#491: Shifting the Burden of Proof
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SHIFTING THE BURDEN OF PROOF
For most of history, humans were so puny, compared to the rest of
nature, that the speed of technological change didn't matter.
But since 1945, humans have become a major force that nature must
reckon with. Human activities now mobilize (pull from the deep
earth and redistribute into surface soils and water) much larger
quantities of many minerals than all the rest of nature put
together. In other words, humans dwarf the rest of nature when
it comes to moving nitrogen, phosphorus, sulfur, arsenic,
mercury, lead, and a dozen other metals. In addition, we have
invented and dumped into the environment enormous quantities of
synthetic chemicals that nature does not ordinarily create. As a
result, we puny humans are changing the chemical balance of the
soils and waters of the entire planet. We are now waiting
(without paying close attention) to learn what effects these
changes will have on wildlife and on human health.[1]
As we saw last week, we are flying blind (see REHW #490). When
we deploy new chemical technologies (and genetic engineering
technologies), we have little or no idea what the consequences
will be. We learn about the consequences by trial and error,
exposing wildlife and humans and then waiting until harm becomes
evident. Usually, we do not even study the exposed individuals
in any systematic way. Wildlife may or may not be studied. In
the case of humans, we almost invariably wait until they notice
symptoms in themselves. Then we generally ignore them until they
become desperately angry and get themselves organized into a
political force. Then we may begin to look for harm, using crude
techniques like epidemiology, which can only discover problems
that affect a large proportion of the study population.[2] Such
studies take years to complete; meanwhile exposure to the
chemical continues. This is the "prove harm" philosophy of
public health protection and it forms the basis of the public
health system in the civilized world today. It is not a
philosophy based on prevention. Victims have to prove harm before
controls can be initiated.
After harm becomes evident, we may (or may not) take regulatory
steps to control the source of the problem. Although corporate
polluters complain bitterly that they are being strangled by
environmental regulations, in truth, all of the nation's
environmental laws, taken together, impose controls on only about
350 individual chemicals. There are 71,000 chemicals in
commercial use today, so our regulatory system imposes controls
on one-half of one percent of the chemicals currently in use. In
other words, 99.5% percent of chemicals are entirely unregulated.
Under the "prove harm" pollution control system, the way we learn
about chemical problems is by unpleasant surprises. We learn
after the fact that we have begun to heat up the planet by our
emission of greenhouse gases. We learn after the fact that our
refrigerators and air conditioners have eaten holes as big as the
United States in the atmosphere over the north and south poles.
We watch cancer rates steadily rise and after about three decades
of this, we begin to scratch our heads. This is the way the
"prove harm" public health protection system works.
The most recent tidal wave of bad news has to do with hormones.
The new book, OUR STOLEN FUTURE, describes how scientists during
this decade have pieced together the latest threat to the
well-being of wildlife and humans: many industrial chemicals we
have been dumping into the ecosystem in huge quantities for years
are now thought to interfere with hormones.[3] (See REHW #263,
#264, #486, #487, and #490). Hormones are natural chemical
messengers that flow through the blood stream, providing chemical
instructions that control growth, development and behavior in
birds, fish, amphibians, reptiles, and mammals, including humans.
No one knows how many of the 71,000 chemicals now in use can
actually interfere with hormones; so far, 51 chemicals have been
shown to have such an effect. The range of problems that may be
caused by hormone disruption is large: cancer, birth defects,
confusion in sexual preference (seen in wildlife and in
laboratory animals), poor parenting (seen in wildlife), stunted
growth, reproductive failure, diminished sperm count,
endometriosis (a painful disease of the menstrual tissues),
ectopic (tubal) pregnancies, damage to the immune system,
impaired short-term memory, decreased ability to pay attention,
diminished intelligence, violent behavior--the list is long and
unpleasant. There is no doubt that hormone-related damage is
occurring in some wildlife populations. The case for damage to
humans is less firm; however, it seems certain that this is a
serious problem that the public health system must now gear up to
define and then begin to solve.[4]
The main question raised by this most recent tsunami of bad news
is this: given that we are flying blind, what public policies
could we adopt that might reduce the number of unpleasant
surprises we leave to our children?
The problem breaks down into two parts:
(1) what should we do about existing chemicals ?
(2) what should we do about newly-created chemicals?
For existing chemicals, OUR STOLEN FUTURE offers some useful
suggestions:
** Greatly reduce the number of chemicals on the market. OUR
STOLEN FUTURE describes an effort to find environmentally benign
chemicals for use in the textile business. A group of
researchers examined 7500 chemicals used to dye or process
fabrics. They eliminated chemicals that were toxic, persistent,
mutagenic, carcinogenic, or known to interfere with hormones. Of
the 7500 chemicals, only 34 passed all the tests. As a result,
an environmentally benign fabric is now being marketed.[5]
** Reduce the number of chemicals in products. Make products
simpler.
** Make and market only chemicals that can be readily detected at
relevant levels in the real world with current technology.
** Restrict production to only products that have a completely
defined chemical makeup and disallow products containing
unpredictable mixtures of chemicals. Such mixtures --for example
the 209 PCBs [polychlorinated biphenyls] --are difficult to test
for safety and to track after they are released into the
environment.
These are useful suggestions for altering our approach to
EXISTING CHEMICALS. But the issues involved are very complicated
and hard for most people to understand. A campaign to achieve
these changes would quickly bog down in debates between "dueling
experts." The public would be left out and would sleep through
the debates. EXISTING CHEMICALS, therefore, offer limited
opportunities for initiating needed changes.
On the other hand, NEW CHEMICALS offer much greater opportunities.
** OUR STOLEN FUTURE points out (pg. 219) that we need to reverse
the burden of proof for safety of new chemicals. Presently new
chemicals are considered innocent until proven guilty. This
should be reversed. New chemicals should be assumed harmful until
they have been thoroughly tested for all the kinds of harm we
presently know about. (This will still not prove that any
chemical is "safe" because history tells us that, in the future,
new kinds of harm will become apparent, and furthermore we can
never test for all the possible interactions between existing
chemicals and new ones.)[6]
Requiring that new chemicals be thoroughly tested, then banning
the bad ones, is the essence of pollution prevention. Despite
this, most corporate polluters --even those claiming to be green
as grass --would almost certainly oppose it. A campaign to make
this one fundamental change --to reverse the burden of proof for
chemical safety --might quickly reveal the amorality and the raw
power of corporate polluters. This would be a win-win battle,
well worth taking on. Even if such a campaign did not initially
succeed in reversing the burden of proof, it might lead to wider
understanding that
(a) corporations cannot reform themselves and
(b) that the corporate form itself will have to be addressed
before we can significantly improve chemical safety. (See REHW
#489, #488, #455, and #449.)
Strategically, it makes good sense to start with a campaign to
reverse the burden of proof for chemical safety. It is an issue
that everyone can understand. It's simple: if a chemical hasn't
been thoroughly tested, it's assumed dangerous and can't be
manufactured. The morality is clear: every baby has the right to
be born free of poisonous chemicals. No corporation has the
right to chemically trespass, to penetrate our bodies with
poisons. Pharmaceutical drugs have to be thoroughly tested
before they can be sold; for the same reasons, all chemicals
should have to be thoroughly tested before they can be sold. Who
would oppose this change? Few people have anything at stake if a
chemical gets banned before it is ever manufactured. Therefore,
most people have no reason to oppose thorough testing of new
chemicals. A campaign to shift the burden of proof for chemical
safety would starkly expose the power relationship between the
public and the corporate polluters. Corporations campaigning for
the right to release untested poisons into the environment would
be shooting themselves in the foot.
True, shifting the burden of proof for chemical safety would slow
the speed of chemical innovation --but that's part of the point.
Evidence accumulated during the past 25 years (see REHW #490)
strongly suggests that, when you are flying blind, you should fly
more slowly than we are presently doing. That way, even if you
hit a mountain, there still might be a chance for survival.
--Peter Montague
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[1] For example, see Jerome O. Nriagu and Jozef M. Pacyna,
"Quantitative assessment of worldwide contamination of air,
water, and soil by trace metals," NATURE Vol. 333 (May 12, 1988),
pgs. 134-139. And see REHW #155. And see David L. MacIntosh and
others, "Dietary Exposures to Selected Metals and Pesticides,"
ENVIRONMENTAL HEALTH PERSPECTIVES Vol. 104, No. 2 (February,
1996), pgs. 202-209.
[2] In principle, epidemiology can discern small effects, but
this requires studying large groups which, under most
circumstances, is not practical.
[3] Theo Colborn, Dianne Dumanoski and John Peterson Myers, OUR
STOLEN FUTURE (N.Y.: Dutton, 1996).
[4] See, for example, ENVIRONMENTAL HEALTH PERSPECTIVES
SUPPLEMENTS Vol. 103 Supplement 4 (May, 1995) devoted to the
subject of "Wildlife Development." And see ENVIRONMENTAL HEALTH
PERSPECTIVES SUPPLEMENTS Vol. 103 Supplement 7 (October, 1995)
devoted to the subject of "Estrogens in the Environment." And
see ENVIRONMENTAL HEALTH PERSPECTIVES SUPPLEMENTS Vol. 103
Supplement 9 (December, 1995) devoted to the subject of "Great
Lakes and Human Health." ENVIRONMENTAL HEALTH PERSPECTIVES is a
peer-reviewed journal published by the National Institute of
Environmental Health Sciences (NIEHS), a federal agency.
[5] OUR STOLEN FUTURE, cited above in note 3, pgs. 226-229. To
learn more about the environmentally benign fabric, call Design
Tex in New York [(212) 886-8100] and request information about
the McDonough Collection.]
[6] Present tests are inadequate for defining the various kinds
of harm that are possible. To begin with, when a chemical is
tested, its metabolites and degradation byproducts should be
tested as well. The chemical and its metabolites and degradation
byproducts should be subjected to an improved battery of tests
which would examine 3 generations of various animals species,
with exposure occurring at various times in the life of the first
and second generations (because the TIMING of exposure is
critical for certain effects to be revealed). The battery of
chemical tests should be done in an uncontaminated environment
(as is present practice) but also should be done under
pseudo-realistic conditions, with the test animals simultaneously
exposed to various "background" conditions, such as farmers might
endure, or city dwellers, or workers in factories or in offices.
By this means, the interactions between a new chemical and
existing "background levels" of chemicals might be revealed. If
any diminished capacity or altered function in the nervous
system, immune system, endocrine (hormone) system or any organ
system is revealed during the full battery of tests, or if any
disease condition or genetic damage is initiated or promoted by
the chemical being tested, of if the chemical is persistent or
bioaccumulative, (see REHW #378) then the principle of
precautionary action would be invoked: given that harm can be
reasonably expected or suspected, even before scientific
consensus is achieved the new chemical would be abandoned for
commercial purposes.
Descriptor terms: technological change; biogeochemical cycles;
prove harm philosophy; pollution prevention; regulation; our
stolen future; hormones disrupters; endocrine disreupters;
endocrine system;
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