nord stream blasts caused historic methane leak in baltic sea
The destruction of the Nord Stream pipelines in 2022 not only escalated geopolitical tensions but also led to the largest methane leak in history. About 512,000 tons of gas entered the atmosphere and persisted in protected marine areas, according to recent studies.
This ecological disaster occurred in September 2022 when three of the four pipelines transporting natural gas from Russia to Germany, running across the Baltic Sea floor, were severely damaged. An underwater explosion ruptured the NS1 and NS2 pipelines near the island of Bornholm in Denmark, causing gas to rise to the sea's surface. The perpetrator remains unknown, but the event has been linked to the effects of Russia's military actions in Ukraine. The explosions took place at a depth of approximately 262 feet below the Baltic surface.
Methane also reached the coastlines of Poland
Initially, it was assumed that methane leaked from the damaged pipes and rose into the atmosphere near the Danish island of Bornholm, where the leaks occurred. However, new research indicates that methane spread across large areas of the southern Baltic, extending up to the Gulf of Gdańsk.
Three new scientific articles appeared in journals Nature and Nature Communications. According to researchers, the methane leak in 2022 from the Nord Stream pipelines released approximately 488,000-535,000 tons of methane. Most of the gas entered the atmosphere immediately after reaching the sea's surface. The Voice of the Ocean Foundation quickly responded by sending an underwater drone, known as a glider, to the region just outside the leak exclusion zone. Monitoring continued for three months after the explosion, analyzing the extent of dissolved methane in surrounding waters.
The released gas affected 23 protected marine areas in the Baltic
Although most of the gas reached the atmosphere, a significant portion was absorbed by seawaters. In the initial phase after the explosion, the level of dissolved methane in the water was sometimes a thousand times higher than average. Broadly speaking, 14 percent of the Baltic Sea recorded methane concentrations at least five times higher than natural average values.
The methane leak from the Nord Stream pipeline potentially impacted the protected areas of the Baltic Sea. Scientists noted that ocean currents directed dissolved methane to 23 protected areas. According to researchers, ocean currents carried methane there.
Numerical modeling showed that out of 188 marine protected areas (MPAs) in the Baltic, eight were exposed to methane concentrations 100 times higher than normal. Another ten and five such areas experienced tenfold and twofold increased methane concentrations, respectively. However, it should be noted that the long-term impact of increased methane concentrations on marine ecosystems in these protected areas is not yet clear. This is because an event of this scale has never been observed before. According to scientists, further research is necessary to assess the long-term effects of the methane leak on the protected areas of the Baltic Sea.
"Although small concentrations of methane are not harmful, it is not yet clear what high concentrations might cause over a long time," conveyed Martin Mohrmann, a researcher associated with the Voice of the Ocean Foundation.
Urgent need to assess the safety of underwater pipelines
One thing scientists consider certain is the need to reassess the safety of submarine pipelines, especially in increasingly unpredictable times. According to Mohrmann, the necessity to reassess the risk for such structures as the Nord Stream pipelines is essential. Risk analyses conducted in 2009 assumed one event every 20,000 years and negligible dissolution of natural gas in water, which now seems doubtful.
