Information War in the Age of Dangerous
Substances
by Sadie Plant
Lecture delivered at Public Netbase Media~Space on 22nd of April, 1998
I am working on a book on the subject of drugs. It is a very difficult subject to tackle and, obviously, it is
very controversial. The war on drugs, as it is often called, has made drugs one of the most controversial
issues that we are facing at the end of the 20th century. It seems to me it is also one of the least
understood issues as well. I have been trying to write about drugs for several years and I am still having
difficulties even doing the basic things such as defining what are drugs. Even the most basic questions
continually escape a very careful analysis. I want to throw out some ideas today, mainly looking at the
possibility that drugs are best thought of as technologies, as quite literally high technologies, as possibly
communication technologies, too.
On this first issue about how we actually define what drugs are: the United States FDA, the Food and
Drugs Administration, defines drugs not only illegal drugs but drugs in medicines of all kinds, as
"substances which affect the structure and function of the human organism". That is quite a neat definition
and the best one that I found, really. When we look at the drugs that are circumscribed by law, they tend to
be specifically the drugs which affect thinking and perception. Specifically, they are drugs which affect brain
chemistry. If we think of ourselves as information processing modules, amongst other things, then clearly
the use of drugs changes one’s ability to process, retrieve and store information.
The original drug legislation which now is a global situation originally started with attempts to control opium,
in fact, largely by the Chinese at the end of the 19th century. This was after the British were pretty much
forcing opium onto Chinese culture at the time. If legislation began with opium, now it covers all of the
opiates and cocaine, amphetamines and a vast range of hallucinogens as well. As people will know if you
are familiar with this subject, the Americans especially are forever adding new substances their drug
schedules, not only the drugs themselves but also the other substances which go into making new drugs,
too. Clearly, the legislation covers a huge variety of substances and amongst the big questions that we can
ask are, what do those substances have in common? Why has this handful of substances out of all the
chemicals that exist on the planet, why have those chemicals been singled out for such special attention?
Why have they been so demonized? It is often forgotten that this isn’t just a legal situation, there has been
a very directly military war on the drugs trade at least since 1981 when Reagan and then Bush turned the
campaigns against drugs from civilian to military campaigns. Many thousands of civilians and military
personnel have been killed in this struggle. It is not simply a matter of legal controls, we really are talking
about a military situation.
What is it about these particular substances which has allow them to seen as such a threat and why has
there been such intense military interest and how has it come to be such a big internationally coordinated
project? It seems to me that there are no easy answers to these questions partly because the war on drugs
has not only made the consumption and distribution of substances complicated but it has also made
research very difficult as well. Until very recently, information of any rigorous hard kind has been very
difficult to find and often unreliable. Certainly, in academic contexts, any serious discussion about drugs
has been almost impossible. The issue is so controversial that very few people will dare to tread there.
Also, the issue covers so many different areas and disciplines as well. For example, one needs to have a
familiarity with chemistry, with botany, with economics, law, neurology, medicine and, obviously, all of the
arts and social sciences have some bearing as well, so it demands a big breath of knowledge and
information. Also, the issue covers many different scales, right from the molecular action of substances in
the human brain through to the action of those substances in the global economy, so it covers from the
micro to the macro very different scales.
Plant - Information War in The Age of Dangerous Substances (Lecture 1998)
Sadie Plant/Texts/Plant - Information War in The Age of Dangerous Substances (Lecture 1998).pdf
In terms of the breath, the scale and the controversy, drugs are peculiarly difficult substances to research
and to investigate and to discuss. I think that these difficulties have fed a lot of misconceptions about what
drugs are, how they work, whether we are looking at how they work in the human brain or how they work in
the global economy. The whole area is still shrouded with mystery.
My first attempt to unravel and answer this is to suggest that we can maybe think of drugs as technologies,
as kind of soft or almost biotechnologies, or wet technologies perhaps more accurately. Perhaps even
communication technologies because the way in which drugs work in the human body and in the brain is
that they basically intervene in the internal means of communication. If you think, for example, about the
human body having its own internal communication system, it is using chemicals to do that:
neurotransmittors and hormones. These are the body’s chemical communicators, sort of messengers that
take information between cells. Those communications can be aided or block or imitated by the addition of
other chemical compounds, and these are the substances we know as drugs. These other chemical
compounds are foreign to the human body: obviously, something like cocaine comes from outside of the
human body, but they so closely resemble, if you like, your native communicators, your native media, that
your body is happy to take them in and accept them as its own. In effect, drugs are by definition substances
which have some affect on human biochemistry. They are chemical devices, molecular machines which
intervene in the body’s internal systems of communication. If you think of nicotine, for example, in tobacco,
nicotine mimics a particular neurotransmittor so well that the brain can’t tell the difference between the
neurotransmittor it already has and the nicotine which you are adding to it. Morphine also binds to opiate
receptors which are already present in the brain which are configured to respond to the reception of
endorphins which are the body’s own natural pain killers.
Drugs are the substances which can slip through the chemical filters in the brain, evading its screening
mechanisms and entering your system incognito disguised as an already existing chemical. In effect, they
fool your body into thinking that it is dealing with an already existing familiar chemical. From this
perspective, this means that drugs are very direct and very intimate means of modifying human perception
and human behavior. Once they have had the effect of changing the internal communications in the brain,
then also they go on to change the way in which we perceive and behave, not only on an individual level
but also as cultures, as populations, as the collection of brains which receive and process and store
information.
Although drugs are usually included in most discussions of cyberculture, and especially around the more
fictional end of cyberpunk fiction, they are rarely discussed in more serious terms in this kind of cybernetic
technological context. But if drugs are technologies, and if we can think of them in that way, then this might
be a way of making sense of the question of drug control. This would make the control of drugs almost a
kind of subset or one angle of the control of technology itself. This might then allow us to get a better
perspective of how and why the current drug situation has arisen, and what the whole issue is really about.
If we really want to follow this line of thought, drugs would then be those communication technologies
which are most tightly controlled. Perhaps we could say the only communication technologies which are
controlled by international law.
I would suggest then that the whole question of the illegality of drugs might then allow us to also reflect on
the broader question of the control of communications technologies and of technology in general as well
and the information that they carry. There are lots of other passing resemblances which can tie drugs to
technology in this sense. Clearly, a lot of the response against drugs is very similar to the technophobic
response that is often made to new technologies. The fear of drugs is often allied to a fondness for the
natural body and the authentic, the unadulterated, the pure body, the human with neither any additional
prostheses in the standard technological sense, nor any internal additions or prostheses either. This would
also be a fondness for the body having a very stable function and structure to pick up on that FDA definition
of drugs.
It would also seem that drugs can also be seen not only as technologies, but also as particularly advanced
technologies, very literally high technologies. As we are now seeing at the moment not only a shift from
hardware to software, but increasingly from software interests to wetware, then we can see that drugs were
always a kind of wetware technology on an molecular level literally engineering the brain from within. This
is advanced biotechnology which has been used for thousands and thousands of years. A lot of
technological developments which have come through the history of technology moving from hardware to
software to wetware concerns, drugs have always been at the forefront of that. They have always been
almost at the end of the road, the road which we have now been pursuing certainly for the 20th century.
Not only are they engineering the brain in that very intimate sense, but one of the effects that they have is
arguably to change the body to suit technological developments. For example, drugs will allow people to
perceive slower or faster speeds than the ones which they are normally accustomed to, and also to
perceive at larger and smaller scales. These themes of the very fast, the very slow, the very large and the
very small are the new agenda for the sciences of the 21st century. The whole history of technology has
also been about the possibility of perceiving smaller and smaller, and larger and larger entities. Drugs have
almost been biological or biotechnological microscopes and telescopes long before those actual
technologies were developed.
And as a matter of passing interestI won’t concentrate on thisit is very easy to track the cultural uses of
drugs through the 19th and 20th century and see how 19th century culture was very reliant on opium. It is
often thought of as a kind of pain killer or a way of dealing with the new speeds and the traumas of
industrialization. Likewise, cocaine became very fashionable at the same time as electricity and the late
19th century communications technologies were developed, arguably in an effort to bring the human body
up to speed with those new technologies. In the 20th century, the coincidence of the use of MDMA, of
ecstasy and dance music and all of the new technologies which I know everybody here will be very familiar
withthat, too, is another possible way of tracking that sort of symbiotic evolution of drug use and
technological use.
Interestingly enough, the whole notion of the cyborg as well. When it was very first floated in 1960 in a
relatively famous essay called "Drugs, Space, and Cybernetics" by Clynes and Kline which has recently
been reprinted in the "Cyborg Handbook", the article was the first to mention the cyborg and deal with the
cyborg as an entity. It didn’t concentrate on all the attributes of the cyborg that we now have grown use to
associating with it such as prosthetic limbs and so on. Their main concern was with the use of drugs. The
additional prostheses which the original cyborg had was called an osmotic pressure pump which was a
kind of builtin extra organ which would allow drugs to be continually inputted into the human body. This is
done in the context of space exploration but it was a very sophisticated idea of linking the human body to
the possibility of introducing not only drugs in the psychoactive sense but all sorts of different substances
which would regulated and modify the human body in space. Even our beloved notion of the cyborg comes
out of this history of drugs before it comes out of the history of information technology and cybernetics as
we usually think of them.
That mention of the space program brings us close to military concerns. If drugs are pieces of high
technology, it may also be that they are high technology communication systems which also act as
weapons and are very important in a military sense. I am sure people are familiar with stories about fighter
pilots in the U.S. Air Force being injected with amphetamines as they take of and being injected with
barbiturates when they come downliterally, uppers and downers as they are flying the planes. As the
fighter pilot gets more integrated into the machinery, then the possibilities of integration with drugs become
more possible and more extended. People will also be familiar with the extent to which drugs have always
been used as weapons, most famously by the C.I.A. in the 1950s and 1960s. They probably more than
anybody made the use of drugs fashionable as a weapon, but even they were only jumping in on the end of
a much longer story. Hitler famously not only injected himself with metamphetamine 8 times a day
apparently, but he also used mescaline in interrogation experiments. The Bavarian army is famous for
having done endurance tests with cocaine. For many thousands of years, drugs have had this military use.
When the Spanish were busily colonizing South and Central America, they found people using peyote, they
thought, as weapons against the Spaniards, using drugs even in order to communicate with each other.
This may well have been a paranoia of the colonists but nevertheless it certainly served as a functional
weapon even if it was simply their paranoia.
In this military sense, drugs, even as they work on the human body have always really functioned as
weapons, as literal defense systems. If you think of the legitimate use of drugs as medicines, then you are
using drugs to defend your body against the encroachments of diseases, of pain and so on. In the medical
and military contexts, drugs have effectively worked as arms, as weapons. They are used to defend or
augment or attack even, or certainly to manipulate the structure and the function of the organism. If you use
them as medicines, they combat pain and infection and instability. In other capacities, they can heighten
perception, increase endurance and, as in the case of the cyborg cited by Clynes and Kline, completely
rewire the organism to allow it to deal with different alien environments as well.
Interestingly enough, if you look back at not the social history of drugs but the chemical history of drugs, it
seems that this function they have of being weapons is incredibly longstanding. I have mentioned before
that substances like nicotine and morphine fit the human brain with uncanny precision but they actually
have their sources in a completely different area of life. Many of these substances are thought to have
evolved precisely as weapons in the long war between plants and their predators. Drugs effectively are the
chemical weapons of the vegetable world. Obviously, if you are a plantI know my name is Plant but I’m
ignoring thatif you are a real plant, you can’t do a lot of the things which other organisms can do in order
to defend yourself. You can’t run away and you can’t attack either. Plants have always developed very
sophisticated systems of defense such as thorns and gristles and stings and gums and the widely used
tactics such as camouflage . Often plants will grow in with other plants so they are hidden from their
predators.
Of all these defense systems, the most refined and the most effective plant defenses are chemical
weapons. These include tannins, flavanoids, terpenoides, saponins, photosynthesizers and alkaloids.
These substances rarely play any kind of metabolic function in the plant: they are not nutritious, they do not
aid it in any other way, they simply defend it against its predators.
The chemical weapons can be surprisingly elaborate and also surprisingly vicious. For example, there are
plants that produce photosensitizers which can affect their insect predators by burning up their cells on
exposure to light so, in other words, the insect eats the plant, the insect absorbs the photosensitizers and
just literally burns up in the sunlight. They can also introduce lethal chromosomal abnormalities in
predators, too. Some of these chemicals function by simply dissuading their predators from eating too
much of them, but others have longterm effects on the growth of the offensive population as well as on
individual predators. Sometimes you can get countermeasures on the part of the insects. Many predators
will find ways to counter plant defenses. For example, there is one famous case of a bug which attacks
tomato plants. It has learned that by eating the leaves it will ingest certain lethal chemicals. So it sits on the
leaf and cuts a little perforated patch for itself, marks out its territory and then eats that patch, knowing that
it has effectively cut off the supply routes by which the leaf can send the chemical to attack it.
These chemical weapons in the plant world are incredibly sophisticated. Chemicals which are evolved by a
plant to attack a specific predator may be harmless to other predators or they may be fatal to all consumers
or they may have no effect on them at all. Often this is just a question of dosages. Obviously, too much of
anything can be fatal, just as small quantities of many lethal substances can be harmlessly absorbed. Many
of these weapons are transferable. Here we come to the ones we use as drugs. Certain predators not only
survive the ingestion of toxic alkaloids but can requisition them as their own means of selfdefense. An
example of this is the human use of morphine as a pain killer in the sense that morphine has been
developed by the opium poppy as its own system of defense and we then use it as a system of defense
against our own infections and pain. But in other cases, these chemical weapons can very different effects
on the biochemistries of their new consumers. A very good example of this is catnip. It is often called
cocaine for cats, but this plant is called catnipin German and in English it has a reference to cats in it but
that is completely coincidentalthe name has a completely different source. Catnip has certain terpenoids
to repel its insect predators. Now most mammals, including humans, eat catnip or use catnip with very little
effect on them at all. However, these terpenoids just happen to be identical to the pheromones which are
release by male cats when they are sexually aroused. This is why cats go crazy over it: female cats love it
because they are getting male cat pheromones and male cats love it because they are getting a good bit of
male bonding going on. Both sides get really excited by using this plant. But this is a complete coincidence.
The notion that this plant has developed this substance just to attack its insect predator and that substance
turns out to have this peculiar effect on cats is, by extension, the same bizarre set of coincidences that we,
too, are caught up in in our use of drugs.
So, catnip contains a substance which might have almost been designed for cats. In fact, if you were going
to design a drug for cats, it probably would be catnip. It is so perfect. Other plants have more transferable
compounds. Catnip only works on cats, but the coca bush, for example, can obviously stimulate humans
but also other animals, too. The llamas which graze on coca leaves are also stimulated by them in a very
similar way to human stimulation. When goats eat the berries of the coffee bush, they, too, are stimulated
by the caffeine. Those two examples, cocaine and caffeine, are among the many alkaloids which affect
human beings. It is widely assumed that humans learned to use drugs by watching their effects on animals
and, even there, they do not all translate. Presumably, there were people who tried catnip, and there
probably are still people who try catnip people just in case. It wouldn’t work every time but, nevertheless, it
is broadly assumed that this is how humans did learn to use drugs themselves. But that too is a big
mystery, and to say that they copied animals doesn’t explain it, not only because different plants work on
different species but also because many drugs have to be prepared very carefully before they can be used.
There is a big mystery as to how people ever came to try plants or fungi, for example, like fly agaric which
is very toxic unless carefully prepared. A lot of people must have died in the attempt to try and work out
how to use it and it is a genuine mystery as to how that process would have developed.
In effect, just like cats on catnip, when humans drink coffee or chew coca, we, too, are the unintended
beneficiaries of this ancient conflict between plants and predators. We are enjoying the spoils of a war
which has been played out in a very different territory and over a huge length of time, long before humans
did use these plants themselves.
After many thousands of years of being synthesized in the plant effectively, the synthesis of these
compounds has now spread to laboratories. This move was made in the 19th century. Morphine, which is
the most powerful constituent of opium became the first alkaloid to be extracted in 1804. Once morphine
had been extracted, it was quickly followed by the other constituents of opium which include codeine and
quinine, and then caffeine and the majority of the other substances, too. By the end of the 19th century,
many alkaloids and other compounds could be detached from their native plants and synthesized or at
least extracted in the laboratory.
Once these compounds had been isolated, once they were in the laboratory, they could then be altered
and combined as well and designed to treat particular conditions or to induce particular effects. For
example, once morphine was freed from the opium poppy, then it could be altered to make heroin which
happened at the end of the 19th century. As an asideI’m sure people know this storyheroin was
developed in the search for a nonaddictive form of morphine. That obviously didn’t work.
But for all the opportunities this process of extraction and isolation opened up, this was what they now call
a kind of "bucket chemistry". It was very crude and involved mixing relatively large quantities of compounds
together. It worked at relatively large scales at relatively slow speeds and its engineering was far from
precise. A hundred years later at the end of the 20th century, the research and development of these
chemical compounds has moved to much smaller scales and far higher specifications. We now have new
techniques which allow compounds to be engineered not only at the level of their molecular composition
but also at the level of the molecules themselves. In the mid1990’s, these developments in chemistry met
digitization, they met computing. At that point, these fields in chemistry became even more sophisticated
and advanced. This was really the point at which you could properly talk about "designer drugs", drugs
which are designed from scratch in the laboratories and they are not even extracts from a plant. The sheer
speeds and capacities of the microprocessor have now made it possible to trawl through huge numbers of
molecular combinations in a way which as simply impracticable until very recently. So endless different
combinations of drugs can now be tried out on a computer screen before they even touch base with
chemical reality. Mathematical modeling now also allows compounds to be designed and assembled as
virtual compounds. Often these compounds are tried, tested and manipulated atom by atom on the screen.
They only met the wetware world in the very last stages of their development when they are finally tested
on humans.
This is the point at which other even more advanced possibilities come into the horizon. We can began to
think about where these tendencies from plant to laboratory and now to computer are really going. The
latest researches in drugs, as I say, only test them on organisms in very closing stages of their
developments. Parallel with the development of this chemistry and with this convergence with computing
has also been from another angle the whole development of knowledge and research on the human brain.
They have all pretty much coincided at the same moment at the end of the 20th century, so you’ve got the
chemistry, the brain and the computing all just now coming together.
This raises the possibility that if drugs can be completely designed by computers, maybe brains can be
changed just by manipulation on the screen. If you imagine you’ve got one screen with your chemical on,
and you’ve got another screen with a map of the brain on, then you could imagine the possibility of almost
skipping the level of using drugs at all and just directly manipulating the brain. Again these are ideas which
have come up in cyberpunk fiction, but are very rarely discussed in a less fictional context. The whole idea
of, say, biofeedback systems, of a neural jack directly into the brain, or direct ways of manipulating the
molecular activity of the brain without using drugs at all becomes increasingly possible. It almost begins to
seem as though the last couple of decades of developments in information technologies have been
catching up with the techniques already possible with drugs, the techniques which have been possible for
thousands of years. We are certainly now seeing a convergence of wetware and software in an
unprecedented sense. Often in cyberpunk fiction, the notion of jacking into the matrix or jacking into
cyberspace has always been associated with the use of drugs: the idea of connecting the brain into a
global network, making the individual a nodal point in the mesh of chemical and information flows.
The other side of this whole processthe brain side of itis as recent as computing. Both computing and a
renewed interest in drugs and also knowledge of the brain really kicked off in the 1950’s. It was only in the
1950’s that neurotransmitters were discovered. It was only at that point that this notion of the brain as a
kind of internal communication system really began to be developed. In fact, LSD, the substance
developed at Sandoz by Albert Hoffman which, if you know the story, he famously says he discovered by
accident and was very shocked when he found himself tripping on the way home from work that day, that
actually preceded the understanding of the brain as being a chemical system and having neurotransmittors.
Interestingly enough, LSD turns out to be very very close to a neurotransmittor and, in fact, that is precisely
how it works because there are already the receptors there in the brain. LSD was discovered before
neurotransmittors were discovered by a few years. In the last 50 years or so of these developments, we
have gotten incredibly close to some understanding of the brain but, nevertheless, it still is an incredibly
unknown organ even though the United Nations designated the last ten years as "The Decade of the
Brain", it seems that many people in this room can be very precise about how information goes in and out
of a computer, how it retrieves processes and stores information, but when we talk about ourselves, our
own computers if you like, our own wetware, then we are incredibly vague about it. We have almost no
knowledge about how the brain works. All we are beginning to appreciate is simply how vast and complex it
is. As I say, we can speak in very precise terms about how a computer network functions, but when we
speak of ourselves, we tend to say very crude things like, "Are you taking it all in?" or "You’re absorbing
information", in a very crude and imprecise vocabulary. Not much more is known about the brain now than
was known 50 years ago except for the fact that we have an increasing sense of its complexity. Just to give
you an idea of the scale that people think they are dealing with: if you were to lay out all of the neurons in
the human brain end to end, then this would cover 250 000 miles. I don’t know if these statistics really
convey anything, but that perhaps give a sense of the enormous scale of processing power that you have
in your own head.
Increasingly, ideas about the brain are being enhanced and converging with developments in computing.
As neural networking develops and parallel distributive processing, it is increasingly thought that the human
brain also operates in a kind of distributed, hierarchical networked kind of way. Deleuze and Guattari have
this often quoted line about "The brain is a population." This is, indeed, how it is increasingly thought of in
neurology, that it is in fact a population of millions of molecular elements.
Given that discussing drugs at least informs our thoughts about how we work inside, is it then possible that
the war on drugs itself has something to do with controlling the exploration of the human brain? Is it even
possible, and many have suggested this, that the use of psychoactive chemicals, possibly even chemicals
contained in certain foods, has something to do with the emergence and development of human
intelligence in the very earliest days of human evolution? That is a very contentious notion but it does make
a certain intuitive sense. In other words, is it even possible that the war on drugs is, amongst other things,
partly about the control of intelligence? Is it actually about what you do with your brain, how you configure
it, and, consequently, how you think with it, how you perceive with it and how you behave with it?
When we try to think about what is the war on drugs, given this angle that drugs are effectively soft or
internal technologies, then clearly one of the first things that we can say is that the war on drugs has never
been, as it says itself, a war ON drugs, it is NOT a war AGAINST drugs, it has always been a war to
contain and to control them. The propaganda always speaks as a war against drugs but if you think about
the extent to which pharmaceutical companies, not to mention the medical establishment, are very keen to
impose drugs on the population, it is not a war about stopping drugs, it is about certain drugs or certain
uses of drugs. It is control rather than prohibition.
It seems to me that if we can get to the point and analyze the control of drugs, then not only would that be
interesting in relation to the issue of drugs itself but also it could provide us with a very revealing diagram of
the most basic mechanisms of control and its evasion at the end of the 20th century. In a sense, it seems
to me that the drugs situation is almost like a microcosm of global capitalism. As William Burroughs’
famously said, "Drugs are the ultimate commodity. They are the only things which don’t need any
advertising." Which is obviously just as well, given that the war on drugs would make that impossible. They
come free with their own adverts and as Burroughs also said, they are the only substances which you don’t
have to try to sell to people. People have to come to you to buy them.
Also, in terms of the market for drugs and drugs as commodities, they are, on the one hand, the most freely
available in the sense that they are distributed in a black market, but also they are the most controlled, I
think, of any commodity that exists at the moment. Arms would obviously be the only other possible
contender. But if, as I am suggesting, drugs are weapons, then this would come down to almost be the
same issue. But there are no other substances which are controlled at every level of their operation: from
the point where a farmer plants the coca bush through to the final consumption of the wrap of cocaine, on
every step of that process, drug are subject to stringent international controls.
They are also the first substances to be controlled on an international basis. In fact, arguably, they are at
the very heart of international law itself. When the League of Nations was established in the 1920’s which
then became the United Nations, drugs were cited as one of the reasons for establishing an international
body. So not only were they the first commodities or the only commodities to be regulated at every stage of
their production, distribution and consumption, it seems that they are fundamental to the very possibility of
international law. At the very least, they provided a legitimate excuse for international law to be developed.
On the other side of things, they also proved just as impossible as information to contain and control. As
they are notoriously transnational, drugs are no respecters of boundaries and, in fact, they slip through
those boundaries exactly in the same way as they slip in to the brain: they are disguised as other things.
Arguably, they have the same kind of disruptive effects on a culture or on a nation as they have on the
brain as well. You have an almost fractal picture where exactly the same processes that happen on the
relatively small scale level of the brain and even on the molecular level of the way drugs work in the brain, it
is repeated on almost every level of their distribution. They work in global economy almost exactly in the
same way as they work in the human brain. The way in which the war on drugs is cashed out, on the one
hand, having these absolutely rigorous international controls and, on the other hand, having a remarkably
free market which really produces the opposite of regulation with the black market, then it seem to me that
this is trying to tell us something.
It is almost a stark example, it is almost a situation writ large in terms of the control of all kinds of
technology by implication, or perhaps control of any kind. For example, we have a situation now where we
have nationstates, the military and pharmaceuticals corporations all involved in trying to monopolize the
use and control the production and distribution of these substances in exactly the same way, one could
argue, that states, the military and information technology corporations or media corporations are
effectively monopolizing their markets. It maps on almost exactly except for the fact that everything is more
extreme in the case of drugs. Clearly it is not a matter on the part of any of these bodies of doing away with
drugs. What they want to do is to contain and monopolize their use. As I mentioned before, it is often the
case as in psychiatric medicine where drugs are positively imposed on people, it is a question of control
and regulation and monopoly rather than strict prohibition. So again, this is very similar to attempts to
control information or to control the distribution of technology. And the street level side as well, the counter
to that, also is remarkably similar to the way in which, say, attempts to free up distribution of technology
and information work as well. We’ve got a kind of street level black market trade, if you like, this would be
the chemical hacking side of it, undercutting the legitimate trade, people effectively exploring their own
brain chemistry rather than it being sanctioned by some centralized body. It also seems that this has big
geopolitical implications. Again, this maps onto the distribution of information and technology itself.
It seems to me that the Western world, and obviously the United States in particular but certainly the Anglo
world, has always promoted the war on drugs. Britain and America have always been on the forefront of
the war on drugs. Historically, Britain and America both did very well economically in the past out of their
own drugs trade. The American War of Independence was largely financed by tobacco and cannabis, and
industrialization in Britain was also largely funded out of the opium trade and, in fact, that was the same
opium trade which eventually began the spiral of international controls against all drugs. At one point in the
19th century, half of the British government’s revenue came from opium. So this was by no means a small
element of the income. It was a huge part of it. So, the Western world, or at least the Anglo world has
obviously done very well from the drugs trade. One could say, if you were going to be cynical about it, that
having achieved its own economic and industrial success through the drugs trade, that the West is now
determined that other regions of the world will not enjoy the same benefits of an inevitably buoyant trade.
We now find the situation where it tends to be the poorest and the least developed areas of the world which
are producing drugs. Presumably, if there was a possibility of an international legalization of drugs, then all
of those countries would be in the position to participate in that trade legally and they would be
economically a lot more successful. The war on drug may well also be something to do with a global
protectionism on the part of the Western world.
If there is any credence in these last thoughts, it would also seem to me that current debates about
legalization of drugs can be very naïve, just as naïve as the attempts to argue against the legalization of
drugs. Whilst we do have pockets of legalization of certain drugs such as in the Netherlands, it seems to
me that any more serious legalization would be very difficult to contrive. For a start, it would have to be
global. Because it is one of the few things that is controlled on an international level, then it would have to
be uncontrolled on an international level as well. It is not something that could be done piecemeal. It seems
almost unimaginable that we could have a situation in global politics where that would be either desirable or
practicable. It could well be that if you did, though, have such a global legalization, then this would not only
have all of the cultural effects that we often imagine it would have, but it could impact on the geopolitical
balance of power on a global level. It is in these terms of drugs as technologies, as weapons of
international importance that I think the whole issue of should be considered.