Abstract
The feasibility of willow short rotation coppice (SRC) for energy production as a revaluation tool for severely radiocaesium-contaminated land was studied. The effects of crop age, clone and soil type on the radiocaesium levels in the wood were assessed following sampling in 14 existing willow SRC fields, planted on radiocaesium-contaminated land in Sweden following Chernobyl deposition. There was only one plot where willow stands of different maturity (R 6S 2 and R 5S 4: R, root age and S, shoot age) and clone (Rapp and L78183 both of age category R 5S 4) were sampled and no significant differences were found. The soils differed among others in clay fraction (3–34%), radiocaesium interception potential (515–6884 meq kg −1), soil solution K (0.09–0.95 mM), exchangeable K (0.58–5.77 meq kg −1) and cation exchange capacity (31–250 meq kg −1). The soil-to-wood transfer factor (TF) of radiocaesium differed significantly between soil types. The TF recorded was generally small (0.00086–0.016 kg kg −1), except for willows established on sandy soil (0.19–0.46 kg kg −1). Apart from the weak yet significant exponential correlation between the Cs-TF and the solid/liquid distribution coefficient ( R 2=0.54) or the radiocaesium interception potential, RIP ( R 2=0.66), no single significant correlations between soil characteristics and TF were found. The wood–soil solution 137Cs concentration factor (CF) was significantly related to the potassium concentration in the soil solution. A different relation was, however, found between the sandy Trödje soils (CF = 1078.8 × m K −1.83, R 2=0.99) and the other soils (CF = 35.75 × m K −0.61, R 2 = 0.61). Differences in the ageing rate of radiocaesium in the soil (hypothesised fraction of bioavailable caesium subjected to fast ageing for Trödje soils only 1% compared to other soils), exchangeable soil K (0.8–1.8 meq kg −1 for Trödje soils and 1.5–5.8 meq kg −1 for the other soils) and the ammonium concentration in the soil solution (0.09–0.31 mM NH 4 + for the Trödje soils compared to 0.003–0.11 mM NH 4 + for the other soils) are put forward as potential factors explaining the higher CF and TF observed for the Trödje soils. Though from the dataset available it was not possible to unequivocally predict the Cs-soil-to-wood-transfer, the generally low TFs observed point to the particular suitability for establishment of SRC on radiocaesium-contaminated land.
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