E. Tomankiewicz scite author profile

In October 2017, most European countries reported unique atmospheric detections of aerosol-bound radioruthenium (106Ru). The range of concentrations varied from some tenths of µBq·m−3 to more than 150 mBq·m−3. The widespread detection at such considerable (yet innocuous) levels suggested a considerable release. To compare activity reports of airborne 106Ru with different sampling periods, concentrations were reconstructed based on the most probable plume presence duration at each location. Based on airborne concentration spreading and chemical considerations, it is possible to assume that the release occurred in the Southern Urals region (Russian Federation). The 106Ru age was estimated to be about 2 years. It exhibited highly soluble and less soluble fractions in aqueous media, high radiopurity (lack of concomitant radionuclides), and volatility between 700 and 1,000 °C, thus suggesting a release at an advanced stage in the reprocessing of nuclear fuel. The amount and isotopic characteristics of the radioruthenium release may indicate a context with the production of a large 144Ce source for a neutrino experiment.

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Plutonium and other alpha emitters in mushrooms from Poland, Spain and Ukraine

Mietelski

Baeza

Guillén

et al. 2002

Applied Radiation and Isotopes

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137Cs, 40K, 238Pu, 239+240Pu and 90Sr in biological samples from King George Island (Southern Shetlands) in Antarctica

Mietelski

Olech

Katarzyna³

et al. 2008

Polar Biol

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The sources of high airborne radioactivity in cryoconite holes from the Caucasus (Georgia)

Łokas

Zawierucha

Cwanek

et al. 2018

Sci Rep

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Cryoconite granules are mixtures of mineral particles, organic substances and organisms on the surface of glaciers where they decrease the ice albedo and are responsible for formation of water-filled holes. The contaminants are effectively trapped in the cryoconite granules and stay there for many years. This study evaluates the contamination level of artificial and natural radionuclides in cryoconite holes from Adishi glacier (Georgia) and identifies the sources of contamination based on activity or mass ratios among artificial radionuclides. Results revealed high activity concentrations of fallout radionuclides reaching 4900 Bq/kg, 2.5 Bq/kg, 107 Bq/kg and 68 Bq/kg for 137Cs, 238Pu, 239+240Pu and 241Am, respectively. The main source of Pu is global fallout, but the low 240Pu/239Pu atomic ratios also indicated local tropospheric source of 239Pu, probably from the Kapustin Yar nuclear test site. Also, high activity ratios of 241Am/239+240Pu could originate from Kapustin Yar. The natural radionuclides originate from the surrounding rocks and were measured to control the environmental processes. 210Pb in cryoconite granules comes predominantly from the atmospheric deposition, and its activity concentrations reach high values up to 12000 Bq/kg.

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Long-range transport of gaseous 131I and other radionuclides from Fukushima accident to Southern Poland

Mietelski

Kierepko

Brudecki

et al. 2014

Atmospheric Environment

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E. Tomankiewicz

Airborne concentrations and chemical considerations of radioactive ruthenium from an undeclared major nuclear release in 2017

Plutonium and other alpha emitters in mushrooms from Poland, Spain and Ukraine

137Cs, 40K, 238Pu, 239+240Pu and 90Sr in biological samples from King George Island (Southern Shetlands) in Antarctica

The sources of high airborne radioactivity in cryoconite holes from the Caucasus (Georgia)

Long-range transport of gaseous 131I and other radionuclides from Fukushima accident to Southern Poland

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