Table 229. Cumulative rems to organs from 239, 2405,,, via inhalation pathway, liver. S YRS EXPOSED 16 VFS 38 YRS SO ‘YRS 70 YRS 8.85 8.8080 8.68nn 9.8802 8,665 8.6002 B.12 A.6o00 9.8008 H.90a84 OM, o811 8.0578 2.88 8 .BAD | a.o005 H.a65 A.4iee 0,034 4.78 68,6002 H.80t1 H.68155 B.O437 W.aras 7.38 8.8082 8.8010 3.9241 A. Hers A.1241 ir. 68 8.aaar A. a4 .856 1 G.1581 A, 2596 15.480 6.8006 A. O0f6 8.9495 AL,tSas a, 2550 77.80 8.8021 A.aLes AL2541 A,r lel 1.3880 ¢. 38 A, aaa HAWS O.A24} H.o67Ts Wl, 17.60 A,69a7 A. Anse 4.0591 “165° 0. OKs 9.50 9.804 O.8n23 ,O.0312 B Meo3 B.isis 14.70 8.866 QO, 8035 ALO4S5 AB LSer 4 2aas PCI‘S TM SOIL LIVING PATTERN IT. MODIFIED UNMODIFIED Il. MODIFIED UNMODIFIED Ifl. MODIFIED UNMODIFIED I¥. MODIFIED UNMODIFIED V. MODIFIED UNMIDIFIED V1. MODIFIED UNMODIFIED | I = food intake, g/day, case represents the current conditions; "village graveled'' shows the effect of f placing a 5-cm gravel layer in the village area; and " man = fraction of nuclide ingested reaching the organ of plowed! indicates reference, OQ it the effect of thoroughly mixing the top fish, shellfish, coconut, land . . marine food chain erab, etc.), S Doses via the marine and terrestrial food chains were estimated using the and the intake and retention by man: x | man Cc ~man mass of the organ of reference, (g), following differential equation to describe . dC nan - I fman Cc dt M concentration of nuclide in food product, pCi/g, (i.e., 30 cm of soil in the specified area. D ptdi (3) man = effective elimination rate of : nuclide from man, (day }), (Aman . \piological * r -adioactive’ where Cc man The concentration C in the food preducts = concentration of nuclide in man, pCi/g is calculated assuming that the nuclide Il-41