Literature DB >> 16024139

Reconstruction of (131)I radioactive contamination in Ukraine caused by the Chernobyl accident using atmospheric transport modelling.

Nikolai Talerko1.   

Abstract

The evaluation of (131)I air and ground contamination field formation in the territory of Ukraine was made using the model of atmospheric transport LEDI (Lagrangian-Eulerian DIffusion model). The (131)I atmospheric transport over the territory of Ukraine was simulated during the first 12 days after the accident (from 26 April to 7 May 1986) using real aerological information and rain measurement network data. The airborne (131)I concentration and ground deposition fields were calculated as the database for subsequent thyroid dose reconstruction for inhabitants of radioactive contaminated regions. The small-scale deposition field variability is assessed using data of (137)Cs detailed measurements in the territory of Ukraine. The obtained results are compared with available data of radioiodine daily deposition measurements made at the network of meteorological stations in Ukraine and data of the assessments of (131)I soil contamination obtained from the (129)I measurements.

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Year:  2005        PMID: 16024139     DOI: 10.1016/j.jenvrad.2005.04.005

Source DB:  PubMed          Journal:  J Environ Radioact        ISSN: 0265-931X            Impact factor:   2.674


  13 in total

1.  Thyroid doses due to Iodine-131 inhalation among Chernobyl cleanup workers.

Authors:  Vladimir Drozdovitch; Victor Kryuchkov; Vadim Chumak; Semion Kutsen; Ivan Golovanov; André Bouville
Journal:  Radiat Environ Biophys       Date:  2019-03-07       Impact factor: 1.925

2.  Influence of the external and internal radioactive contamination of the body and the clothes on the results of the thyroidal 131I measurements conducted in Belarus after the Chernobyl accident. Part 1: Estimation of the external and internal radioactive contamination.

Authors:  Vladimir Drozdovitch; Valeri Khrouch; Victor Minenko; Yuri Konstantinov; Arkady Khrutchinsky; Semion Kutsen; Tatiana Kukhta; Sergey Shinkarev; Yuri Gavrilin; Nickolas Luckyanov; Paul Voillequé; André Bouville
Journal:  Radiat Environ Biophys       Date:  2019-05-03       Impact factor: 1.925

3.  Thyroid Dose Estimates for a Cohort of Belarusian Children Exposed to (131)I from the Chernobyl Accident: Assessment of Uncertainties.

Authors:  Vladimir Drozdovitch; Victor Minenko; Ivan Golovanov; Arkady Khrutchinsky; Tatiana Kukhta; Semion Kutsen; Nickolas Luckyanov; Evgenia Ostroumova; Sergey Trofimik; Paul Voillequé; Steven L Simon; André Bouville
Journal:  Radiat Res       Date:  2015-07-24       Impact factor: 2.841

4.  Evaluation of 131I transfer in the environment based on the available measurements made in Belarus after the Chernobyl accident.

Authors:  Victor Minenko; Tatiana Kukhta; Sergey Trofimik; Olga Zhukova; Marina Podgaiskaya; Kiryl Viarenich; André Bouville; Vladimir Drozdovitch
Journal:  J Environ Radioact       Date:  2022-05-31       Impact factor: 2.655

5.  Database of meteorological and radiation measurements made in Belarus during the first three months following the Chernobyl accident.

Authors:  Vladimir Drozdovitch; Olga Zhukova; Maria Germenchuk; Arkady Khrutchinsky; Tatiana Kukhta; Nickolas Luckyanov; Victor Minenko; Marina Podgaiskaya; Mikhail Savkin; Sergey Vakulovsky; Paul Voillequé; André Bouville
Journal:  J Environ Radioact       Date:  2012-10-24       Impact factor: 2.674

6.  Thyroid cancer study among Ukrainian children exposed to radiation after the Chornobyl accident: improved estimates of the thyroid doses to the cohort members.

Authors:  Ilya Likhtarov; Lina Kovgan; Sergii Masiuk; Mykola Talerko; Mykola Chepurny; Olga Ivanova; Valentina Gerasymenko; Zulfira Boyko; Paul Voillequé; Vladimir Drozdovitch; André Bouville
Journal:  Health Phys       Date:  2014-03       Impact factor: 1.316

7.  Thyroid dose estimates for a cohort of Belarusian children exposed to radiation from the Chernobyl accident.

Authors:  Vladimir Drozdovitch; Victor Minenko; Valeri Khrouch; Svetlana Leshcheva; Yury Gavrilin; Arkady Khrutchinsky; Tatiana Kukhta; Semion Kutsen; Nickolas Luckyanov; Sergey Shinkarev; Sergey Tretyakevich; Sergey Trofimik; Paul Voillequé; André Bouville
Journal:  Radiat Res       Date:  2013-04-05       Impact factor: 2.841

8.  Doses for post-Chernobyl epidemiological studies: are they reliable?

Authors:  Vladimir Drozdovitch; Vadim Chumak; Ausrele Kesminiene; Evgenia Ostroumova; André Bouville
Journal:  J Radiol Prot       Date:  2016-06-29       Impact factor: 1.559

9.  Estimation of Radiation Doses for a Case-control Study of Thyroid Cancer Among Ukrainian Chernobyl Cleanup Workers.

Authors:  Vladimir Drozdovitch; Victor Kryuchkov; Elena Bakhanova; Ivan Golovanov; Dimitry Bazyka; Natalia Gudzenko; Natalia Trotsyuk; Maureen Hatch; Elizabeth K Cahoon; Kiyohiko Mabuchi; André Bouville; Vadim Chumak
Journal:  Health Phys       Date:  2020-01       Impact factor: 2.922

10.  Thyroid doses in Ukraine due to 131I intake after the Chornobyl accident. Report II: dose estimates for the Ukrainian population.

Authors:  Sergii Masiuk; Mykola Chepurny; Valentyna Buderatska; Olga Ivanova; Zulfira Boiko; Natalia Zhadan; Galyna Fedosenko; Andriy Bilonyk; Alexander Kukush; Tatiana Lev; Mykola Talerko; Vladimir Drozdovitch
Journal:  Radiat Environ Biophys       Date:  2021-08-05       Impact factor: 1.925
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