert Level remained at 2 (on a
scale of 1-4).



Geologic Summary. Karangetang (Api Siau) volcano lies at the northern end
of the island of Siau, about 125 km NNE of the NE-most point of Sulawesi
island. The stratovolcano contains five summit craters along a N-S line. It
is one of Indonesia's most active volcanoes, with more than 40 eruptions
recorded since 1675 and many additional small eruptions that were not
documented in the historical record (Catalog of Active Volcanoes of the
World: Neumann van Padang, 1951). Twentieth-century eruptions have included
frequent explosive activity sometimes accompanied by pyroclastic flows and
lahars. Lava dome growth has occurred in the summit craters; collapse of
lava flow fronts have produced pyroclastic flows.



Source: Pusat Vulkanologi dan Mitigasi Bencana Geologi (PVMBG, also known
as CVGHM) https://urldefense.com/v3/__http://vsi.esdm.go.id/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWif4gjvk$ 
<https://urldefense.com/v3/__http://vsi.esdm.go.id/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHeImRFuAw$>





Krysuvik-Trolladyngja  | Iceland  | 63.917°N, 22.067°W  | Summit elev. 360 m



Icelandic Meteorological Office (IMO) reported that the earthquake swarm at
the Krýsuvík-Trölladyngja volcanic system was ongoing with more than 19,000
earthquakes recorded during 21-28 December. Earthquakes M 4 or above
totaled 14. The number and size of the earthquakes progressively decreased
during 29 December 2021 to 3 January 2022; 200 events were recorded during
0000-1535 on 3 January. The seismicity was located along the same dyke
system that fed the recent eruption at Geldingadalir. The Aviation Color
Code remained at Orange.



Geologic Summary. The Krýsuvík-Trölladyngja volcanic system is described by
the Catalogue of Icelandic Volcanoes as an approximately 50-km-long
composite fissure swarm trending about N38°E, including a 30-km-long swarm
of fissures, with no central volcano. It is one of the volcanic systems
arranged en-echelon along the Reykjanes Peninsula west of Kleifarvatn lake.
The Fagradalsfjall and Krýsuvík fissure swarms are considered splits or
secondary swarms of the Krýsuvíkâ??Trölladyngja volcanic system. Small shield
volcanoes have produced a large portion of the erupted volume within the
system. Several eruptions have taken place since the settlement of Iceland,
including the eruption of a large basaltic lava flow from the Ogmundargigar
crater row around the 12th century. The latest eruption, identified through
tephrochronology, took place during the 14th century.



Source: Icelandic Meteorological Office (IMO) https://urldefense.com/v3/__http://en.vedur.is/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWdsvveZ4$ 
<https://urldefense.com/v3/__http://en.vedur.is/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHegoK3kPw$>





Nyiragongo  | DR Congo  | 1.52°S, 29.25°E  | Summit elev. 3470 m



OVG reported that voluminous gas plumes were visible rising from Nyiragongo
and crater incandescence was visible during 3-5 January. Lava fountaining
and collapses at active vents on the crater floor were observed along with
a growing lava lake. Rumbling was sometimes audible.



Geologic Summary. One of Africa's most notable volcanoes, Nyiragongo
contained a lava lake in its deep summit crater that was active for half a
century before draining catastrophically through its outer flanks in 1977.
The steep slopes of a stratovolcano contrast to the low profile of its
neighboring shield volcano, Nyamuragira. Benches in the steep-walled,
1.2-km-wide summit crater mark levels of former lava lakes, which have been
observed since the late-19th century. Two older stratovolcanoes, Baruta and
Shaheru, are partially overlapped by Nyiragongo on the north and south.
About 100 parasitic cones are located primarily along radial fissures south
of Shaheru, east of the summit, and along a NE-SW zone extending as far as
Lake Kivu. Many cones are buried by voluminous lava flows that extend long
distances down the flanks, which is characterized by the eruption of
foiditic rocks. The extremely fluid 1977 lava flows caused many fatalities,
as did lava flows that inundated portions of the major city of Goma in
January 2002.



Source: Observatoire Volcanologique de Goma (OVG)
https://urldefense.com/v3/__http://observatoirevolcanologiquedegoma.org/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWPQj_6C8$ 
<https://urldefense.com/v3/__http://observatoirevolcanologiquedegoma.org/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHerPv1mV8$>





Piton de la Fournaise  | Reunion Island (France)  | 21.244°S, 55.708°E  |
Summit elev. 2632 m



OVPF reported that the eruption at Piton de la Fournaise continued during
29 December 2021 to 4 January 2022. Weather clouds often obscured views of
the vent, though visual observations were made daily. Low lava fountaining,
with material rarely rising just above the crater rim, was visible on 29
December. A small mound with a vent that had grown at the base of the main
cone was producing gas emissions, and lava advanced through a tube. Lava
fountaining was slightly more intense during 30 December 2021 to 3 January
2022, with lava more frequently rising above the crater rim. Several
breakouts of lava from the tube were noted downstream of the vent. The lava
effusion rate was an estimated 2.3-9 meters per second, with peak rates of
21 meters per second, based on satellite data. Activity at the main cone
decreased during 3-4 January. Lava flows within the first 100 m from the
cone were an estimated 15 m thick. The flow field continued to widen but
had not significantly lengthened.



Geologic Summary. The massive Piton de la Fournaise basaltic shield volcano
on the French island of Réunion in the western Indian Ocean is one of the
world's most active volcanoes. Much of its more than 530,000-year history
overlapped with eruptions of the deeply dissected Piton des Neiges shield
volcano to the NW. Three calderas formed at about 250,000, 65,000, and less
than 5000 years ago by progressive eastward slumping of the volcano.
Numerous pyroclastic cones dot the floor of the calderas and their outer
flanks. Most historical eruptions have originated from the summit and
flanks of Dolomieu, a 400-m-high lava shield that has grown within the
youngest caldera, which is 8 km wide and breached to below sea level on the
eastern side. More than 150 eruptions, most of which have produced fluid
basaltic lava flows, have occurred since the 17th century. Only six
eruptions, in 1708, 1774, 1776, 1800, 1977, and 1986, have originated from
fissures on the outer flanks of the caldera. The Piton de la Fournaise
Volcano Observatory, one of several operated by the Institut de Physique du
Globe de Paris, monitors this very active volcano.



Source: Observatoire Volcanologique du Piton de la Fournaise (OVPF)
https://urldefense.com/v3/__http://www.ipgp.fr/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DW8VFKw9M$ 
<https://urldefense.com/v3/__http://www.ipgp.fr/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHeRNtllYM$>





Semeru  | Eastern Java (Indonesia)  | 8.108°S, 112.922°E  | Summit elev.
3657 m



PVMBG reported that the eruption at Semeru continued during 29 December
2021 to 4 January 2022. Crater incandescence was visible during the nights
of 31 December-4 January. At 0431 on 31 December a pyroclastic flow was
generated from the end of the lava flow and an ash plume that rose 2 km
above the summit drifted N. A pyroclastic flow descended the Kobokan
drainage a maximum distance of 5 km SE on 1 January. Gray-and-white ash
plumes rose as high as 800 m above the summit during 3-4 January and
drifted in multiple directions. A pyroclastic flow traveled 5 km SE. The
Alert Level remained at 3 (on a scale of 1-4). The public was warned to
stay at least 500 m away from Kobokan drainages within 17 km of the summit,
and other drainages originating on Semeru including the Bang, Kembar, and
Sat, due to lahar, avalanche, and pyroclastic flow hazards.



Geologic Summary. Semeru, the highest volcano on Java, and one of its most
active, lies at the southern end of a volcanic massif extending north to
the Tengger caldera. The steep-sided volcano, also referred to as Mahameru
(Great Mountain), rises above coastal plains to the south. Gunung Semeru
was constructed south of the overlapping Ajek-ajek and Jambangan calderas.
A line of lake-filled maars was constructed along a N-S trend cutting
through the summit, and cinder cones and lava domes occupy the eastern and
NE flanks. Summit topography is complicated by the shifting of craters from
NW to SE. Frequent 19th and 20th century eruptions were dominated by
small-to-moderate explosions from the summit crater, with occasional lava
flows and larger explosive eruptions accompanied by pyroclastic flows that
have reached the lower flanks of the volcano.



Source: Pusat Vulkanologi dan Mitigasi Bencana Geologi (PVMBG, also known
as CVGHM) https://urldefense.com/v3/__http://vsi.esdm.go.id/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWif4gjvk$ 
<https://urldefense.com/v3/__http://vsi.esdm.go.id/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHeImRFuAw$>





Ongoing Activity





Aira  | Kyushu (Japan)  | 31.593°N, 130.657°E  | Summit elev. 1117 m



JMA reported that incandescence from Minamidake Crater (at Aira Calderaâ??s
Sakurajima volcano) was visible at night during 27 December 2021 to 3
January 2022. An eruptive event at 2324 on 28 December produced an ash
plume that rose 1.1 km above the crater rim. An eruptive event at 2105 on 1
January 2022 generated ash plumes that rose 1 km and ejected bombs 600-900
m away from the crater. The Alert Level remained at 3 (on a 5-level scale),
and residents were warned to stay 2 km away from the crater.



Geologic Summary. The Aira caldera in the northern half of Kagoshima Bay
contains the post-caldera Sakurajima volcano, one of Japan's most active.
Eruption of the voluminous Ito pyroclastic flow accompanied formation of
the 17 x 23 km caldera about 22,000 years ago. The smaller Wakamiko caldera
was formed during the early Holocene in the NE corner of the Aira caldera,
along with several post-caldera cones. The construction of Sakurajima began
about 13,000 years ago on the southern rim of Aira caldera and built an
island that was finally joined to the Osumi Peninsula during the major
explosive and effusive eruption of 1914. Activity at the Kitadake summit
cone ended about 4850 years ago, after which eruptions took place at
Minamidake. Frequent historical eruptions, recorded since the 8th century,
have deposited ash on Kagoshima, one of Kyushu's largest cities, located
across Kagoshima Bay only 8 km from the summit. The largest historical
eruption took place during 1471-76.



Source: Japan Meteorological Agency (JMA) https://urldefense.com/v3/__http://www.jma.go.jp/jma/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWaMToyVY$ 
<https://urldefense.com/v3/__http://www.jma.go.jp/jma/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHen-Tcais$>





Davidof  | United States  | 51.97°N, 178.33°E  | Summit elev. 328 m



AVO lowered both the Aviation Color Code and the Volcano Alert Level for
Davidof to Unassigned on 31 December, noting that the earthquake swarm that
had begun in early December had subsided. The closest seismometers are
approximately 15 km E, on Little Sitkin Island. Davidof is also monitored
by satellite data and remote infrasound and lightning networks.



Geologic Summary. A cluster of small islands between Segula and Little
Sitkin in the western Aleutians, the largest of which is Davidof, are
remnants of a stratovolcano that collapsed during the late Tertiary,
forming a 2.7-km-wide caldera. The islands include Khvostof, Pyramid, Lopy,
and Davidof; the latter three form the eastern rim of the mostly submarine
caldera, sometimes referred to as the "Aleutian Krakatau." The islands were
constructed above a roughly 100-m-deep submarine platform extending NW to
Segula Island; the floor of the caldera lies 80 m below sea level. The
islands are vegetated, but lava flows are recognizable, and Smith et al.
(1978) suggested a possible Holocene age.



Source: US Geological Survey Alaska Volcano Observatory (AVO)
https://urldefense.com/v3/__https://avo.alaska.edu/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWKfgAED0$ 
<https://urldefense.com/v3/__https://avo.alaska.edu/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHezrmVYSE$>





Fukutoku-Oka-no-Ba  | Volcano Islands (Japan)  | 24.285°N, 141.481°E  |
Summit elev. -29 m



The Japan Coast Guard reported that during a 27 December overflight of
Fukutoku-Oka-no-Ba, observers noted that the island formed in mid-August
had become smaller since 14 December, and had almost eroded below the ocean
surface. No eruptive activity was observed, though brownish water spouted
from the E end of the island. Yellowish-green water and a string of
floating pumice, 400 m long, was circulating 5 km E. Discolored water was
visible around almost the entire coast of Minami-Ioto (5 km SSW).



Geologic Summary. Fukutoku-Oka-no-ba is a submarine volcano located 5 km NE
of the pyramidal island of Minami-Ioto. Water discoloration is frequently
observed from the volcano, and several ephemeral islands have formed in the
20th century. The first of these formed Shin-Ioto ("New Sulfur Island") in
1904, and the most recent island was formed in 1986. The volcano is part of
an elongated edifice with two major topographic highs trending NNW-SSE, and
is a trachyandesitic volcano geochemically similar to Ioto.



Source: Japan Coast Guard https://urldefense.com/v3/__http://www.kaiho.mlit.go.jp/index.html__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWCI9mGwU$ 
<https://urldefense.com/v3/__http://www.kaiho.mlit.go.jp/index.html__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHe-VJ6oCU$>





Great Sitkin  | Andreanof Islands (USA)  | 52.076°N, 176.13°W  | Summit
elev. 1740 m



AVO reported that slow lava effusion at Great Sitkin continued during 29
December 2021 to 4 January 2022 along with very low and persistent
seismicity. Satellite images acquired on 29 December 2021 and 1 January
2022 showed that the lava flows on the W flanks had advanced. The Aviation
Color Code and the Volcano Alert Level remained at Orange and Watch,
respectively.



Geologic Summary. The Great Sitkin volcano forms much of the northern side
of Great Sitkin Island. A younger parasitic volcano capped by a small, 0.8
x 1.2 km ice-filled summit caldera was constructed within a large
late-Pleistocene or early Holocene scarp formed by massive edifice failure
that truncated an ancestral volcano and produced a submarine debris
avalanche. Deposits from this and an older debris avalanche from a source
to the south cover a broad area of the ocean floor north of the volcano.
The summit lies along the eastern rim of the younger collapse scarp.
Deposits from an earlier caldera-forming eruption of unknown age cover the
flanks of the island to a depth up to 6 m. The small younger caldera was
partially filled by lava domes emplaced in 1945 and 1974, and five small
older flank lava domes, two of which lie on the coastline, were constructed
along northwest- and NNW-trending lines. Hot springs, mud pots, and
fumaroles occur near the head of Big Fox Creek, south of the volcano.
Historical eruptions have been recorded since the late-19th century.



Source: US Geological Survey Alaska Volcano Observatory (AVO)
https://urldefense.com/v3/__https://avo.alaska.edu/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWKfgAED0$ 
<https://urldefense.com/v3/__https://avo.alaska.edu/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHezrmVYSE$>





Ibu  | Halmahera (Indonesia)  | 1.488°N, 127.63°E  | Summit elev. 1325 m



PVMBG reported that during 31 December 2021 to 4 January 2022
gray-and-white ash plumes from Ibu rose 200-1,000 m above the summit.
Avalanches were detected daily, though not visually observed. The Alert
Level remained at a 2 (on a scale of 1-4), and the public was warned to
stay at least 2 km away from the active crater and 3.5 km away on the N
side.



Geologic Summary. The truncated summit of Gunung Ibu stratovolcano along
the NW coast of Halmahera Island has large nested summit craters. The inner
crater, 1 km wide and 400 m deep, has contained several small crater lakes.
The 1.2-km-wide outer crater is breached on the N, creating a steep-walled
valley. A large cone grew ENE of the summit, and a smaller one to the WSW
has fed a lava flow down the W flank. A group of maars is located below the
N and W flanks. The first observed and recorded eruption was a small
explosion from the summit crater in 1911. Eruptive activity began again in
December 1998, producing a lava dome that eventually covered much of the
floor of the inner summit crater along with ongoing explosive ash emissions.



Source: Pusat Vulkanologi dan Mitigasi Bencana Geologi (PVMBG, also known
as CVGHM) https://urldefense.com/v3/__http://vsi.esdm.go.id/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWif4gjvk$ 
<https://urldefense.com/v3/__http://vsi.esdm.go.id/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHeImRFuAw$>





Karymsky  | Eastern Kamchatka (Russia)  | 54.049°N, 159.443°E  | Summit
elev. 1513 m



KVERT reported that a thermal anomaly over Karymsky was visible in
satellite images during 28-30 December. The Aviation Color Code remained at
Orange (the second highest level on a four-color scale). Dates are based on
UTC times; specific events are in local time where noted.



Geologic Summary. Karymsky, the most active volcano of Kamchatka's eastern
volcanic zone, is a symmetrical stratovolcano constructed within a
5-km-wide caldera that formed during the early Holocene. The caldera cuts
the south side of the Pleistocene Dvor volcano and is located outside the
north margin of the large mid-Pleistocene Polovinka caldera, which contains
the smaller Akademia Nauk and Odnoboky calderas. Most seismicity preceding
Karymsky eruptions originated beneath Akademia Nauk caldera, located
immediately south. The caldera enclosing Karymsky formed about 7600-7700
radiocarbon years ago; construction of the stratovolcano began about 2000
years later. The latest eruptive period began about 500 years ago,
following a 2300-year quiescence. Much of the cone is mantled by lava flows
less than 200 years old. Historical eruptions have been vulcanian or
vulcanian-strombolian with moderate explosive activity and occasional lava
flows from the summit crater.



Source: Kamchatkan Volcanic Eruption Response Team (KVERT)
https://urldefense.com/v3/__http://www.kscnet.ru/ivs/kvert/index_eng.php__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWtcD8Ljw$ 
<https://urldefense.com/v3/__http://www.kscnet.ru/ivs/kvert/index_eng.php__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHeUtMRp4c$>





Kilauea  | Hawaiian Islands (USA)  | 19.421°N, 155.287°W  | Summit elev.
1222 m



HVO reported that lava effusion intermittently continued from a vent in the
lower W wall of Kilaueaâ??s Halema`uma`u Crater during 29 December 2021 to 4
January 2022. Effusion at the vent paused on the evening of 29 December and
the lake mostly crusted over, though lava oozed over the edge of the lake
margins in several areas, suggesting a continuing supply of molten lava
below the crust. Parts of the crusted lake overturned during 2000-2300.
Occasional minor activity at the vent was visible during the morning of 30
December, and lava again began effusing form the vent at 1445. Several
large lava overflows of the lake occurred in the evening and bright glow
was visible in the evening sky from Volcano to lower Puna. Lava effusion
was low during 1-2 January and by 0200 on 2 January the lake once again
began to crust over. A large breakout along the N margin of the lake was
active. Effusion ceased during 2-4 January; the lake was mostly crusted
over except a few overturns N of the vent were noted. The Aviation Color
Code and the Volcano Alert Level remained at Orange and Watch, respectively.



Geologic Summary. Kilauea, which overlaps the E flank of the massive Mauna
Loa shield volcano, has been Hawaii's most active volcano during historical
time. Eruptions are prominent in Polynesian legends; written documentation
extending back to only 1820 records frequent summit and flank lava flow
eruptions that were interspersed with periods of long-term lava lake
activity that lasted until 1924 at Halemaumau crater, within the summit
caldera. The 3 x 5 km caldera was formed in several stages about 1500 years
ago and during the 18th century; eruptions have also originated from the
lengthy East and SW rift zones, which extend to the sea on both sides of
the volcano. About 90% of the surface of the basaltic shield volcano is
formed of lava flows less than about 1100 years old; 70% of the volcano's
surface is younger than 600 years. A long-term eruption from the East rift
zone that began in 1983 has produced lava flows covering more than 100 km2,
destroying nearly 200 houses and adding new coastline to the island.



Source: US Geological Survey Hawaiian Volcano Observatory (HVO)
https://urldefense.com/v3/__https://volcanoes.usgs.gov/observatories/hvo/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWpThB6aA$ 
<https://urldefense.com/v3/__https://volcanoes.usgs.gov/observatories/hvo/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHe5HOBkzQ$>





Lewotolok  | Lembata Island (Indonesia)  | 8.274°S, 123.508°E  | Summit
elev. 1431 m



PVMBG reported that the eruption at Lewotolok continued during 31 December
2021 to 4 January 2022. White-and-gray ash plumes that were sometimes dense
rose as high as 600 m above the summit. Incandescent material was
occasionally ejected from the vent up to 300 m from the vent and rumbling
was sometimes heard. The Alert Level remained at 3 (on a scale of 1-4) and
the public was warned to stay 3 km away from the summit crater.



Geologic Summary. The Lewotolok (or Lewotolo) stratovolcano occupies the
eastern end of an elongated peninsula extending north into the Flores Sea,
connected to Lembata (formerly Lomblen) Island by a narrow isthmus. It is
symmetrical when viewed from the north and east. A small cone with a
130-m-wide crater constructed at the SE side of a larger crater forms the
volcano's high point. Many lava flows have reached the coastline. Eruptions
recorded since 1660 have consisted of explosive activity from the summit
crater.



Source: Pusat Vulkanologi dan Mitigasi Bencana Geologi (PVMBG, also known
as CVGHM) https://urldefense.com/v3/__http://vsi.esdm.go.id/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWif4gjvk$ 
<https://urldefense.com/v3/__http://vsi.esdm.go.id/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHeImRFuAw$>





Merapi  | Central Java (Indonesia)  | 7.54°S, 110.446°E  | Summit elev.
2910 m



BPPTKG reported no notable morphological changes to Merapiâ??s summit lava
dome, though the dome just below the SW rim had decreased about 3 m in
height during 24-30 December. The estimated dome volumes were over 1.63
million cubic meters for the SW dome and just over 3 million cubic meters
for the summit dome. The intensity of the seismic signals remained at high
levels. As many as 175 lava avalanches traveled a maximum of 2 km SW down
the Bebeng drainage, and two pyroclastic flows traveled a maximum of 1.8 km
SW. The Alert Level remained at 3 (on a scale of 1-4), and the public was
warned to stay 3-5 km away from the summit based on location.



Geologic Summary. Merapi, one of Indonesia's most active volcanoes, lies in
one of the world's most densely populated areas and dominates the landscape
immediately north of the major city of Yogyakarta. It is the youngest and
southernmost of a volcanic chain extending NNW to Ungaran volcano. Growth
of Old Merapi during the Pleistocene ended with major edifice collapse
perhaps about 2,000 years ago, leaving a large arcuate scarp cutting the
eroded older Batulawang volcano. Subsequent growth of the steep-sided Young
Merapi edifice, its upper part unvegetated due to frequent activity, began
SW of the earlier collapse scarp. Pyroclastic flows and lahars accompanying
growth and collapse of the steep-sided active summit lava dome have
devastated cultivated lands on the western-to-southern flanks and caused
many fatalities.



Source: Balai Penyelidikan dan Pengembangan Teknologi Kebencanaan Geologi
(BPPTKG) https://urldefense.com/v3/__http://www.merapi.bgl.esdm.go.id/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DW5q44ULM$ 
<https://urldefense.com/v3/__http://www.merapi.bgl.esdm.go.id/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHer-A6b-o$>





Nevado del Ruiz  | Colombia  | 4.892°N, 75.324°W  | Summit elev. 5279 m



Servicio Geológico Colombianoâ??s (SGC) Observatorio Vulcanológico y
Sismológico de Manizales reported that during 28 December 2021 to 3 January
2022 seismicity at Nevado del Ruiz was at similar levels to the week
before, characterized by periods of continuous volcanic tremor, long-period
events, and very-long-period earthquakes, indicating movement of fluids.
These earthquakes occurred in the vicinity of Arenas Crater. Additional
earthquake signals indicating rock fracturing were located in the SW, SE,
and NE parts of the volcano. Several periods of â??drumbeatâ?? seismicity,
indicting growth of the lava dome, were recorded during 29-30 December and
3 January. Several low-level thermal anomalies were identified in satellite
images during the week. The highest gas-and-steam plume rose about 1.2 km
above the summit, recorded on 3 January. The Alert Level remained at 3
(Yellow; the second lowest level on a four-color scale).



Geologic Summary. Nevado del Ruiz is a broad, glacier-covered volcano in
central Colombia that covers more than 200 km2. Three major edifices,
composed of andesitic and dacitic lavas and andesitic pyroclastics, have
been constructed since the beginning of the Pleistocene. The modern cone
consists of a broad cluster of lava domes built within the caldera of an
older edifice. The 1-km-wide, 240-m-deep Arenas crater occupies the summit.
The prominent La Olleta pyroclastic cone located on the SW flank may also
have been active in historical time. Steep headwalls of massive landslides
cut the flanks. Melting of its summit icecap during historical eruptions,
which date back to the 16th century, has resulted in devastating lahars,
including one in 1985 that was South America's deadliest eruption.



Source: Servicio Geológico Colombiano (SGC)
https://urldefense.com/v3/__https://www2.sgc.gov.co/volcanes/index.html__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWIuO1Ato$ 
<https://urldefense.com/v3/__https://www2.sgc.gov.co/volcanes/index.html__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHeIYsPSVo$>





Pavlof  | United States  | 55.417°N, 161.894°W  | Summit elev. 2493 m



AVO reported that seismicity at Pavlof was elevated during 29 December 2021
to 4 January 2022 and was characterized by daily periods of tremor. Minor
ash emissions were visible during 28-29 December and small explosions were
occasionally recorded during 29-30 December. Thermal emissions continued to
be low, and elevated surface temperatures consistent with a hot vent region
were identified in satellite images during 1-3 January. During 3-4 January
lava was active in an area within 100 m of the SE vent. The Volcano Alert
Level remained at Watch and the Aviation Color Code remained at Orange.



Geologic Summary. The most active volcano of the Aleutian arc, Pavlof is a
2519-m-high Holocene stratovolcano that was constructed along a line of
vents extending NE from the Emmons Lake caldera. Pavlof and its twin
volcano to the NE, 2142-m-high Pavlof Sister, form a dramatic pair of
symmetrical, glacier-covered stratovolcanoes that tower above Pavlof and
Volcano bays. A third cone, Little Pavlof, is a smaller volcano on the SW
flank of Pavlof volcano, near the rim of Emmons Lake caldera. Unlike Pavlof
Sister, Pavlof has been frequently active in historical time, typically
producing Strombolian to Vulcanian explosive eruptions from the summit
vents and occasional lava flows. The active vents lie near the summit on
the north and east sides. The largest historical eruption took place in
1911, at the end of a 5-year-long eruptive episode, when a fissure opened
on the N flank, ejecting large blocks and issuing lava flows.



Source: US Geological Survey Alaska Volcano Observatory (AVO)
https://urldefense.com/v3/__https://avo.alaska.edu/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWKfgAED0$ 
<https://urldefense.com/v3/__https://avo.alaska.edu/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHezrmVYSE$>





Rincon de la Vieja  | Costa Rica  | 10.83°N, 85.324°W  | Summit elev. 1916 m



OVSICORI-UNA reported that at 1437 on 1 January a small eruption at Rincón
de la Vieja produced a plume that rose 50 m above the crater rim. A small
eruption was recorded by the seismic network at 0431 on 4 January, though
weather clouds prevented visual confirmation. The amplitude of the seismic
signal was similar to those recorded for events occurring in the previous
few weeks.



Geologic Summary. Rincón de la Vieja, the largest volcano in NW Costa Rica,
is a remote volcanic complex in the Guanacaste Range. The volcano consists
of an elongated, arcuate NW-SE-trending ridge constructed within the
15-km-wide early Pleistocene Guachipelín caldera, whose rim is exposed on
the south side. Sometimes known as the "Colossus of Guanacaste," it has an
estimated volume of 130 km3 and contains at least nine major eruptive
centers. Activity has migrated to the SE, where the youngest-looking
craters are located. The twin cone of Santa María volcano, the highest peak
of the complex, is located at the eastern end of a smaller, 5-km-wide
caldera and has a 500-m-wide crater. A Plinian eruption producing the 0.25
km3 Río Blanca tephra about 3,500 years ago was the last major magmatic
eruption. All subsequent eruptions, including numerous historical eruptions
possibly dating back to the 16th century, have been from the prominent
active crater containing a 500-m-wide acid lake located ENE of Von Seebach
crater.



Source: Observatorio Vulcanologico y Sismologico de Costa Rica-Universidad
Nacional (OVSICORI-UNA) https://urldefense.com/v3/__http://www.ovsicori.una.ac.cr/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWAFMB2t4$ 
<https://urldefense.com/v3/__http://www.ovsicori.una.ac.cr/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHe9txXjyw$>





Sabancaya  | Peru  | 15.787°S, 71.857°W  | Summit elev. 5960 m



Instituto Geofísico del Perú (IGP) reported a daily average of 32
explosions at Sabancaya during 27 December 2021 to 2 January 2022.
Gas-and-ash plumes rose as high as 2.8 km above the summit and drifted NW,
W, and SW. Eight thermal anomalies originating from the lava dome in the
summit crater were identified in satellite data. Minor inflation continued
to be detected near Hualca Hualca (4 km N). The Alert Level remained at
Orange (the second highest level on a four-color scale) and the public were
warned to stay outside of a 12-km radius.



Geologic Summary. Sabancaya, located in the saddle NE of Ampato and SE of
Hualca Hualca volcanoes, is the youngest of these volcanic centers and the
only one to have erupted in historical time. The oldest of the three,
Nevado Hualca Hualca, is of probable late-Pliocene to early Pleistocene
age. The name Sabancaya (meaning "tongue of fire" in the Quechua language)
first appeared in records in 1595 CE, suggesting activity prior to that
date. Holocene activity has consisted of Plinian eruptions followed by
emission of voluminous andesitic and dacitic lava flows, which form an
extensive apron around the volcano on all sides but the south. Records of
historical eruptions date back to 1750.



Source: Instituto Geofísico del Perú (IGP) https://urldefense.com/v3/__http://www.igp.gob.pe/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWPdPt3OA$ 
<https://urldefense.com/v3/__http://www.igp.gob.pe/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHeGiuzmj4$>





Semisopochnoi  | Aleutian Islands (USA)  | 51.93°N, 179.58°E  | Summit
elev. 1221 m



AVO reported that low-level eruptive activity and elevated seismicity at
Semisopochnoi's North Cerberus crater continued during 29 December 2021 to
4 January 2022. Minor ash-and-steam emissions were visible in webcam images
during 28-29 December. Ash plumes observed in webcam and satellite images
on 31 December rose to 1.5 km (5,000 ft) a.s.l. and drifted as far as 100
km NE. Ash emissions observed in webcam images during daylight hours on 1
and 2 January were being blown down the flank by high winds. Small
explosions were detected in seismic data during 2-4 January, though cloud
cover obscured views. The Aviation Color Code remained at Orange and the
Volcano Alert Level remained at Watch.



Geologic Summary. Semisopochnoi, the largest subaerial volcano of the
western Aleutians, is 20 km wide at sea level and contains an 8-km-wide
caldera. It formed as a result of collapse of a low-angle, dominantly
basaltic volcano following the eruption of a large volume of dacitic
pumice. The high point of the island is Anvil Peak, a double-peaked
late-Pleistocene cone that forms much of the island's northern part. The
three-peaked Mount Cerberus was constructed within the caldera during the
Holocene. Each of the peaks contains a summit crater; lava flows on the N
flank of Cerberus appear younger than those on the south side. Other
post-caldera volcanoes include the symmetrical Sugarloaf Peak SSE of the
caldera and Lakeshore Cone, a small cinder cone at the edge of Fenner Lake
in the NE part of the caldera. Most documented eruptions have originated
from Cerberus, although Coats (1950) considered that both Sugarloaf and
Lakeshore Cone could have been recently active.



Source: US Geological Survey Alaska Volcano Observatory (AVO)
https://urldefense.com/v3/__https://avo.alaska.edu/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWKfgAED0$ 
<https://urldefense.com/v3/__https://avo.alaska.edu/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHezrmVYSE$>





Sheveluch  | Central Kamchatka (Russia)  | 56.653°N, 161.36°E  | Summit
elev. 3283 m



KVERT reported that a thermal anomaly over Sheveluch was identified in
satellite images during 24-31 December. Intense steam-and-gas emissions
were visible. Ash plumes rose as high as 4.5 km (14,800 ft) a.s.l. and
drifted 110 km NW and NE during 24-25, 27, and 30 December. The Aviation
Color Code remained at Orange (the second highest level on a four-color
scale). Dates are based on UTC times; specific events are in local time
where noted.



Geologic Summary. The high, isolated massif of Sheveluch volcano (also
spelled Shiveluch) rises above the lowlands NNE of the Kliuchevskaya
volcano group. The 1300 km3 volcano is one of Kamchatka's largest and most
active volcanic structures. The summit of roughly 65,000-year-old Stary
Shiveluch is truncated by a broad 9-km-wide late-Pleistocene caldera
breached to the south. Many lava domes dot its outer flanks. The Molodoy
Shiveluch lava dome complex was constructed during the Holocene within the
large horseshoe-shaped caldera; Holocene lava dome extrusion also took
place on the flanks of Stary Shiveluch. At least 60 large eruptions have
occurred during the Holocene, making it the most vigorous andesitic volcano
of the Kuril-Kamchatka arc. Widespread tephra layers from these eruptions
have provided valuable time markers for dating volcanic events in
Kamchatka. Frequent collapses of dome complexes, most recently in 1964,
have produced debris avalanches whose deposits cover much of the floor of
the breached caldera.



Source: Kamchatkan Volcanic Eruption Response Team (KVERT)
https://urldefense.com/v3/__http://www.kscnet.ru/ivs/kvert/index_eng.php__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWtcD8Ljw$ 
<https://urldefense.com/v3/__http://www.kscnet.ru/ivs/kvert/index_eng.php__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHeUtMRp4c$>





Suwanosejima  | Ryukyu Islands (Japan)  | 29.638°N, 129.714°E  | Summit
elev. 796 m



JMA reported that crater incandescence at Suwanosejima's Ontake Crater was
visible nightly during 27 December 2021 to 3 January 2022. The number of
explosions totaled 124. The explosions produced ash plumes that rose as
high as 2.2 km above the crater rim and ejected material up to 1.1 km
distance from the crater. The Alert Level remained at 3 and the public was
warned to stay 2 km away from the crater.



Geologic Summary. The 8-km-long, spindle-shaped island of Suwanosejima in
the northern Ryukyu Islands consists of an andesitic stratovolcano with two
historically active summit craters. The summit is truncated by a large
breached crater extending to the sea on the east flank that was formed by
edifice collapse. Suwanosejima, one of Japan's most frequently active
volcanoes, was in a state of intermittent strombolian activity from Otake,
the NE summit crater, that began in 1949 and lasted until 1996, after which
periods of inactivity lengthened. The largest historical eruption took
place in 1813-14, when thick scoria deposits blanketed residential areas,
and the SW crater produced two lava flows that reached the western coast.
At the end of the eruption the summit of Otake collapsed forming a large
debris avalanche and creating the horseshoe-shaped Sakuchi caldera, which
extends to the eastern coast. The island remained uninhabited for about 70
years after the 1813-1814 eruption. Lava flows reached the eastern coast of
the island in 1884. Only about 50 people live on the island.



Source: Japan Meteorological Agency (JMA) https://urldefense.com/v3/__http://www.jma.go.jp/jma/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWaMToyVY$ 
<https://urldefense.com/v3/__http://www.jma.go.jp/jma/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHen-Tcais$>





Yasur  | Vanuatu  | 19.532°S, 169.447°E  | Summit elev. 361 m



On 30 December the Vanuatu Meteorology and Geohazards Department (VMGD)
reported that activity at Yasur continued at a high level of â??major
unrest,â?? as defined by the Alert Level 2 status. Activity consisted of loud
explosions, emissions of steam and ash, and the ejection of bombs that fell
inside and around the crater area. Alert Level 2 is the middle level on a
scale of 0-4. The public was reminded not to enter the restricted area
within 600 m around the cone, defined by Danger Zone A on the hazard map.



Geologic Summary. Yasur, the best-known and most frequently visited of the
Vanuatu volcanoes, has been in more-or-less continuous Strombolian and
Vulcanian activity since Captain Cook observed ash eruptions in 1774. This
style of activity may have continued for the past 800 years. Located at the
SE tip of Tanna Island, this mostly unvegetated pyroclastic cone has a
nearly circular, 400-m-wide summit crater. The active cone is largely
contained within the small Yenkahe caldera, and is the youngest of a group
of Holocene volcanic centers constructed over the down-dropped NE flank of
the Pleistocene Tukosmeru volcano. The Yenkahe horst is located within the
Siwi ring fracture, a 4-km-wide, horseshoe-shaped caldera associated with
eruption of the andesitic Siwi pyroclastic sequence. Active tectonism along
the Yenkahe horst accompanying eruptions has raised Port Resolution harbor
more than 20 m during the past century.



Source: Vanuatu Meteorology and Geo-Hazards Department (VMGD)
https://urldefense.com/v3/__http://www.geohazards.gov.vu/__;!!IKRxdwAv5BmarQ!KKg874N2UVHWg-kUVOzSDlfGVwiAxlhwI3b797rbdoMcV-MomSJh54DWI3sC8Bo$ 
<https://urldefense.com/v3/__http://www.geohazards.gov.vu/__;!!IKRxdwAv5BmarQ!LJZYs8FrUIIa72J1qyrIXAyo-KieyZkC3twC4b_STGzh2lqKx--bovHerA7PCyU$>



3-3-3-3-3-3-3-3-3-3-3-3-3


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End of Volcano Digest - 3 Jan 2022 to 6 Jan 2022 (#2022-2)
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