ISIS: Lectures in The Philippines

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Lectures in The Philippines

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Mon, 09 Jan 2006 18:59:24 +0000

 

 

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This article can be found on the I-SIS website at

http://www.i-sis.org.uk/philippines.php

========================================================

 

 

ISIS Press Release 09/01/06

 

Lectures in The Philippines

 

By Dr. Mae-Wan Ho and Prof. Peter Saunders in universities

and open forums in Luzon and Mindanao 11-16 December 2005

 

The Precautionary Principle

**********************

 

Prof. Peter Saunders

 

Institute of Science in Society and King's College London

 

Abstract

 

The precautionary principle is really just a statement that

we shouldn't introduce a new technology or continue with an

old one unless we're convinced it's safe both for us and for

the environment. If we're not sure, we wait until we are. We

don't just charge ahead and hope for the best.

 

This is obvious common sense, but many powerful people

oppose it, often because they or their friends want to make

money out of products that appear likely to be - or even are

known to be - hazardous. I list and refute the arguments

most often used against the precautionary principle. I

describe one example - asbestos - where failure to apply the

principle resulted in a massive cost in lives and money, and

show how the principle could and should be applied in the

cases of Bovine Somatotropin (currently before the WTO) and

GMOs.

 

When an activity raises threats of harm to human health or

the environment, precautionary measures should be taken even

if some cause and effect relationships are not fully

established scientifically. In this context the proponent of

an activity, rather than the public, should bear the burden

of proof. The Wingspread Declaration [1]

 

 

The Precautionary Principle applies " where preliminary

objective scientific evaluation indicates that there are

reasonable grounds for concern … " The European Commission

[2]

 

 

It's just common sense

 

The precautionary principle is really just a statement that

we shouldn't introduce a new technology or continue with an

old one unless we're convinced it's safe both for us and for

the environment. If we're not sure, we wait until we are. We

don't just charge ahead and hope for the best.

 

Now you might think that this was such an obviously sensible

idea that no one could possibly disagree. Unfortunately,

there are many who do. That's usually because they or the

people who support them want to make profits out of things

that might be very dangerous: for instance, asbestos,

tobacco and GMOs.

 

They insist on what we might call the anti-precautionary

principle: what they are producing must be permitted unless

and until it can be proven to be dangerous. What is more,

they set a very high standard of proof: the tobacco

companies are still advertising and selling cigarettes

despite the overwhelming evidence that smoking, even passive

smoking, contributes to many serious diseases, not only lung

cancer, and significantly shortens life expectancy.

 

Because these people represent big corporations, well-

financed think tanks, and university departments, they have

a lot of influence. So we can't assume that just because the

precautionary principle is common sense our governments are

going to adopt it. We're going to have to convince them, and

to do that we have to be clear in our own minds about what

it is and how it works.

 

The burden of proof

 

The precautionary principle is like the legal principle of

the burden of proof. In a criminal court, the two sides are

not on equal terms. The defendant doesn't have to prove he

is innocent. He doesn't have to prove anything. The

prosecution must prove he is guilty " beyond reasonable

doubt. " If they cannot, he goes free.

 

The reason for this deliberate bias is that while we hope

that our courts will convict the guilty and acquit the

innocent, they won't always get it right, and we have to

think about what will happen then. Most people would agree

that while it is bad that a crime should go unpunished, it

is much worse that an innocent person should be convicted.

So just thinking that someone is probably guilty isn't good

enough. The jury may only convict if they are really

convinced he is, beyond reasonable doubt.

 

In exactly the same way, the precautionary principle says

that if we have good scientific grounds for being concerned

that something presents a serious danger to health or the

environment, then we do not have to prove that it is

dangerous before we can justify banning it. It is the people

who want to use and profit from the technology that have to

prove it is safe. Of course they don't have to provide

absolute proof – there are no absolutes in science any more

than in the courtroom – but they have to demonstrate safety

beyond reasonable doubt. And we bias the decision in that

direction because the damage that can be done if a

technology turns out to be unsafe can be so much greater

than what we stand to lose by waiting until we are sure it

is safe, or can be made so.

 

Common criticisms refuted

 

Opponents of the precautionary principle have a number of

standard objections that they generally raise when attacking

it. They are all easily refuted, and I'm not even sure if

the people that put them forward really believe them, but

it's as well to go through the ones that are most often

used.

 

1. " The precautionary principle is useless because it does

not lead to decisions. " The principle is not a formula for

making decisions. Decisions are made by people exercising

their judgement, and the precautionary principle is just one

of the things they should take into account. A judge will

explain the concept of the burden of proof to the jury, but

they still have to decide whether the defendant is guilty

beyond reasonable doubt, and even what level of doubt they

are prepared to accept as reasonable. In the same way, even

if we accept the precautionary principle, we must still

weigh up the evidence as best we can and decide for

ourselves.

 

2. " The precautionary principle does nothing that is not

already covered by risk assessment. " Risk assessment

involves multiplying the probability that something happens

by the cost if it does. The precautionary principle comes

into play when we are not able to estimate one or both of

these factors at all, or with any degree of accuracy.

 

3. " The precautionary principle is too weak. It would make

no difference at all to policy. " I shall show later how

using the precautionary principle would have made a major

difference to policy on asbestos (as it would have on many

other issues) and would make a difference now if applied to

BST and GMOs.

 

4. " The precautionary principle is too strong. It would stop

all progress " . In practice, the Precautionary Principle

would not affect most innovations at all. In most other

cases, it would mean only a short delay while the technology

was properly tested. (Even with the burden of proof on the

prosecution, many people do get convicted!)

 

5. " The precautionary principle is anti-scientific. "

Nothing could be further from the truth. The precautionary

principle applies only when there are good scientific

grounds for concern. It then requires that more good science

be done to address those concerns. What is anti-scientific

is to assure the public that something is safe when you have

no evidence to back up your claim.

 

6. " The precautionary principle is merely a cover for

protectionism. " Anything that involves regulation can be

used to block imports. Here, however, the innovator has the

opportunity to have the ban lifted by providing convincing

scientific evidence that what he wants to export is safe.

 

7. " These issues should be decided in the courts. " The

precautionary principle is not an alternative to the courts;

like the burden of proof it is a principle that the courts

can and should use.

 

Examples

 

I'll now discuss three examples. The first illustrates

clearly what can happen when the precautionary principle is

not used; the other two are current issues where using the

principle would make a real difference.

 

Asbestos

 

Everyone knows that asbestos is very dangerous and that it

is still being removed from buildings some of which are no

more than 30 years old. Most people probably believe that

the danger was only recently discovered and that action was

taken as soon as it was. Actually it wasn't quite like that

[3].

 

Asbestos was first mined in Canada in 1879. It was soon

noticed that people who worked with asbestos tended to

suffer from respiratory diseases, and in 1898 an English

factory inspector, Lucy Deane, observed that these were more

serious than what she saw in other workers who worked in

dusty conditions. She was also able to discover why:

asbestos fibres are sharp and so likely to damage the lungs.

 

Nothing was done about her report, and even in 1917, when

more evidence had accumulated, the UK Factory Department

decided that there was no need to take any action. In the

very next year, however, insurance companies in the USA and

Canada started to refuse cover to asbestos workers, " due to

the assumed injurious conditions in the industry " .

 

Note the parallel with GMOs today. We are being assured by

the biotech industry and by our governments that GMOs are

safe, yet at the same time the industry is refusing to

accept any liability if they are not, and insurance

companies are refusing to provide cover. A clear example of

what happens when, as the Americans say, you ask someone to

put his money where his mouth is.

 

For most of the rest of the twentieth century, the evidence

against asbestos steadily built up. It became clear that not

only people who worked with asbestos but also their families

and others who came in contact with it were at risk. Yet far

too little was done, and then only in the factories. It

wasn't until 1982 that the British government started to

restrict the use of asbestos and look for alternatives, and

only in 1998, the one hundredth anniversary of Lucy Deane's

report, was asbestos banned altogether in the UK and France.

 

Even then, the Canadian government went to the World Trade

Organisation to have the ban declared an artificial

restraint of free trade. The WTO rejected the appeal – it is

hard to see how even the WTO could have done anything else

in view of the overwhelming evidence – but this is a very

clear example of how an industry can put profit ahead of

safety and how a government can support it.

 

Throughout the whole of the twentieth century, governments

consistently took an anti-precautionary approach to

asbestos. They waited for undeniable evidence of harm before

taking any action, which meant they always acted far too

late.

 

What would have happened if they had applied the

precautionary principle? We don't know, because we can't say

when they would have banned asbestos or at least regulated

its production and use. That would have been a matter of

judgement at the time.

 

We also do not have anything like full records of the number

of deaths due to asbestos or the cost of removing it from

places where it was used. Some partial data are, however,

available and they give us an indication of the scale of the

problem. For example, it has been estimated that between

1979 and 2001, over 200,000 people died in the USA from

diseases caused by asbestos. It has also been estimated that

there are about 250,000 mesothelioma deaths still to come in

the EU even though asbestos is no longer used; this is

because the disease takes so long to develop. The long time

lag between first exposure and the actual onset of the

illness is yet another argument in favour of a precautionary

approach.

 

As for the financial loss, the Dutch have estimated that if

they had banned asbestos in 1965, when the mesothelioma

evidence had been widely accepted, instead of in 1993, they

would have saved about $20 billion in construction and

compensation costs. That's for one small country and

assuming action was taken considerably later than a

precautionary approach would have implied, so you can

imagine what the total must be.

 

BST

 

Bovine somatotropin, commonly known as BST, is a growth

hormone frequently given to cattle in the USA. The European

Union prohibits the import of products from these cattle on

health and safety grounds. In 1996, the United States

appealed to the World Trade Organisation, claiming that the

EU's ban was an unfair restraint of trade.

 

Let's see how the precautionary principle operates. Are

there good scientific grounds for concern? There certainly

appear to be, because we always have to be cautious where

hormones are involved. They are signal substances, telling

the body to do something rather than doing it themselves,

and that means they can have major effects even at very low

dosages. And while BST normally acts in cattle, hormones are

not necessarily species specific, which means BST might act

in humans as well.

 

When we look into the situation more closely, however,

things look a bit better, at least initially. Most of the

BST in milk is destroyed by pasteurisation. What's more, any

that survives can't function as a growth hormone in humans

because the molecule is the wrong shape and doesn't bind to

the appropriate receptors.

 

On the other hand, BST stimulates the production of

`insulin-like growth factors' in cattle, and these are not

destroyed by pasteurisation. In humans, high levels of IGF-1

are associated with a greater risk of cancer [4]. At

present, we don't know whether it increases the risk or

whether it is merely a marker for cancer risk – i.e. we

don't know if it is cause or effect – but it's clearly

something to be concerned about.

 

There is also the problem that hormones often play more than

one role. Even if we know their chief function we may have

no idea what else they do. So the fact that BST can't act as

a growth hormone in humans doesn't mean that it doesn't act

in humans at all.

 

As in conventional risk assessment, we have to look at the

other side as well. How great a risk we are willing to take

naturally depends on the cost of not taking it. There is no

shortage of milk in the EU; on the contrary, the EU has had

to impose quotas to reduce milk production by its own

farmers.

 

Is BST a hazard to human health? We don't know. We don't

even know how likely that is. But that's precisely the

point. If we were sure it was dangerous, there'd be no

argument. It's when we aren't sure that the precautionary

principle comes into play.

 

Here it surely leads us to conclude that on the basis of the

evidence currently available, the EU is justified in not

permitting the import of milk from BST treated cattle.

 

The WTO, however, generally applies the anti-precautionary

principle. It therefore ruled that it was up to the EU to

prove that BST is hazardous to human health and gave the EU

a year to do this. Not surprisingly, the EU was not able to

comply, largely because whatever harmful effects there are

probably can't be seen in such a short time, even if we knew

exactly what we were looking for, which of course we don't.

After all, both asbestos and smoking can take 20 years or

more to act, and here one of the chief concerns is the

possible effect of ingesting small quantities of IGF-1 over

a long period of time. In the end, the ban was allowed to

stand, but only for the time being; the US is still trying

to get it removed.

 

I was recently arguing with a leading British opponent of

the precautionary principle. I asked him several times, in

different ways, if he thought the WTO was right to insist

that the EU drop its ban on BST. He steadfastly refused to

give me an answer, which I'm sure was because he agreed the

WTO was wrong but didn't want to admit that the

precautionary principle can really work.

 

Finally, he said that it didn't matter whether we accepted

the precautionary principle or not because the Americans had

told him that whatever the WTO decided, they'd force BST

products into the EU one way or another. That tells you

where the opponents of the precautionary principle really

stand. They're not interested in the logic of the case. They

just want to foist their products on us by whatever means

they can. That is exactly what they are doing with GM crops.

 

GMOs

 

I'm not going to say much about GMOs because Mae Wan Ho will

be dealing with them in some detail. As she'll explain,

there are many good reasons for being concerned about GMOs:

it is an inherently hazardous technology, the risks of

horizontal gene transmission, allergic effects, and so on

[5].

 

I'd like to comment on one further issue however, diversity.

Here in the Philippines there are thousands of varieties of

rice. If you were to switch to GM rice, there would be at

most a handful. The biotech companies aren't going to

genetically modify large numbers of varieties, and there

wouldn't be time for local types to evolve, even if farmers

were allowed to keep their seeds – which of course they are

not.

 

This could leave the Philippines highly vulnerable to any

new pest or disease that might appear. Remember, GM crops

have been engineered to be resistant to one particular

challenge: a particular pest or a particular disease. They

are at least as vulnerable to other pests and diseases as

conventional crops, which makes relying on a single variety

a very risky strategy.

 

It's worth bearing in mind that one of the reasons the

famine in Ireland in the 19th century was so devastating was

that the country was very heavily dependent on the potato,

which is not indigenous to Ireland. It had been brought to

Europe comparatively recently from Peru. With little or no

diversity when the blight arrived, almost the entire crop

was destroyed.

 

The precautionary principle does not lead to the conclusion

that we should stop all research into GMOs. If we think that

genetic engineering has the potential to improve crops, and

it may well have, then there's no reason not to carry out

research, providing we do it in enclosed laboratories and

greenhouses. The objection is to releasing GMOs into the

environment when there are so many unanswered questions

concerning their safety and their effect on the environment

in general and other crops in particular. We ought to be

doing more research into understanding what happens in

genetic engineering and finding better and safer ways of

doing it, and of course devoting far more of our time,

effort and resources to discovering how we can improve our

farms and our crops without using GMOs (many examples in

successive issues of Science in Society, especially #17, 23

and 28) [6-14].

 

Conclusion

 

In short, there's nothing difficult about the precautionary

principle. It's just common sense. The only problem is

getting our governments to accept that, and to act on it.

 

A fully referenced version of this paper is posted on ISIS

members' website

http://www.i-sis.org.uk/full/philippinesFull.php.

Details here

http://www.i-sis.org.uk/membership.php

 

 

 

 

 

 

 

Making the World Sustainable & GM-Free

*******************************

 

Dr. Mae-Wan Ho

 

Institute of Science in Society, PO Box 32097, London NW1

0XR, UK

 

www.i-sis.org.uk

 

Lecture tour in the Philippines 6-19 December 2005

 

Abstract

 

Decades of an " environmental bubble economy " built on the

over-exploitation of natural resources has accelerated

global warming, environmental degradation, depletion of

water and oil, and falling crop yields, precipitating a

crisis in world food security with no prospects for

improvement under the business as usual scenario.

 

Genetically modified crops promoted to " feed the world " have

the worst features of industrial monocultures and are

proving inherently hazardous to health. They are a dangerous

diversion from the urgent task of getting our food system

sustainable in order to really feed the world. Expanding the

cultivation of GM crops across the world is a recipe for

global biodevastation, massive crop failures and global

famine.

 

There is a wealth of knowledge for making our food system

sustainable that not only can provide food security and

health for all, but can also effectively mitigate global

warming by preventing greenhouse gas emissions and creating

new carbon stocks and sinks.

 

One of the greatest obstacles to implementing the knowledge

is the dominant economic model of unrestrained, unbalanced

growth that has precipitated the present crisis. I describe

a highly productive integrated farming system based on

maximising internal input to illustrate a theory of

sustainable organic growth as alternative to the dominant

model.

 

A fully referenced version of this paper is posted on ISIS

members' website

http://www.i-sis.org.uk/full/philippinesFull.php.

Details here

http://www.i-sis.org.uk/membership.php

 

 

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