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]