RMI Nuclear Justice Documents

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74
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averaye).* In the nbsence of atmorpheric tests these levels

ure expected to continue to decline wenerully except for small
transitory rises during the next few spring, seapuns. The gn-

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in milk. This is less than the 82 “strontium units” predicted

around the Nevada Test Site:is among the lowest in the
In general, past predictions of levels of strontium 0 in bones.

in the upper ranges te avold undercetimations of radiation ex-

two of the predicted amounts considering the fact that such

predictions require the: application of many scientific - disciplines—nuclear physics, meteorology, chemistry, -plant and
°
animal physiology, etc.-often-to new situations.

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oe

percent of the bone dose received during the same 7U-year

period from natural background sources.

boty‘ particle of very low energy that travels a very alert

Although its radio-

Sh eg,

active half-life is long-6760 years—the process of natural

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Carbon 14 ie produced naturally by interaction of coamic

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at a rate of approximately one milliroentgen (0.001 roentgen

ra

per year. This is the natural backgroynd rate fer carbon Pig

The Date

wa,

:

‘Bince nuclear weapons testing started 61) million luna totu
energy yield huve been released. Considering the conditions
of firing (surface versus six bursts) about the sare vmount of
carbon'14 was produced from all past tests as ie herimally prev
entin that part of the earth's biosphere that determines radis
tion exposure to man. Assuming that.most of (ie carbon1
produced by the detonation will] “disappear” Inte tiv drep ocea:

with a half-time of 33 years, the estimated whole buds exposur

;

for 70 years is 37 milliroontgens (0.037 roentgen).

carbon 34 will be about one-quarter of that at tlic start, bog
about one-quarter of ene milliroentgen (0.00025 i ocutven) peg
year. Thereafter, the activity will persist for shousands

Background Information

production had been going on for wuch a great time thet the
rate of production and rate of decay were in equilibrium, i.e,,
just aa much is formed each year as decays away, until nuclear
test detonations were initiated. There is a constant exchange

of carbu:. 14 atoms between the almousphere and the surface
of the earth on the one hand, and the deep ecean on the other,
56

.
5
- * cent of the atoms.
Nuclear detonations can alse produce earbou di ty iter:

slg

After this 70-year period the dose rate from benih produce3g

F. CARBON 14
rays with the nitrogen inthe atmosphere.

*

- giatance it n-vertheless irradiates essentially the whole body

That segmentof the U.S, population whosebones will receive
the highest radiation dose are children born in 1963 in regions

The predicted average 70-year radiation dose to the bones
of the age group receiving the highest exposure from all past
tests—about 466 milliroentgens (0.465 roentgen) from ail radioactive materials wilhin and outside the body—is about five

vr

Radioactive isotopes att chemically-gimilar to their stabi am
counterpurts so that not only ia stable garbyn byi visu carbae
14 found in all living cells.” Thus, altheugh varbon 14 emits »

of strontium 90 in bones have been within about a factor of

Evaivation

tet F

Eo
a8
a
a with the latter constituting a reservoir holding whoot tl per

“disappears” in the fullowing 33 years, until only « low percen
’ remains.

Even so, it is remarkable that the observed amounts

of heavier rainfall. The total radiation exposure to ti sse children—from internally deposited as well as external radionuclides has been predicted to be abuut 465 milliroentgens (0.465
roentgen) accumulated over a 70-year period,t.
°

s,

> ent in that part of the earth’s biosphere thai cerermine:
radiation exposure to man. However, half of this newly -ndde: aa
carbon J4 “disappears” inte the deep ocean witli about
years,"®) One-half of that remaining in the atmosphere hikewis

.

have been too high. Thir is duein purt to the selection of data
posure.

.

:

fr AE

‘

ar ——-—

bo
- tons of total yield Gred in the air (surface buretone-half of the neutrons mente the ground) well prone a sul:
cient anjunt of carbon 14 to equal the amount cericaliy pre:

and should foretell less in the bones than predicted.’ Incidentally, the amount of strontium 10 in the milk produced
hole

-

=

* action of the neutrone, produced at the time of tos explosion,
* with nitrogen of the atmosphere. Approximate! PU Tyee prat

nua) (1/83) national average ‘for thuse ureas of the United
States showirg the highest vajues was 26 “strontium units”

country.

=

tm kT Te

Sacks: Bt ARTS.
4(EST
peOS
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years but nt ever decreasing levels.

:

Evalvetion
The radiation exposure from carbon 14 may aecrount

¥

roughly one-third of the total radiation dove fron (nliout ov
the next 7) years. Hecause of its long radiolugicn! half-lli eam
it will persist at low levels of activity for thousiis of yea: aa
However, even before the 70-year period is compivicd the dow
rate from carbon 14 will be so low as te be ne: mensurabiggt
This does nol mean that the radiation is not '') 9. tut it » ia