The radioactivity was measured in filters at Viksjøfjell and Svanhovd in the second week of September, but the origin is still unknown.
Norway shares a 198 kilometer long border with Russia's Kola Peninsula. Viksjøfjell to the left, Svanhovd to the right in the horizon. Photo: Thomas Nilsen
By Thomas Nilsen
Reactors
There are numerous maritime reactors onboard submarines and icebreakers operating the Barents Sea out of bases along the coast of the Kola Peninsula. The large-scale strategic exercise Ocean-2024 ended on September 16, but it is unlikely that such releases are coming from a naval reactor in operation at sea. Small leakages of Cesium-137 are more likely to appear during start-up or maintenance of a reactor or from handling spent nuclear fuel.
Bredo Møller says the Cesium could also originate from forest fires. Fallout from the Chernobyl accident in 1986 and even the atmospheric nuclear testings before 1962 can still be measured in nature. Cesium-137 has a half-life of about 30 years.
September 17, 2024
BARENTS OBSERVER
Norwegian Radiation and Nuclear Safety Authority (DSA) says the amount of Cesium discovered in the air filters is “very low.”
The filters from Viksjøfjell and Svanhovd are analyzed at the emergency preparedness unit in Pasvik once a week. Radioactive Cesium-137 appeared sometime between September 9th and 12th.
Bredo Møller with DSA’s Emergency Preparedness unit at Svanhovd is not worried.
“The levels are clearly higher than normal, but pose no risk to humans or the environment,” Møller says to the Barents Observer.
“We have detected 5 µBq/m3 at the filter station at Svanhovd for week 37 (9-16 September) and we have measured the same concentration (5 µBq/m3) at the filter station at Viksjøfjell week 36/37 (5-12 September),” he explains.
Bredo Møller says the DSA will carry out more analyzes over the next few days
“We will not be surprised if these are also at the same level as what we have seen today.”
DSA says no other radioactive isotopes were discovered when the filters were studied. Nor is it known whether any measurements on the Russian side of the border have similar results.
No other filters in northern Norway or Finnish Lapland have detected a peak in Cesium over the last week. Cesium-137 is formed as a fission product by operating a nuclear reactor.
Norwegian Radiation and Nuclear Safety Authority (DSA) says the amount of Cesium discovered in the air filters is “very low.”
The filters from Viksjøfjell and Svanhovd are analyzed at the emergency preparedness unit in Pasvik once a week. Radioactive Cesium-137 appeared sometime between September 9th and 12th.
Bredo Møller with DSA’s Emergency Preparedness unit at Svanhovd is not worried.
“The levels are clearly higher than normal, but pose no risk to humans or the environment,” Møller says to the Barents Observer.
“We have detected 5 µBq/m3 at the filter station at Svanhovd for week 37 (9-16 September) and we have measured the same concentration (5 µBq/m3) at the filter station at Viksjøfjell week 36/37 (5-12 September),” he explains.
Bredo Møller says the DSA will carry out more analyzes over the next few days
“We will not be surprised if these are also at the same level as what we have seen today.”
DSA says no other radioactive isotopes were discovered when the filters were studied. Nor is it known whether any measurements on the Russian side of the border have similar results.
No other filters in northern Norway or Finnish Lapland have detected a peak in Cesium over the last week. Cesium-137 is formed as a fission product by operating a nuclear reactor.
DSA has laboratories for analysing radiation from air filters in northern Norway both in Tromsø and at Svanhovd in the Pasvik valley. Photo: Thomas Nilsen
Reactors
There are numerous maritime reactors onboard submarines and icebreakers operating the Barents Sea out of bases along the coast of the Kola Peninsula. The large-scale strategic exercise Ocean-2024 ended on September 16, but it is unlikely that such releases are coming from a naval reactor in operation at sea. Small leakages of Cesium-137 are more likely to appear during start-up or maintenance of a reactor or from handling spent nuclear fuel.
Bredo Møller says the Cesium could also originate from forest fires. Fallout from the Chernobyl accident in 1986 and even the atmospheric nuclear testings before 1962 can still be measured in nature. Cesium-137 has a half-life of about 30 years.
When old trees burn, radioactivity could be brought up in the air and blowing by the wind.
Novaya Zemlya
Russian weapons designers from Rosatom have all summer and early autumn been working at the Pankovo test site at Novaya Zemlya. The site is dedicated to test the Burevestnik nuclear-powered cruise missile believed to have a more or less open cooling of the mini-reactor.
Work at the test-site, however, is strictly secret and very little information is made public. There are no official reports that the Burevestnik is tested, but indications can be seen by studying daily updated satellite images from the Arctic archipelago.
The Barents Observer has in the course of the summer seen several cargo-ships and special purpose vessels in the waters outside Pankovo and over the last few weeks, Rosatom’s two large Il-76 transport planes have periodically been parked at the airport in Rogachevo at Novaya Zemlya.
The blue-colored aircraft are believed to conduct operations connected to the Burevestnik testings.
Satellite image by Sentinel, graphics by Barents Observer
There are currently a few nuclear-powered icebreakers moored at Atomflot in Murmansk.
The radioactive isotope now measured in Finnmark could as well come from faraway, depending on wind-directions.
There are currently a few nuclear-powered icebreakers moored at Atomflot in Murmansk.
The radioactive isotope now measured in Finnmark could as well come from faraway, depending on wind-directions.
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