The eruption is still in progress in La Palma. The wall of incandescent lava is 6-meter-high on average and travels at a speed of 700 meters per hour, destroying everything, from homes to electrical and telephone communication masts, on its way towards the sea.
Meanwhile, the lava flow from the volcano that erupted on Sunday in La Palma, in Spain’s Canary Islands, is close to reaching the sea, its natural outlet.
This situation is of concern to authorities as the reaction of lava in contact with saltwater “could lead to explosions and the emission of toxic gases,” according to the crisis team at the Canary Islands Volcano Emergency Plan (Pevolca).
An exclusion zone has been established in the sea, running parallel to the coast, and extending from Puerto Naos in the south of the island to Las Viñas beach in Tazacorte in the north. On land, security forces will prevent access to the area.
Scientists thought that the lava flow would reach the coast at around 8pm on Monday night, local time. However, the advance of the rivers of molten rock slowed and this forecast was not met.
When the lava, which has a temperature of around 1,000ºC, reaches the sea, which is little over 20ºC, experts say there will be an explosion of water steam that will create a dense white cloud. This plume is caused by the lava flow due to its extreme heat. But the molten rock will also trigger a chemical reaction, mainly of chlorine, which can irritate the skin, eyes and respiratory system.
According to the US Geological Service, there are four main dangers linked to the ocean entry of lava:
- The sudden collapse of new land and adjacent sea cliffs into the ocean
- Explosions triggered by the collapse
- Waves of scalding hot water washing onshore
- Steam plume that rains hydrochloric acid and tiny volcanic glass particles downwind from the entry point.
But the interaction of the sea with a volcano is not always destructive, as was seen in the 2011 eruption of an underwater volcano in the Canary Island of El Hierro.
New fissure and around 6,000 evacuated
The volcano on La Palma, the first that has erupted in Spain since 1971, has had the island on tenterhooks since it started to shoot out fire, smoke and ash on Sunday.
Until now, the fissures that opened up in the Montaña Rajada mountains in the municipality of El Paso have emitted a lava flow measuring an average of six meters high – as tall as a two-story building.
So far the eruption has not claimed any victims, but it has forced around 6,000 people to evacuate their homes.
The scene in the area was described on Monday as “devastating” by the president of the La Palma island council, Mariano Hernández Zapata, given that the lava “is literally eating up the houses, infrastructure and crops that it is finding on its path toward the coast in the valley of Aridane.”
Scientific research
Scientists on board the Ramon Margalef research ship are set to study the impact of the lava flows’ entry into the ocean. “The biggest impact will be on organisms that live attached to the ocean floor and can’t move, and which will probably die. But recovery could be fast. Three years after the eruption of the underwater volcano in El Hierro, these organisms had almost completely bounced back,” said Eugenio Fraile, a researcher at the Spanish Oceanographic Institute.
The National Geographic Institute (IGN) has created mathematical models to calculate the progress of the lava flows, based on the parameters of the lava and the characteristics of the land. With these maps, the scientists are trying to indicate the most likely routes the lava flows will follow.
While these calculations were made on the current situation of the volcano, where nine eruptive vents have opened up from two different fissures, scientists are not ruling out that more fissures will appear, which would change the flow.
According to Carmen López, the head of the Central Geophysics Observatory at the IGN, the magma is looking to escape and “different emission points could appear, but the mechanism is the same. It will not be another eruption, but we can’t rule out that other emission points or small fissures could emerge.”
The first estimates indicated that the volcano contains between 17 and 20 million cubic meters of lava, less than half the 43 million that were released by Teneguía when it erupted in 1971, but this is a preliminary estimate that must be revised.
