ABSTRACT
The redistribution of radionuclides in atoll soils following
fallout from a nuclear device is described.
The soils are cal-
careous, containing no inorganic colloids, and their exchange
capacity is directly related to organic content.
Comparison of
gamma-ray spectra of depth increments from young and old soils
shows that est37 and spt25 move most readily in old soil, while
the principal ga:csn-emitting radionuclide moving in young soil
1
is &b 25 |
ey
.
S$: s:aves in both old and new soils, and quantitative
differences in .cxtical movement between soil types is obscured
by the highly vaiisble surface distribution of the radionuclides.
There is a vertical gradient in the distribution of radionuclides
even within the surface inch.
Litter redeposits os)3? and sx??
at the soil surface and bird droppings have added zn? and co°?,
In young soils the highest levels of radioactivity are associated
with soil algae found as a surface crust in undisturbed areas
and in coral fragments in eroded areas.
Horizontal movement is
localized and probably is of little overall importance.
Buried
organic horizons contain more Cs 137 than adjacent soil layers,
and reots are generally more radioactive than the surrounding
soll except at the soil surface.
Pumice particles in the soil
adsorb radionuclides but pumice is found infrequently.
Mechani-
cal mixing by animals in old soils and by erosion in young soils
wees
.
PTE