Long-term stability of decontamination effect in recreational areas near the town Novozybkov, Bryansk Region, Russia

In 1995 and 1997, experimental decontamination campaigns were carried out in two recreational areas, Novie Bobovichi and Guta–Muravinka, near the town of Novozybkov, Bryansk Region, Russia. These areas were strongly affected by the Chernobyl fallout in 1986. In order to examine the long-term stabili...

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Bibliographic Details
Published in:Journal of environmental radioactivity 2006-01, Vol.85 (2), p.280-298
Main Authors: Ramzaev, V., Andersson, K.G., Barkovsky, A., Fogh, C.L., Mishine, A., Roed, J.
Format: Article
Language:English
Subjects:
Agaricales - chemistry
Air Pollutants, Radioactive - analysis
Cesium Radioisotopes - analysis
Chernobyl accident
Chernobyl Nuclear Accident
Construction Materials
Decontamination
Environmental Exposure - analysis
Housing
Humans
Long-term stability
Poaceae - chemistry
Radiation Dosage
Radiation Monitoring
Radioactive Fallout
Radioactive Hazard Release
Radiocaesium
Recreation
Recreational housing areas
Russia
Soil Pollutants, Radioactive - analysis
Trees
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Summary:In 1995 and 1997, experimental decontamination campaigns were carried out in two recreational areas, Novie Bobovichi and Guta–Muravinka, near the town of Novozybkov, Bryansk Region, Russia. These areas were strongly affected by the Chernobyl fallout in 1986. In order to examine the long-term stability of the clean-up procedures, a programme has been carried out to continuously monitor the radiological situation in and around the decontaminated areas. This follow-up program consists of regular (1–3 times per year) measurements of absorbed gamma-dose rate in air (DR) at reference indoor and outdoor locations, repeated DR measurements on a grid, and gamma-spectrometric analysis of soil and other environmental samples. Very similar dynamics of the Chernobyl-related DR, mostly attributed to radiocaesium decay, were found in all the locations. For the period under study (September 1995–May 2003), the half-lives (years) for the reduction in radiocaesium-dependent DR contribution due to contaminant migration (in the following termed ‘DRM half-lives’) were, respectively, 52 ± 26, 57 ± 23, 43 ± 21, 46 ± 15, and 80 ± 56 for the following locations: untreated outdoors, treated outdoors, untreated indoors, treated indoors, and undisturbed forest–grassland plots outside the recreational areas. These relatively high values of the current DRM half-lives correspond very well with the results of soil core analyses, which showed no time-dependent changes in the mean mass depths of the 137Cs distribution, neither at treated nor at undisturbed plots. The following signs of natural restoration of the disturbed forest–meadow ecosystems have been observed at treated areas: formation of a new litter layer, development of grassy spots, mushroom growths and new generations of pines and birches. The levels of the 137Cs content in grass and mushrooms from treated plots were one or two orders of magnitude lower, than those registered in the samples from untreated areas. The follow-up study demonstrates the long-term stability and efficiency of the decontamination carried out. There are two main reasons for the sustainment of the effects: careful implementation of adequate clean-up procedures and natural strong fixation of radiocaesium in soil-associated matrices of the ecosystems.
ISSN:0265-931X
1879-1700
DOI:10.1016/j.jenvrad.2004.05.023