Absorption and translocation of cesium through Konara oak (Quercus serrata) bark

ABSTRACT

Bark–wood translocation has been suggested as an important route for the contamination of trees via radiocesium in the initial stage of deposition. In this study, we investigated the cesium absorption through bark of mature Konara oak (Quercus serrata). Stable Cs (¹³³Cs) was applied onto the bark at 1.2 m, and then after 8 weeks, the ¹³³Cs concentration was determined in the outer bark, inner bark, sapwood, and heartwood of stem disks at several heights, as well as in the current-year leaves and branches from the tree tops. At the height of 1.2 m, the ¹³³Cs concentration was significant higher in the sapwood of the treated trees than in those of the control trees. However, no difference was found in the ¹³³Cs concentration in the heartwood of the treated and control trees not only in the wood above and below 1.2 m but also at 1.2 m. There was no significant difference in the ¹³³Cs concentration of the current-year leaves and branches of the treated and control trees. Our results suggest that Cs absorption through bark may occur even in the dormant period of tree and the absorption is probably independent of cambial activities.