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Europe-Wide Atmospheric Radionuclide Dispersion by Unprecedented Wildfires in the Chernobyl Exclusion Zone, April 2020

Olivier Masson, Oleksandr Romanenko, Olivier Saunier, Serhii Kirieiev, Valentyn Protsak, Gennady Laptev, Oleg Voitsekhovych, Vanessa Durand, Frédéric Coppin, Georg Steinhäuser, Anne de Vismes Ott, Philippe Renaud, Damien Didier, B. Boulet, M. García Morín, Miroslav Hýža, Johan Camps, Olga Belyaeva, A. Dalheimer, Konstantinos Eleftheriadis, C. Gascó, A. Ioannidou, Krzysztof Isajenko, Tero Karhunen, J. Kastlander, Christian Katzlberger, Renata Kierepko, Gert-Jan Knetsch, Júlia Kövendiné Kónyi, Jerzy W. Mietelski, M. Mirsch, Bredo Møller, Jelena D. Krneta-Nikolić, Pavel Peter Povinec, R. Rusconi, V. Samsonov, I. Sýkora, Elena Simion, Philipp Steinmann, S. Stoulos, J.A. Suárez-Navarro, H. Wershofen, D. Zapata-García, B. Zorko

2021Environmental Science & Technology34 citationsDOIOpen Access PDF

Abstract

From early April 2020, wildfires raged in the highly contaminated areas around the Chernobyl nuclear power plant (CNPP), Ukraine. For about 4 weeks, the fires spread around and into the Chernobyl exclusion zone (CEZ) and came within a few kilometers of both the CNPP and radioactive waste storage facilities. Wildfires occurred on several occasions throughout the month of April. They were extinguished, but weather conditions and the spread of fires by airborne embers and smoldering fires led to new fires starting at different locations of the CEZ. The forest fires were only completely under control at the beginning of May, thanks to the tireless and incessant work of the firefighters and a period of sustained precipitation. In total, 0.7–1.2 TBq 137Cs were released into the atmosphere. Smoke plumes partly spread south and west and contributed to the detection of airborne 137Cs over the Ukrainian territory and as far away as Western Europe. The increase in airborne 137Cs ranged from several hundred μBq·m–3 in northern Ukraine to trace levels of a few μBq·m–3 or even within the usual background level in other European countries. Dispersion modeling determined the plume arrival time and was helpful in the assessment of the possible increase in airborne 137Cs concentrations in Europe. Detections of airborne 90Sr (emission estimate 345–612 GBq) and Pu (up to 75 GBq, mostly 241Pu) were reported from the CEZ. Americium-241 represented only 1.4% of the total source term corresponding to the studied anthropogenic radionuclides but would have contributed up to 80% of the inhalation dose.

Topics & Concepts

Environmental scienceRadionuclideAtmospheric dispersion modelingPlumePrecipitationAtmosphere (unit)Nuclear power plantAir pollutionPhysical geographyMeteorologyHydrology (agriculture)GeographyGeologyQuantum mechanicsNuclear physicsPhysicsGeotechnical engineeringOrganic chemistryChemistryRadioactive contamination and transferRadioactivity and Radon MeasurementsNuclear and radioactivity studies