K. Bunzl et al., ASSOCIATION OF FALLOUT PU-239-241 WITH VARIOUS SOIL COMPONENTS IN SUCCESSIVE LAYERS OF A GRASSLAND SOIL(240 AND AM), Environmental science & technology, 29(10), 1995, pp. 2513-2518
The association of Pu-239+240 and Am-241 from the global fallout with
various soil components was investigated in six successive layers of a
n undisturbed grassland soil (Alfisol) from Oto 30 cm by a sequential
extraction procedure. In this way, the fractions readily exchangeable,
bound to carbonates, bound to iron and manganese oxides, bound to org
anic matter, and residual (mineral) were determined. The results revea
led that these radionuclides are in most soil layers primarily attache
d to the soil organic matter (in general >57%) but to a considerable e
xtent also attached to oxides and minerals. As a result, the readily e
xchangeable fraction of these actinides 30-40 years after their deposi
tion is rather low (for Pu, <1%). Significant differences between the
partitioning of Pu and Am are observed for all fractions, even though
they are rather small for the bound to organic matter fraction [with t
he exception of the 5-10-cm layer in the A(h) horizon, where much more
Pu (67%) than Am (18%) is associated with organic matter]. In the fra
ction bound to oxides, more Am is found than Pu; in the residual fract
ion (minerals) of most soil layers, more Pu than Am is present. In all
soil layers, the readily exchangeable fraction of Am is significantly
higher than that of Pu (on average by a factor of 7). The results are
also discussed in relation to the long-term vertical migration rates
as determined recently for both radionuclides in the same soil and wit
h respect to possible soil reclamation procedures.