Radioactive contamination of the Balchug (Upper Yenisey) floodplain, Russia in relation to sedimentation processes and geomorphology

The radioactive contamination of a riverine floodplain, heavily influenced by discharges from Krasnoyarsk-26, has been studied with respect to sedimentation processes and the geomorphology of the Upper Yenisey floodplain. The study was effected by implementation of a regime of in situ observations a...

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Bibliographic Details
Published in:The Science of the total environment 2005-03, Vol.339 (1), p.233-251
Main Authors: Linnik, V.G., Brown, J.E., Dowdall, M., Potapov, V.N., Surkov, V.V., Korobova, E.M., Volosov, A.G., Vakulovsky, S.M., Tertyshnik, E.G.
Format: Article
Language:English
Subjects:
137Cs
Balchug
Cesium Radioisotopes - analysis
Environmental Monitoring
Freshwater
Geography
Geologic Sediments - analysis
In-situ measurements
Particle Size
Radiation Dosage
Radiometry
Radionuclides
Rivers - chemistry
Russia
Sedimentation
Soil Pollutants, Radioactive - analysis
Water Movements
Water Pollutants, Radioactive - analysis
Water Supply
Yenisey
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Summary:The radioactive contamination of a riverine floodplain, heavily influenced by discharges from Krasnoyarsk-26, has been studied with respect to sedimentation processes and the geomorphology of the Upper Yenisey floodplain. The study was effected by implementation of a regime of in situ observations and measurements, sampling, and the interpretation of satellite images. The results of the study indicate that on the Balchug Bypass Floodplain, radionuclide contamination is primarily influenced by the thickness of the deposited sediments, and the area can be considered as two depositional environments. The Balchug floodplain area was contaminated due to sedimentation of radionuclide-contaminated alluvium, whose depositional regime significantly changed after the construction of a hydroelectric power station in 1967. Contamination levels are lower on the upstream part of the floodplain where sediment depth is less than 0.2–0.3 m, and this contamination started to accumulate in 1967, while the downstream part of the floodplain, exhibiting deeper deposits, displays higher levels of radionuclide contamination because radionuclides began to deposit here in 1958 when the Krasnoyarsk-26 Mining and Chemical Combine (KMCC) commenced operation. Radionuclide contamination of the floodplain is also related to the elevation of the floodplain, higher regions of the floodplain typically having lower contamination than low-lying areas, which tend to be frequently inundated with sediments being deposited during such inundations. Local relief, its orientation, and vegetation cover have also combined to form sediment traps with significantly higher radionuclide contamination. Lithological analysis combined with radiometric assay indicates a total 137Cs floodplain inventory of 33.7 GBq.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2004.07.033