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Caribbean

Alert Level for La Soufrière St. Vincent Raised to Red: Eruption in progress

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Update 10.04.2021

At the time of writing, there have been several explosive eruptions now from La Soufrière St. Vincent.  The island has experienced extensive ashfall.  The emergency evacuation has extended to the orange zone.  Ash has reached 51,000 feet (38,000 feet, latest VAA) according to the volcanic ash alerts and the ash cloud has drifted over Barbados.

Fig 3: Ash plume from the first explosion.  Photo from NEMO

Most of the new lava dome has been destroyed and the 1979 lava dome has suffered some damage.  Removal of the rock has given magma a more open pathway.  The eruption is expected to be larger than the 1979 eruption and to continue for some time; explosions are expected to be the same or greater magnitude. As far as we know, there have not been any pyroclastic flows but they are expected. 

More than 3,000 people are in emergency accommodation and others are staying with friends or relatives.   Saint Lucia, Grenada, Antigua and Barbados have offered to take refugees.  Carnival Cruise Lines and the Royal Caribbean Group will send cruise ships to transport people to other islands. Venezuela has sent humanitarian aid and risk experts.

The north and west of Barbados have been hard hit by ash; the skies turned dark and ash is falling.  Residents have been advised to stay indoors, except for essentials or a medical emergency.  Beaches, parks and fish markets are closed for the time being. People with respiratory disorders have been advised to have their medication with them at all time.  The airport and airspace is closed at the moment.

Latest VAA forecast:

Fig 4: Volcanic ash forecast from Washington VAAC Volcanic Ash Advisory (noaa.gov). The volcano is coloured in red and Barbados is in the red circle.

Thoughts with everyone affected.

Sources:

NEMO St. Vincent: ‪#‎lasoufriereeruption2021

Hazard zones, St Vincent: Home (nemo.gov.vc)

Washington VAAC: Volcanic Ash Advisory (noaa.gov),

News 784: NEMO: Explosive Eruptions May Continue Over The Next Few Days And Weeks • News784

Barbados Government Information Service: GIS News | GIS (gisbarbados.gov.bb)

Nation News, Barbados: Volcano ash turns northern skies dark – NationNews Barbados — nationnews.com

Update 16:51, 09.04.2021

An explosive eruption started at La Soufrière St. Vincent around 12:40 pm GMT today, sending an ash column 8 km into the sky. The ash cloud reached 20,000 feet, drifting eastwards. Ashfall has been observed at Argyle International Airport.

Scientists warn that further larger eruptions are possible.

The evacuation from the red zone (northern end of the island) is still in progress at the time of writing.

Source: NEMO St. Vincent and the Grenadines | Facebook

Original Post: 12:46, 09.4.2021

Good Afternoon!

Increasing gas emissions and seismic activity, including long period events, indicate that new magma is ascending at La Soufrière St. Vincent and an eruption could be imminent.  An immediate evacuation order was given earlier today (c.1:00 am GMT) for the red zone in the north of the island, impacting 16,000 people.

Fig 1: La Soufrière St. Vincent, seen here from the south. Photo by Richard Fiske, 1980 (Smithsonian Institution).

The new lava dome has been steadily growing since it emerged in December 2020.  The emission of gas and stream from the centre of the dome and its border with the 1979 dome increased on 8 April 2021.  A preliminary VAA noted that a well-defined hotspot was visible in the SW.   Incandescence from the dome was visible in St Lucia.

A swarm of volcano-tectonic earthquakes started on 6 April 2021 beneath the volcano at a depth of around 6 km.  Long period earthquakes have also been observed, indicating that new magma is ascending.

Fig 2: New lava dome on 19 March 2021 between the 1979 lava dome on the right of the image and the crater wall on the left.  Photo NEMO.

Background

Volcanic activity, here, is driven by the subduction of the South American Plate under the Caribbean Plate.

La Soufrière St. Vincent is a 1,234m high stratovolcano located in the north of St. Vincent Island, which rides on the Caribbean Plate. She is the youngest volcano on the island.  At the summit there is a 1.6 km wide crater with a younger crater formed in the 1812 eruption, located in a 2.2 km wide Somma crater.  Her lavas are typical of a subduction zone setting: andesite / basaltic andesite and basalt / picro-basalt.

GVP records 23 Holocene eruptions, the largest of which were VEI 4s in 1812 and 1902.  The 1902 eruption devastated much of the northern end of the island.  A lava dome was extruded in the eruption of 1971, which was destroyed to be replaced by a new dome in 1979 in a series of explosive eruptions.  The 1902 eruption devastated much of the northern end of the island. Pyroclastic flows from eruptions in 1812, 1902, and 1979 reached the coast.

For advice and the status of La Soufrière St. Vincent, please consult NEMO or follow their Face Book page (links below).

Thoughts with those impacted by the evacuation and eruption.

The Armchair Volcanologist

© Copyright remains with the author; all rights reserved, 2021.

Sources and Further Reading

National Emergency Management Organisation (NEMO): Home (nemo.gov.vc) and https://www.facebook.com/nemosvg/

Washington VAAC: Current Volcanic Ash Advisories

The Smithsonian Institution’s Global Volcanism Program (GVP): https://volcano.si.edu/

“Mt. Pelée, La Soufrière St. Vincent and a Quick Tour of the Plates Surrounding the Caribbean”: https://thearmchairvolcanologist.com/2021/02/01/mt-pelee-soufriere-st-vincent-and-a-quick-tour-round-the-plates-surrounding-the-caribbean-plate/

Caribbean, Famous Eruptions, Plate Tectonics

Mt. Pelée, La Soufrière St. Vincent And A Quick Tour Of The Plates Surrounding The Caribbean Plate

Good Morning!

On 4 December 2020 the alert level for Mt. Pelée was raised to yellow due to increasing seismicity above background levels; and, on 29 December 2020 the alert level for La Soufrière St. Vincent was raised to orange following an increase in seismic activity, changes seen in the lake and fumaroles and a new growing lava dome emerging in the summit crater.  

This led us to look into what drives volcanism in the area, notably the interaction of the Caribbean Plate with its surrounding plates.

Fig 1: Mt. Pelée on the left with St. Pierre, photo by Lee Siebert, 2002 (Smithsonian Institution); Soufrière St. Vincent on the right, photo by William Melson, 1972 (Smithsonian Institution).

Mt. Pelée is famous for destroying the town of Saint- Pierre and its inhabitants plus visitors – a total of 29,000 people – in a matter of minutes on the morning of 8 May 1902 in a pyroclastic flow during a VEI 4 eruption.  La Soufrière St. Vincent also erupted around the same time.  Both volcanoes are located in the Lesser Antilles on the Caribbean Plate. 

Mt. Pelée

Mt. Pelée is located on Martinique.  She is a 1,400m high stratovolcano located in the caldera of an earlier volcano; edifice failures have breached the south west section of the caldera. Her lava types are andesite, basaltic andesite, dacite and basalt, picro basalt.

54 Holocene eruptions are recorded by GVP. Her historic eruptions include 1792 (VEI 1), 1851 (VEI 2), 1902 (VEI 4) and 1929 (VEI 3).  Two lava domes were emplaced in the summit crater, l’Etang Sec, during the 1902 and 1929 eruptions. 

1902 Eruption

Prior to the 1902 eruption, Mt Pelée’s known eruptions had been mild.  Activity at the volcano started to ramp up gradually with fumaroles in the summit crater in 1889 to March 1902.  From 23 April 1902 phreatic activity cleared out old rock, starting with minor explosive activity. By 4 May 1902 ash was raining down on Saint- Pierre. On 5 May, 23 people were killed when near boiling water from the crater heated by rising magma overran a distillery in a lahar in the Rivière Blanche valley.

On 6 May 1902, new lava emerged creating a lava dome.  During 7 May 1902, small parts of the dome collapsed.  At 07:50 on 8 May 1902, explosions were heard and a large black cloud seen to emerge and flow down the volcano, engulfing Saint-Pierre and some of the ships in the harbour.  Most of the casualties were killed by hot gases and dust from the blast.  Several pyroclastic flows followed: on 20 May 1902 a second pyroclastic current swept over Saint-Pierre destroying several of the remaining buildings; the Rivière Blanche valley saw several PDCs over the ensuing months; and, Morne Rouge was destroyed and 2,000 people killed by a pyroclastic current on 30 August 1902.  During this activity a 300m lava spine emerged. After this eruptive activity continued until 1903. The lava spine has since been eroded.

Saint-Pierre had not been evacuated prior to 8 May 1902 for a couple of reasons: it was not known at the time that the volcano produced pyroclastic flows so the danger was not understood; and, an election was due on 11 May 1902, which politicians were keen should go ahead.  No evacuation order was given. 

When activity ramped up again prior to the 1929 eruption, people were evacuated in time.

La Soufrière St. Vincent

La Soufière St. Vincent can be found on St Vincent Island.  She is a 1,234m high stratovolcano with crater lake and lava domes.  The 1.6km wide summit crater is located on the south west edge of a 2.2km wide Somma crater; slope failure caused a breach in the Somma crater.  Her lava types are andesite, basaltic andesite and basalt, picro basalt.

22 Holocene eruptions are recorded by GVP. Her historic eruptions include 1718 (VEI 3), 1812 (VEI 4), 1902 (VEI 4), 1971 (VEI 0) and 1979 (VEI 3).  The 1902 eruption occurred on 6 May 1902, killing 1,680 people. The 1812 eruption produced a new crater, cutting through the summit crater.  1971 eruption extruded a lava dome in the summit crater, which erupted explosively in 1979 to be replaced by another dome. 

Tectonic Setting

As noted above, both Mt. Pelée and La Soufrière St. Vincent are located on the Caribbean Plate in the Lesser Antilles. The Caribbean Plate is thick oceanic crust located between the North American and South American Plates.  The northern boundary of the Caribbean Plate is a transform boundary with the North American plate, running from Central America to the Virgin Islands. The Gonâve microplate and Puerto Rico Trench form part of the northern boundary. At the eastern boundary, the South American Plate subducts under the Caribbean Plate in the Lesser Antilles. At the western boundary, the Cocos Plate subducts under the Caribbean Plate, forming the Central American Volcanic Arc.  The southern boundary with the South American plate is a complex, comprising a convergent margin with the Panama Plate, a subduction zone with the North Andes Plate and a transform boundary with the South American Plate.  The main plates velocities relative to the African Plate are noted below.

PlateDirectionVelocity
North American PlateWest25 mm per year
Cocos PlateNorth east67 mm per year
Caribbean PlateNorth west10 mm per year
Panama PlateNorth west19 mm per year
Coiba and Malpelo PlatesEast 
North Andes PlateNorth west23 mm per year
Nazca PlateNorth east40 -53 mm per year
South American PlateWest27 – 34 mm per year

The origins of the Caribbean Plate are debated.  There are two main theories which attempt to explain why the less dense but thicker crust of the plate overrides the Cocos and South American Plates. It may have evolved millions of years ago from the Caribbean large igneous province, formed at the Galapagos hotspot, drifting to its current location as the plates moved to accommodate the widening of the Atlantic Ocean.  Alternatively, it may have formed from an old hotspot in the Atlantic.  These theories are based on the relative motions of the plates.  The first theory works on the basis that the Caribbean Plate is moving eastward compared to the North and South American Plates, whereas the latter uses the actual westward motion of the Caribbean Plate.

Recent Seismicity

Yes, we’ve downloaded earthquakes for the region from USGS’s earthquake search, taking a larger area than the Caribbean Plate in order to pick up the subduction zones.  In this case, it was not really necessary as most subduction is beneath the Caribbean Plate, but it was fun to find several microplates in the process: the Gonâve, Panama, Coiba and Malpelo Plates.  The Malpelo Plate was first identified as late as 2017 by Tuo Zhang, Richard G Gordon et al of Rice University.

The coordinates selected were: 3.760°S, 107.051°W to 26.838°N, 48.867°W for earthquakes with magnitudes of 2.5 or more between 1 January 1975 and 5 January 2021.  This picked up 80,751 earthquakes.

Fig 2: Earthquakes plotted by the author using data downloaded from USGS (see sources below).  Green dots denote earthquakes with magnitude between 2.5 M and 4.5 M, yellow dots earthquakes between 4.5 M and 6.0 M, orange stars, earthquakes between 6.0 M and 7.0 M and red stars, earthquakes over 7.0 M.  Some volcanoes are shown, these are denoted by blue triangles. Mt. Pelée and Soufrière St.Vincent are shown as yellow triangles. © Copyright remains with the author; all rights reserved, 2021

From Figs 2, 3 and 4 below, we can see the plate boundaries and the subduction zones on the western and eastern margins of the Caribbean plate are well marked by earthquakes and volcanoes; the subduction of the Caribbean Plate under the North Andes Plate is also visible (lower centre of the depth plot); and, the Puerto Rico Trench is also tectonically very active.  The Puerto Rico Trench has produced some large earthquakes and tsunamis.

Fig 3 Scatter plot of earthquakes round the Caribbean plate: latitude v longitude on the left and a depth plat on the right.  Earthquake with magnitude less than 4.5 are not shown in the depth plot to reduce noise.  Colour key as before. © Copyright remains with the author; all rights reserved, 2021
Fig 4: Scatter plot of the earthquakes at the Puerto Rico Trench: latitude v longitude on the left and a depth plat on the right. Colour key as before. © Copyright remains with the author; all rights reserved, 2021

Fig 4 shows subduction of the North American Plate on the right of the depth plot.  But there is also a line of earthquakes on the left of the plot which appears to indicate another subduction zone.  Neither subduction zone here, despite being seismically active, has active volcanoes associated with it.  It’s possible that there is another microplate here, but this is conjecture on our part until we can find an explanation or confirmation.

If you are interested or concerned by the alert statuses of Mt Pelée and La Soufrière St Vincent, you can find more information at L’Observatoire Volcanologique et Seismologique de Martinique, the National Emergency Management Organisation (NEMO) or GVP.

Hope you enjoyed our little tour.  We will be looking in more detail at points of interest in the future.

The Armchair Volcanologist

© Copyright remains with the author; all rights reserved, 2021.

Sources & Further Reading

Raw earthquake data from USGS Earthquake Catalogue Search: https://earthquake.usgs.gov/earthquakes/search/

L’Observatoire Volcanologique et Seismologique de Martinique: http://www.ipgp.fr/fr/ovsm/lobservatoire-volcanologique-sismologique-de-martinique-ovsm-ipgp

National Emergency Management Organisation (NEMO): http://nemo.gov.lc/

The Smithsonian Institution’s Global Volcanism Program (GVP): https://volcano.si.edu/

Caribbean Plate – Wikipedia: https://en.wikipedia.org/wiki/Caribbean_Plate

Zhang, Tuo; Richard G. Gordon; Jay K. Mishra, and Chengzu Wang. 2017. The Malpelo Plate Hypothesis and implications for nonclosure of the Cocos-Nazca-Pacific plate motion circuit, 1. AGU Fall Meeting, New Orleans. Accessed 2018-06-06.

“Volcanoes”, Peter Francis and Clive Oppenheimer, Oxford University Press, Second Edition, 2004.

La Soufrière (volcano) – Wikipedia: https://en.wikipedia.org/wiki/La_Soufrière_(volcano)