Via Nature News & Comment: Fukushima's uncertainty problem. Excerpt:
It's been well over a year since multiple meltdowns at the Fukushima Daiichi plant in Japan sparked the worst nuclear crisis in 25 years — and it is remarkable how little we still know about its impact.
I was reminded of this fact by a paper published yesterday1 that tries to put numbers on the health effects from the accident. The paper, by engineers John Ten Hoeve and Mark Jacobson of Stanford University in California, seems at first glance to be a thorough analysis, but the uncertainties surrounding the crisis mean that the work is unable to provide even an order-of-magnitude guess for the number of cancer deaths that will result from Fukushima.
Anywhere from 15 to 1,100 people may die as a result of exposure to radioactivity released by the plant, it finds. Another 24 to 1,800 people may experience the debilitating effects of cancer, although they will not perish from the disease.
To most people, there's a big difference between 39 cancers and 2,900. Why can't science do better? The problem is that these types of estimate depend on models and assumptions. In other words, it's guesswork — of a very educated kind, but guesswork nevertheless.
Best guesses
First, there's the question of how much radioactivity the plant released. Ten Hoeve and Jacobson estimate that something like 6.5 × 1016 becquerels of iodine-131 were released from the plant, along with another 1.7 × 1016 becquerels of caesium-137.
Never mind what a becquerel is, these are just guesses. The fact is that the tsunami that caused the meltdowns also knocked out most of the radiation monitoring equipment around the plant. A global monitoring network has allowed scientists to make a rough guess, but estimates vary by a factor of two.
Second, there's the question of who was exposed and when. Atmospheric transport models (based on real weather data) give a sense of where the radioactivity might have gone, and where it would have fallen out of the atmosphere. But in the chaos following the earthquake and tsunami, no one can say where the residents of Fukushima prefecture actually were.
The authors' model makes assumptions about the habits of evacuees (for example, that they sheltered inside for just 12 hours a day) and about their locations, assuming that they were spread perfectly uniformly around the plant. The assumptions of a separate report2 by the World Health Organization (WHO) are slightly different, but no one knows for sure who was where when the crisis began.
Finally, at the most fundamental level, there's the question of what effect low-level radiation exposure has on the human body. Researchers know that there is a small but detectable increase in cancer risks when subjects are exposed to more than 100 millisieverts (mSv) of radiation, but they don't have any evidence for what happens below that level.
The best estimates of the WHO suggest that almost no civilians in Fukushima received a dose above 50 mSv, so there's no real way to derive their risk empirically.
The best guess of science is something called the linear no-threshold model of human exposure, which extrapolates the known risks in order to estimate low radiation doses. Not everyone believes the model: some say that low-dose radiation might be worse for you than predicted; others say that it might actually make you healthier. There's no way to know with the data we have.
