bimodal activity ingestion rate distribution for 99Sr in the Rongelap population.
Data for 6065 and O74 were not sufficient for analysis for the Utirik
Atoll residents.

Values for K, observed at Rongelap were assigned to Utirik

males and females and body-burden histories for population subgroups were
reconstructed using Eq.

1 or 2.

Figures 7 and 8 illustrate the derived mean

adult body-burdens for all significant nuclides studied on Rongelap and Utirik.
This method provides a best fit of the data shown in Figures 2 through 6, and
provides a body-burden history during the early years post-return at Utirik, a
time when body-burden measurements were not made.

Actual data points are also

plotted to demonstrate the fit.
The curves shown for Fe in Figures 7 and 8 were obtained by setting K.
equal to zero.
future ones.

This underestimated the initial body burdens and overestimated
Since Fe contributed less than 1.0% to the total dose equiva-

lent, an arbitrary assignment of Ke based on observed values for the other nuclides was not attempted.

During 1974, another series of blood samples was

obtained from Rongelap and Utirik (Co75).
reported.

Analysis for 27Fe has yet to be

A recalculation of 2>re body-burden and its impact on early dose

equivalent rates will be conducted when the data is made available.
x

A substan-

—_

tial change in dose equivalent is not fo be expected.
.
.
.
.
.
90
Figure 4 and Figure 6 illustrate the observed adult histories of
Sr and
137¢. mean urine activity concentrations.
adults were plotted.
Figure 7.

Mean values for adult males or all

Measured values for 13766 body burdens were also shown in

A much smoother curve was plotted in Figure 7 and it was determined

that the collection and analysis technique for urine samples introduced the addi.
o
tional variations.

.
.
.
137
On the basis of this observation for
Cs, a smooth body-

17

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