On the Precautionary Principle
This essay critiques the basic notion behind the precautionary
principle. I acknowledge that the precise definition of the principle may indeed
consider the points that I make; if that is the case, then this criticism is not
directed against technical application of the actual principle but, rather,
against popularized and oversimplified conceptions of it.
In looking
through Google's
list of definitions for "precautionary principle," I found a few that state
the idea in the way in which I have always heard it:
"Better safe than sorry" attitude. The idea that, in the face of uncertainty, society should assume that potential problems are real and address them accordingly. (source)
Assumption of the worst-case scenario with respect to actions whose outcomes are uncertain. (source)
In other words, when one is uncertain how harmful something will
be, one assumes the worst until science proves otherwise.
This idea may
sound very nice initially, but consider a few cases that one might encounter in
practice.
Example 1. Suppose that Monsanto has just developed two new pesticides, Pesticide A and Pesticide B. Each has so far been subjected to only one preliminary study, so their actual toxicities remain uncertain. Yet, comparing only these initial results, it appears that A is very likely to be carcinogenic, while B shows no such signs. Following the simple precautionary approach given above, we must assume that both chemicals are seriously carcinogenic, because that is the worst-case scenario and their actual deleteriousness is not yet certain. But this would mean that regulatory agencies ought to spend just as many resources controlling and limiting the use of B as they do A--which is clearly not what actually ought to be done.
Example 2. In 1985, EPA characterized the chemical dioxin as "the most potent carcinogen ever tested in laboratory animals" (source). One source of dioxin is the bleaching of paper with chlorine. It is true that confirmedly safe alternatives for bleaching paper have been discovered, but imagine that they had not. Suppose someone develops a new chemical that proves as effective and inexpensive in bleaching paper as chlorine. This chemical, too, creates bleaching byproducts, but they are entirely different from dioxins. Before any studies have been performed, the precautionary principle requires assuming the worst possible toxicity--perhaps one as detrimental as that of dioxin. But in all probability, the new chemical byproduct will not be quite so baleful. It makes sense, then, for paper mills to replace chlorine with the new bleaching agent, even before years of extensive study take place. Yet the precautionary principle as outlined above rejects this action.
As these examples show, the problem with the simplified
precautionary principle lies in its inordinately absolute presumption of
harmfulness, even when such harmfulness is not likely. Certainly we should not
wait until adverse consequences are proven to take action--to that extent, the
precautionary principle is right. But it can be just as shortsighted to assume
great harm as it is to assume none at all.
The best approach, therefore,
is to calculate an approximate expected value of
deleteriousness. Granted, coming up with probability values is an inexact and
somewhat arbitrary process (indeed, the frequentist school of
probability rejects assignment of such values even in principle), but what
is the alternative? It is even more arbitrary to assume one particular result,
as the simplified precautionary principle does. It is ultimately more helpful to
say that A has a 0.9 chance of being carcinogenic while B has a 0.4 chance than
to assume that they both have a 1.0 chance until proven otherwise. The
expected-value approach enables society to conserve its resources for those
dangers that genuinely are most threatening.