This study focuses on the cesium-137 ((137)Cs) contamination in grass and in different compartments of oak trees growing in ecosystems, located in the zone with sub-mediterranean climate in South Bulgaria, characterized with high summer temperatures, low precipitation and often periods of drought. In 2008, three experimental sites - PP1, PP2, PP3 - were sampled in oak ecosystems from Maleshevska Mountain at 900 m above sea level. Samples from grass species and oak tree leaves, branches with different diameter, wood disks and bark were analyzed for (137)Cs activity with gamma-spectrometry. The soil-to-plant transfer factor (TF) values for (137)Cs were estimated differentiating different tree compartments. Our findings showed relatively high activity concentrations of (137)Cs in oak trees even 22 years after the Chernobyl accident. The grass under oak was less contaminated compared with the oak trees. The different organs of oak trees could be distinguished according to the (137)Cs contamination as follows: bark>branches (d<1 cm)>leaves>branches (d>3 cm)>wood. The relatively higher contamination of bark compared with the new-formed biomass suggested that a significant part of (137)Cs was accumulated as a result of direct adsorption at the time of the main contamination event. The TF values obtained and the presence of (137)Cs in the branches, leaves and in the wood formed after 1986 confirmed that 22 years after the contamination, the main mechanism of (137)Cs entrance in tree biomass was the root uptake.
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