Discarded Russian submarines could cause a nuclear disaster in the Arctic
Beyond concerns of a frozen conflict in the icy north, there is the additional fear that the Barents and Kara Seas could become the location of a slow-motion nuclear disaster. Until 1991 the Soviet Union used the seas as a junkyard where it would dispose of its nuclear waste.
Three scuttled nuclear submarines are the most dangerous of the disposals for the overall safety of the region - the K-27, the K-278, and the K-159, according to The Moscow Times. Of those, the K-27 is the one most likely to cause a Chernobyl-like event in which the casings of the reactors fail and dangerous amounts of radiation escape into the environment.
The K-27 is particularly risky, the BBC reports, due to its unique design. The submarine, which was launched in 1962, was experimentally developed with two previously untested liquid-metal cooled reactors. Soon after deployment the submarine began emitting high levels of radiation, poisoning its crew.
In 1981, the Soviet Union sunk the submarine in the Kara Sea. But the sub was scuttled at a depth of only 99 feet (30 meters), significantly below international guidelines.
The Moscow Times also reports that the K-159 and K-278 are potential causes for concern. The K-278 is at depths too deep for possible retrieval if it begins to leak radioactive material into the ocean.
The K-159, meanwhile, remains a point of contention between Russia and Norway - Oslo believes that the submarine and its potentially leaky reactor could disrupt fisheries along Norway's northern shore.
In August 2014, the NRPA and Russian authorities conducted a joint investigation into possible nuclear leaks emanating from K-159. After the probe, Russian scientists reported that there were no signs that 800 kilograms of spent uranium fuel had begun leaking out of the submarine, Bellona reports.
National Geographic has previously reported that the chance of a leak from a nuclear submarine was miniscule in the near term, as reactors are shielded. Individual fuel rods within the reactor are then further encased in a special alloy to slow corrosion. This means that reactors should take centuries to leak into the ocean, by which time a majority of the nuclear material would have decayed.
But that assumes a level of durability that older Soviet models might not have. And a possible Russian-related environmental disaster in a contested geopolitical frontier like the Arctic could have unpredictable consequences.