As the American humorist Will Rogers said: “It’s not what we don’t know that gives us trouble, it’s what we know that ain’t so.”
Low levels of nuclear radiation are dangerous.
Explanatory note: The normal background level of
radiation is 2.4 mSv (millisieverts) per year. A single X-ray is about 1 mSv
and radiation treatment for cancer exposes surrounding healthy tissue to
several thousand mSv.
There is a widely held belief that nuclear radiation is
dangerous, no matter how small the dose. The grounds for this are the “The
linear no-threshold hypothesis” that says that all levels of radiation are
dangerous and if the radiation level doubles, so does the risk. This hypothesis
is used as the basis for estimating the risk of cancer from low levels of
radiation from nuclear power stations. It was dreamed up in the 1950s when
nuclear testing was in full swing because it supported the arguments of those
who opposed atmospheric nuclear tests. But it has never been tested against the
evidence.
Since then evidence that low levels of radiation are not
dangerous has been gathered from the survival rates of people who were exposed
but not killed at Hiroshima, from the survival rates of people exposed at
Chernobyl and the fact that, in Ramsar in Iran the population has been exposed
to natural levels of radiation that, according to the hypothesis, should have
caused increased lung cancer. Yet they have been living there for hundreds of
years and there is no indication of any harmful effect.
Research on the survival of Hiroshima victims beyond 1950
has revealed that radiation levels need to be about 100 times greater than the
normal yearly background level before there is a measurable increased risk.
Beyond that it rises steeply and there is a significant risk of additional
cancer deaths at 1000 times the normal yearly background level.
The Chernobyl nuclear accident was well researched and
provides even better data that shows that levels less than about 100 times
background radiation (~240 mSv) cause no measurable harm. The risk of harm
increases slowly up to about 1000 times natural radiation and much faster after
that. At about 3000 times natural radiation most people will die.
People are generally terrified of low levels of nuclear
radiation but, if cancer is detected, most willingly accept levels of radiation
that can be as high as 30,000 years of background radiation. The radiation is
aimed at the tumour but the nearby healthy tissue survives in spite of being
exposed to 10,000 times background radiation.
At Fukushima the United Nations Committee on the Effects
of Nuclear Radiation has stated that nobody has, or will, die of radiation from
the accident. But thousands of people died as result of forced evacuations from
regions with safe levels of radiation and from heat exhaustion in Tokyo as a
result of the power cuts that followed closing down of other undamaged nuclear
reactors.
For further reading I suggest Prof Wade Allison’s website
radiationandreason.com. He is an expert in radiation physics (he reviewed and
edited this article) and believes that the safety level for radiation exposure
should be increased by as much as a factor of a thousand. If this was done the
fear of nuclear power would be much reduced and there would be a substantial
reduction in cost. Also, one would hope, the strident opposition to using
nuclear radiation against Campylobacter and insects in imported fruit and
vegetables would end thus sparing many people of acute illness and reducing the
chance of the arrival of unwanted insects.
1 comment:
Yet still the melon-heads resist the cheap, clean generation of electricity by nuclear power. They'd far rather the inhabitants of this earth reverted to primitive cave-dwellers. They think that the human race is a blot on the earth's surface.
Aunty Podes
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