Table 229.
PCI-G
LIVING PATTERN
1.
IN SOIL
Iv.
Pu via inhalation pathway, liver.
EMPOSED
S YRS
18 4F=
ZH YRS
SO vrs
7O YRS
MODIFIED
ABS
0.6888
4.8806
A. ARGS
H.@G05
8.@aas
UNMODIFIED
A.12
A,goee
a. ea06
.a0e4
G01)
A. O028
2.00
a.aae)
8. 0ne5
0.8066
A. 186
A, O340
UNMODIFIED
4.78
8. ABs
A.Po1t
@.@155
&,@4a7
G.0735
MOPIFIED
7.38
0.8883
A,BALS
A. A241
O.8ers
A.124
UNMODIFIED
17.88
Ah, A687
aed
A561
O.1561
A. SE
MODIFIED
15.88
0.8866
A.a0s6
A, O45
Bm. peas
a. 2550
UNMODIFIED
77.08
8.an2
a.01e5
a.2541
Go. 7161
1.2050
7.38
4.8003
A. 13
®.8241
6, G879
Ely zett
17.60
A. BReT
Oo. BH42
6.0551
7. 1687
©. 2052
9.50
A,Aaod
a.a025
A.OS15
o.0887
S.1sis
14.78
A. BABE
9. Haze
A, A4As5
O.LEET
a, 2495
II. MODIFIED
[17¥,
239,240
Cumulative rems to organs from
¥. MODIFIED
UNMOPIF IED
VI. MODIFIED
UNMODIFIED
case represents the current conditions;
I = food intake, g/day,
‘village graveled'' shows the effect of
f nan fraction of nuclide ingested
placing a 5-cm gravel layer in the village
reaching the organ of
area; and "
reference,
plowed" indicates
the effect of thoroughly mixing the top
C = concentration of nuclide in
30 cm of soil in the specified area.
food product, pCi/g, (i.e.,
fish,
Dnarine food chain
M = mass of the organ of refer-
food chains were estimated using the
ence, (g),
following differential equation to describe
;
;
the intake and retention by man:
and
A
dt
Tfmanc
™M
-
x
Aman “man
3
man
(3)
(Anan
where
Conan
coconut, land
crab, etc.),
Doses via the marine and terrestrial
dCinan
shellfish,
= concentration of nuclide in
=
= effective elimination rate of
-1
nuclide from man, (day
.
,
biological
+X
.
~).
.
radioactive’
The concentration C in the food products
man, pCi/g
is calculated assuming that the nuclide
II-4]