80
RADIATION STANDARDS, INCLUDING FALLOUT
Placard 16 shows the North Pole on the left, Equator on thecenter,
and South Pole on the right, and the altitude in thousands of feet on
the vertical scale as before. The tropopause is shown by the lowermost line. The stratosphere is divided into a series of zones. It is
argued that in each zone the fallout will behave more or less the
same, but fallout may be different from one zone to another.
Considerfirst the lower polar stratosphere. This would correspond
to injections from Russian tests with yields up to a few megatons.
Second, zone B is in the lower equatorial region. The Christmas
Tslandtests in the lower megaton range will add debris here. Finally,
in the very high atmosphere is a zone where rocket tests may be inject-
ing their debris.
.
Our predictions are largely based on extrapolations from previous
experience.
.
Placard No, 17 displays the North Pole on the left, the Equator in
the center, and South Pole on the right. The relative amount of
fallout is shown on thevertical axis.
For injections into the lower polar regions, the upper curve shows
that most of the fallout is expected to take place in the 30° to 60°
band and almostall of it in the northern hemisphere. For the Christmas Island tests, the stratospheric componentis expected to partition
equally between the hemispheres and peak in the 30° to 60° bands of
both hemispheres.
For very high altitude explosions, those which inject debris to
hundreds of thousandsof feet of altitude, the geographical pattern
will be about the same as the lower equatorial pattern, except that
the levels would be somewhat lower because of its longer residence
time. Further, there will be more time for radioactive decay and
there should be virtually no short-lived isotopes.
Placard 18 shows the relative deposition for. successive years after
the time of injection. The horizontal scale is the number of years
after the injection has taken place, and the ticks indicate the winter,
spring, summer, and fall.
The bars indicate the spring zone of each
year showing the predicted maximum in each spring season.
The injections made in the lower polar stratosphere show a very
marked peak in the first year and a decreasing fallout in successive
years. After 4 years there won't be enoughfallout to be measurable.
The injections made in the lower stratosphere from Christmas
Island will fall out in much smaller amounts in the first year but will
take much longer time to be deposited. Maxima will occur in the
spring seasons perhaps as long as 9 yearslater.
_ Andfinally, we can compare the lower equatorial stratosphere with
injections from the very high altitude on placard No. 19. This
placard shows a peak in the first year for the lower equatorial injection andat the same time practically no material was brought down
to the ground fromthe high atmosphere.
In later years nuclear clouds placed in the high atmosphere may
actually produce more fallout than from clouds in the lower equa-
torial stratosphere for an equal injection.
I would like to conclude bystating that we have learned much in
the years since 1959, mainly about the nature of the fallout. But I
feel that the meteorological profession has not kept abreast of this
progress. Ourpredictions, by and large, are based on extrapolations
from past experience.
.
.
253
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eldmea gy ante
ghee neathebReeSOPhitAVROR!