The volcanic eruption in Iceland has caused a massive plume of toxic gas to move across northern Europe, and scientists are monitoring it. The gas cloud is unlikely to cause any significant health issues. Experts warn that it could have an impact on the ozone hole above the Arctic.
On March 16, an underground volcano in Icealnd’s Reykjanes Peninsula blew its top for the fourth time in as many months, opening up the largest fissure of the current eruption cycle and unleashing a massive lava flow that narrowly missed the evacuated town of Grindavík. There were initially fears that the lava flow could reach the sea and unleash a plume of hydrochloric acid, which would have been “life-threatening” to anyone close to the coastline, Live Science previously reported. However, the lava never reached the shore.
But the eruption released sulfur dioxide, a colorless, toxic gas that can be extremely dangerous in high concentrations.
On March 17, the volcano was spewing out around 110 pounds (50 kilograms) of sulfur dioxide every second, according to a translated statement from the Icelandic Met Office. Workers at the nearby Svartsengi power plant were evacuated from the facility due to high levels of the gas, Icelandic news site RÚV reported, and locals were temporarily warned to stay inside, according to Iceland’s Civil Protection.
Sulfur dioxide emissions have diminished significantly since March 18, but new data from the Copernicus Atmosphere Monitoring Service (CAMS) — part of the European Union’s Copernicus program, which tracks weather and climate changes using satellite data — shows that the initial outpouring of gas formed a 3-mile-tall (5 kilometers) concentrated column that has since blown toward other countries in northern Europe.
The gas plume has already passed above the UK and is currently approaching Scandinavia, where it will begin to dissipate before entering Russia.
CAMS will continue to track the plume “although we don’t expect there to be any impact on surface air quality or climate,” senior CAMS scientist Mark Parrington said in a statement emailed to Live Science.
However, tracking sulfur dioxide emissions is still important because the gas can react with atmospheric ozone molecules, depleting the amount of this protective substance in the ozone layer, which shields Earth’s surface from the sun’s harmful ultraviolet rays.
In October 2023, scientists partially attributed the near-record-largest ozone hole above Antarctica to the 2022 eruption of an underwater volcano in Tonga, which released high levels of water vapor into the atmosphere that may have depleted ozone levels.
It is believed by experts that the recent eruptions in Iceland could mark the start of a new century-long period of activity in the region. As a result, the amount of sulfur dioxide being pumped toward the Arctic could also rise over the next few years, which could lead to larger northern ozone holes in the future.
“The impacts of the volcanic eruptions in Iceland in the atmosphere have not yet been so severe, but it is relevant to keep monitoring the evolution of the situation,” CAMS director Laurence Rouil said in the statement.