To be in Washington tonight reminds
me that the only person to ever offer me a job in Washington was Daniel
Patrick Moynihan. That was thirty years ago, and he was working for Nixon at
the time. Moynihan was a hero of mine, the exemplar of an intellectual engaged
in public policy. What I admired was that he confronted every issue according
to the data and not a belief system. Moynihan could work for both Democratic
and Republican presidents. He took a lot of flack for his analyses but he was
more often right than wrong.
Moynihan was a Democrat, and I'm a
political agnostic. I was also raised in a scientific tradition that regarded
politics as inferior: If you weren't bright enough to do science, you could go
into politics. I retain that prejudice today. I also come from an older and
tougher tradition that regards science as the business of testing theories with
measured data from the outside world. Untestable
hypotheses are not science but rather something else.
We are going to talk about the
environment, so I should tell you I am the child of a mother
who 60 years ago insisted on organic food, recycling, and energy efficiency
long before people had terms for those ideas. She drove refrigerator salesmen
mad. And over the years, I have recycled
my trash, installed solar panels and low flow appliances, driven diesel cars,
and used cloth diapers on my child — all approved ideas at the time.
I still believe that environmental
awareness is desperately important. The environment is our shared life support
system, it is what we pass on to the next generation, and how we act today has
consequences — potentially serious consequences — for future generations. But I
have also come to believe that our conventional wisdom is wrongheaded,
unscientific, badly out of date, and damaging to the environment. Yellowstone National Park has raw sewage
seeping out of the ground. We must be doing something wrong.
In my view, our approach to global
warming exemplifies everything that is wrong with our approach to the
environment. We are basing our decisions on speculation, not evidence.
Proponents are pressing their views with more PR than scientific data. Indeed,
we have allowed the whole issue to be politicized — red vs
blue, Republican vs Democrat. This is in my view
absurd. Data aren't political. Data are
data. Politics leads you in the direction of a belief. Data, if you follow them, lead you to truth.
When I was a student in the 1950s, like
many kids I noticed that Africa seemed to fit
nicely into South America. Were they once connected? I
asked my teacher, who said that that this apparent fit was just an accident,
and the continents did not move. I had trouble with that, unaware that people
had been having trouble with it ever since Francis Bacon noticed the same thing
back in 1620. A German named Wegener had made a more modern case for it in 1912. But still, my teacher said no.
By the time I was in college ten years
later, it was recognized that continents did indeed move, and had done so for
most of Earth's history. Continental drift and plate tectonics were born. The
teacher was wrong.
Now, jump ahead to the 1970s. Gerald Ford
is president, Saigon falls, Hoffa disappears, and in climate
science, evidence points to catastrophic cooling and a new ice age.
Such fears had been building for many
years. In the first Earth Day in 1970, UC Davis's Kenneth Watt said, "If
present trends continue, the world will be about four degrees colder in 1990,
but eleven degrees colder by the year 2000. This is about twice what it would
take to put us in an ice age."
International Wildlife warned "a new ice age must now stand alongside
nuclear war" as a threat to mankind. Science Digest said "we must prepare for
the next ice age." The Christian Science
Monitor noted that armadillos had moved out of Nebraska because it was
too cold, glaciers had begun to advance, and growing seasons had shortened
around the world. Newsweek reported "ominous signs" of a "fundamental change in
the world's weather."
But in fact, every one of these
statements was wrong. Fears of an ice age had vanished within five years, to be
replaced by fears of global warming. These fears were heightened because population
was exploding. By 1995, it was 5.7 billion, up 10% in the last five years.
Back in the 90s, if someone said to you,
"This population explosion is overstated. In the next hundred years, population
will actually decline." That would contradict what all the environmental groups
were saying, what the UN was saying. You would regard such a statement as
outrageous.
More or less as you would regard a
statement by someone in 2005 that global warming has been overstated.
But in fact, we now know that the
hypothetical person in 1995 was right.
And we know that there was strong evidence that this was the case going
back for twenty years. We just weren't
told about that contradictory evidence, because the conventional wisdom,
awesome in its power, kept it from us.
(This is a graph from Wired
magazine showing rate of fertility decline over the last 50 years.)
I mention these examples because in my
experience, we all tend to put a lot of faith in science. We believe what we're
told. My father suffered a life filled with margarine, before he died of a
heart attack anyway. Others of us have stuffed our colons with fiber to ward
off cancer, only to learn later that it was all a waste of time, and fiber.
When I wrote Jurassic Park, I worried that
people would reject the idea of creating a dinosaur as absurd. Nobody did, not
even scientists. It was reported to me
that a Harvard geneticist, one of the first to read the book, slammed it shut
when he finished and announced, "It can be done!" Which was
missing the point. Soon after, a Congressman announced he was
introducing legislation to ban research leading to the creation of a
dinosaur. I held my breath, but my hopes
were dashed. Someone whispered in his ear that it couldn't be done.
But even so, the belief lingers. Reporters would ask me, "When you were doing
research on Jurassic Park, did you visit
real biotech labs?" No, I said, why
would I? They didn't know how to make a dinosaur. And they don't.
So we all tend to give science credence,
even when it is not warranted. I will show you many examples of unwarranted
credence tonight. But here's an example to begin. This is the famous Drake equation from the
1960s to estimate the number of advanced civilizations in the galaxy.
N=N*fp ne
fl fi fc fL
Where N is the number of stars in the
Milky Way galaxy; fp is the fraction with planets; ne is the number of planets per star capable of supporting
life; fl is the fraction of planets where life evolves; fi
is the fraction where intelligent life evolves; and fc
is the fraction that communicates; and fL is the
fraction of the planet's life during which the communicating civilizations
live.
The problem with this equation is that
none of the terms can be known. As a result, the Drake equation can have any value
from "billions and billions" to zero. An expression that can mean anything
means nothing. The mathematical appearance is deceptive. In scientific terms — by
which I mean testable hypotheses — the Drake equation is really meaninglessness.
And here's another example. Most people just read it and nod:
"How
Many Species Exist? The question takes on increasing significance as plants and
animals vanish before scientists can even identify them."
Now, wait a minute...How could you know
something vanished before you identified it?
If you didn't know it existed, you wouldn't have any way to know it was
gone. Would you? In fact, the statement is nonsense. If you
were never married you'd never know if your wife left you.
Okay. With this as a preparation, let's
turn to the evidence, both graphic and verbal, for global warming. As most of you have heard many times, the
consensus of climate scientists believes in global warming. Historically, the
claim of consensus has been the first refuge of scoundrels; it is a way to
avoid debate by claiming that the matter is already settled. Whenever you hear the consensus of scientists
agrees on something or other, reach for your wallet, because you're being had.
Let's be clear: the work of science has
nothing whatever to do with consensus. Consensus is the business of
politics. Science, on the contrary,
requires only one investigator who happens to be right, which means that he or
she has results that are verifiable by reference to the real world. In science, consensus is irrelevant. What is relevant is reproducible results. The greatest scientists
in history are great precisely because they broke with the consensus.
And furthermore, the consensus of
scientists has frequently been wrong. As they were wrong when
they believed, earlier in my lifetime, that the continents did not move.
So we must remember the immortal words of Mark Twain, who said, "Whenever you
find yourself on the side of the majority, it is time to pause and
reflect."
So let's look at global warming. We start with the summary for policymakers,
which is what everybody reads. We will
go into more detail in a minute, but for now, we assume the summary has all the
important stuff, and turning to page three we find what are arguably the two
most important graphs in climate science in 2001.
The top graph is taken from the Hadley Center in England, and shows
global surface warming. The bottom graph
is from an American research team headed by Mann and shows temperature for the
last thousand years.
Of these two graphs, one is entirely
discredited and the other is seriously disputed. Let's begin with the top
graph.
I have redrawn the graph in Excel, and it
looks like this.
Now the first thing to say is that there
is some uncertainty about how much warming has really occurred. The IPCC says the 20th century temperatures
increase is between .4 and .8 degrees.
The Goddard Institute says it is between .5 and .75 degrees. That's a
fair degree of uncertainty about how much warming has already occurred.
But let's take the graph as given. It shows a warming of .4 degrees until 1940,
which precedes major industrialization and so may or may not be a largely
natural process. Then from 1940 to 1970,
temperatures fell. That was the reason
for the global cooling scare, and the fears that it was never going to get warm
again. Since then, temperatures have
gone up, as you see here. They have
risen in association with carbon dioxide levels. And the core of the claim of CO2 driven
warming is based on this thirty-five year record.
But we must remember that this graph
really shows annual variations in the average surface temperature of the earth
over time. That total average temperature is ballpark sixteen degrees. So if we graph the entire average fluctuation,
it looks like this:
So all the
interest is in this little fluttering on the surface. Let's be clear that I am graphing the data in
a way that minimizes it. But the earlier
graph maximizes it. If you put a ball
bearing under a microscope it will look like the surface of the moon. But it is
smooth to the touch. Both things are
true. Question is which is important.
Since I think the evidence is weak, I
urge you to bear this second graph in mind.
Now the question is, is this
twentieth-century temperature rise extraordinary? For that we must turn to the second graph by
Michael Mann, which is known as the "hockey stick."
This graph shows the results of a study
of 112 so-called proxy studies: tree rings, isotopes in ice, and other markers
of relative temperature. Obviously there
were no thermometers back in the year 1000, so proxies are needed to get some
idea of past warmth. Mann's findings were a centerpiece of the last UN study,
and they were the basis for the claim that the twentieth century showed the
steepest temperature rise of the last thousand years. That was said in 2001. No one would say it
now. Mann's work has come under attack from several laboratories around the
world. Two Canadian investigators, McKitrick and
McIntyre, re-did the study using Mann's data and methods, and found dozens of
errors, including two data series with exactly the same data for a number of
years. Not surprisingly, when they corrected all the errors, they came up with
sharply differing results.
But still this increase is steep and
unusual, isn't it? Well, no, because
actually you can't trust it. It turns
out that Mann and his associates used a non-standard formula to analyze his
data, and this particular formula will turn anything into a hockey stick---including
trendless data generated by computer.
Physicist Richard Muller called this
result "a shocker..." and he is right.
Hans von Storch calls Mann's study "rubbish."
Both men are staunch advocates of global warming. But Mann's mistakes are considerable. But he will get tenure soon anyway.
But the disrepute into which his study
has fallen leaves us wondering just how much variation in climate is
normal. Let's look at a couple of
stations.
Here you see that the current temperature
rise, while distinctive, is far from unique.
Paris was hotter in
the 1750s and 1830s than today.
Similarly, if you look at Stuttgart from 1950 to
present, it looks dramatic. If you look
at the whole record, it is put into an entirely different perspective. And again, it was warmer in the 1800s than
now.
Now, these are graphs taken from the GISS
website at the time I did my research for the book. For those of you think the science is all
aboveboard, you might contemplate this. The
data have been changed.
I have no comment on why the Goddard
Institute changed the data on their website. But it clearly makes the
temperature record look more consistently upward-trending and more fearsome
than it did a few months ago.
All right. With the second graph demolished, it is time
to return to the first. Now we must ask, if surface
temperatures have gone up in the twentieth century, what has caused the rise?
Most people have been taught that the increase is caused by carbon dioxide, but
that is by no means clear.
Two factors that were previously not of
concern have recently come to the renewed attention of scientists. The first is
the sun. In the past it was imagined that the effect of the sun was fairly
constant and therefore any rise in temperature must be caused by some other
factor. But it is now clear from work of scientists at the Max Planck institute
in Germany that the sun is
not constant, and is right now at a 1,000 year maximum. The data comes from
sunspots.
According to Solanki
and his associates,
This shows that solar radiation and
surface temperature are correlated until recent times. Solanki says that
the sun is insufficient to explain the current temperatures, and therefore
another factor is also at work, presumably greenhouse gases. But the question is whether the sun accounts
for a significant part of twentieth-century warming. Nobody is sure. But it is likely to be some amount greater
than was previously thought.
Now we turn to cities:
Another factor that could change the
record is heat from cities. This is called the urban heat bias, and as with
solar effects, scientists tended to think the effect, while real, was
relatively minor. That is why the IPCC allowed only six hundredths of a degree
for urban heating. But cities are hot: the
correction is likely to be much greater.
We now understand that many cities are 7 or 8 degrees warmer than the
surrounding countryside.
(A temperature
chart from a car driving around Berlin. The difference
between city and country is 7 degrees.)
Some studies have suggested that the
proper adjustment to the record needs to be four or five times greater than the
IPCC allowance.
Now what does this mean to our
record? Well remember, the total warming
in the 20th century is six tenths of a degree.
If some of this is from land use and
urban heating (and one studies suggests it is .35 C for the century), and some
is solar heating (.25 C for century), then the amount attributable to carbon
dioxide becomes less. And let me repeat:
nobody knows how much is attributable to carbon dioxide right now.
But if carbon dioxide is not the major
factor, it may not make a lot of sense to try and limit it. There are many
reasons to reduce our dependence on fossil fuels, and I support such a
reduction. But global warming may not be
a good or a primary reason.
So this is very important stuff. The uncertainties are great.
And now, we turn to the most important
issue. WHAT WILL HAPPEN IN THE FUTURE?
To answer this, we must turn to the UN
body known as the Intergovernmental Panel on Climate Change. The IPCC, the gold standard
in climate science.
In the last ten years, the IPCC has
published book after book. And I believe
I may be the only person who has read them.
I say that because if any journalist were to read these volumes with any
care they would come away with the most extreme unease---and not in the way the
texts intend.
The most recent volume is the Third
Assessment Report, from 2001. It
contains the most up-to-date views of scientists in the field. Let's see what the text says. I will be reading aloud.
Sorry, but these books are written in
academic-ese.
They are hard to decipher, but we will do that.
Starting with the first section, The
Climate System: An Overview, we turn to the first page of text, and on the
third paragraph read:
Climate
variations and change, caused by external forcings,
may be partly predictable, particularly on the larger, continental and global,
spatial scales. Because human activities, such as the emission of greenhouse
gases or land-use change, do result in external forcing, it is believed that
the large-scale aspects of human-induced climate change are also partly
predictable. However the ability to actually do so is limited because we cannot
accurately predict population change, economic change, technological
development, and other relevant characteristics of future human activity. In
practice, therefore, one has to rely on carefully constructed scenarios of
human behaviour and determine climate projections on the
basis of such scenarios.
Take these sentence by sentence, and
translate into plain English. Starting with the first sentence. It's really just saying:
Climate may be partly predictable.
Second sentence means:
We believe human-induced climate change
is predictable.
Third sentence means:
But we can't predict human behavior.
Fourth sentence:
Therefore we rely on "scenarios."
The logic here is difficult to
follow. What does "may be partly
predictable" mean? Is it like a little
bit pregnant? We see in two sentences we go from may be predictable to is predictable. And
then, if we can't make accurate predictions about population and development
and technology... how can you make a carefully-constructed scenario? What does
"carefully-constructed" mean if you can't make accurate predictions about
population and economic and other factors that are essential to the scenario?
The flow of illogic is stunning. Am I are
making too much of this? Let's look at
another quote:
"The
state of science at present is such that it is only possible to give
illustrative examples of possible outcomes."
Illustrative examples. The estimates
for even partial US compliance with Kyoto---a reduction of 3% below 1990
levels, not the required 7%---has been predicted to cost almost 300 billion
dollars a year. Year
after year. We can afford it. But if we are going to spend trillions of
dollars, I would like to base that decision on something more substantial than
"illustrative examples."
Let's look at another quote.
My concerns deepen when I read "Climate models now have some skill in
simulating changes in climate since 1850..."
SOME SKILL? This is not skill in predicting the
future. This is skill in reproducing the
past. It doesn't sound like these models
really perform very well. It would be
natural to ask how they are tested.
NEXT QUOTE
While
we do not consider that the complexity of a climate model makes it impossible
to ever prove such a model "false" in any absolute sense, it does make the task
of evaluation extremely difficult and leaves room for a subjective component in
any assessment.
Now, the term "subjective" ought to set
off alarm bells in every person here.
Science, by definition, is not subjective. I will point out to you that this is
precisely the kind of issue that has Americans furious about the EPA. We know you can't let a drug company
manufacture a drug and also test it---that's unreliable, and everybody knows
it. So why in this high stakes climate
issue do we allow the same person who makes a climate model to test it?
The flaws in this process are well
known. James Madison, our fourth
President:
No
man is allowed to be judge in his own cause, because his interest would
certainly bias his judgment, and not improbably, corrupt his integrity.
Madison is right.
Climate science needs some verification
by outsiders.
NEXT QUOTE
Again, am I making too much of all
this? It turns out I am not. Late in the text, we read:
"The
long term prediction of future climate states is not possible."
Surely it should lead us to close the
book at this point. If the system is non-linear and chaotic — and it is — then it
can't be predicted, and if it can't be predicted, what are we doing here? Why are we worrying about the year 2100?
All right, you may be saying. Perhaps this is the state of climate science,
as the IPCC itself tell us. Nevertheless
we read every day about the dire consequences of global warming. What if I am wrong? What if a major temperature rise is really
going to happen? Shouldn't we act now
and be safe? Don't we have a
responsibility to unborn generations to do so?
NEXT
CHART – Act Now or Later?
Here is again the IPCC chart of
predictions for 2100. As you see, they
range from a low of 1.5 degrees to a high of 6 degrees. That is a 400% variation. It's fine in
academic research. Now let's transfer
this to the real world.
In the real world, a 400% uncertainty is
so great that nobody acts on it. Ever.
If you planned to build a house and the
builder said, it will cost somewhere between a million and a half and six
million dollars, would you proceed? Of
course not, you'd get a new builder. If
you told your boss you were going on vacation and would be gone somewhere
between 15 and 60 days, would he accept that?
No, he'd say tell me exactly what day you will be back. Real world estimation has to be much, much
better than 400%.
When all is said and done, Kyoto is a giant
global construction project. In the real
world nobody builds with that much uncertainty.
Next, we must face facts about the
present. If warming is a problem, we
have no good technological solutions at this point. Everybody talks wind farms, but people hate
them. They're ugly and noisy and change
the weather and chop birds and bats to pieces, and they are fought everywhere
they are proposed. Here is the wind farm
at Cape Cod, which has aroused everyone who lives there,
including lots of environmentalists who are embarrassed but still...they don't
want them. Who can blame them? A very large anti-wind faction has grown up in England, partly because
the government are trying to put farms in the Lake District and other scenic
areas.
But whether we like the technology or
not, do we really have the capability to meet the Kyoto Protocols? Reporting in Science magazine, a blue-ribbon
group of scientists concluded that we do not:
So, if we don't have good technology
perhaps we should wait. And there are other reasons to wait. If in fact we are facing a really expensive
construction job, we can afford it better later on. We will be richer. This is a 400 year trend.
Finally, I think it is important to
recognize that we can adapt to the temperature changes that are being
discussed. We are told that catastrophe will befall if we increase global
temperature 2 degrees. But that is the
difference in average temperature between New York and Washington DC. I don't think
most New Yorkers think a move to Washington is balmy. Similarly, a move to San Diego is an increase
of 9 degrees.
Of course this is not a fair comparison,
because a local change is not the same as a global change. But it ought at least to alert you to the
possibility that perhaps things are not as dire as we are being told. And were told thirty years
ago, about the ice age.
Last, I want you to think about what it
means to say that we are going to act now to address something 100 years from
now. People say this with confidence; we
hear that the people of the future will condemn us if we don't act. But is that true?
We're at the start of the 21st century,
looking ahead. We're just like someone
in 1900, thinking about the year 2000.
Could someone in 1900 have helped us?
Here is Teddy Roosevelt, a major
environmental figure from 1900. These
are some of the words that he does not know the meaning of:
airport
antibiotic
antibody
antenna
computer
continental drift
tectonic plates
zipper
nylon
radio
television
robot
video
virus
gene
proton
neutron
atomic structure
quark
atomic bomb
nuclear energy
ecosystem
jumpsuits
fingerprints
step aerobics
12-step
jet stream
shell shock
shock wave
radio wave
microwave
tidal wave
tsunami
IUD
DVD
MP3
MRI
HIV
SUV
VHS
VAT
whiplash
wind tunnel
carpal tunnel
fiber optics
direct dialing
dish antennas
gorilla
corneal transplant
liver transplant
heart transplant
liposuction
transduction
maser
taser
laser
acrylic
penicillin
Internet
interferon
nylon
rayon
leisure suit
leotard
lap dancing
laparoscopy
arthroscopy
gene therapy
bipolar
moonwalk
spot welding
heat-seeking
Prozac
sunscreen
urban legends
rollover minutes
Given all those changes, is there
anything Teddy could have done in 1900 to help us? And aren't we in his
position right now, with regard to 2100?
Think how incredibly the world has
changed in 100 years. It will change vastly more in the next century. A hundred
years ago there were no airplanes and almost no cars. Do you really believe
that 100 years from now we will still be burning fossil fuels and driving
around in cars and airplanes?
The idea of spending trillions on the future
is only sensible if you totally lack any historical sense, and any imagination
about the future.
If we should not spend our money on Kyoto, what should we
do instead? I will argue three points.
First, we need to establish 21st century
policy mechanisms. I want to return to
those pages from the IPCC. The fact is
if we required the same standard of information from climate scientists that we
do from drug companies, the whole debate on global warming would be long
over. We wouldn't be talking about it.
We need mechanisms to insure a much, much higher standard of reliability in
information in the future.
Second, we need to deal correctly with
complexity of non-linear systems. The environment is a complex system, a term
that has a specific meaning in science.
Beyond being complicated, it means that interacting parts that modify
each other have the capacity to change the output of the system in unexpected
ways. This fact has several
ramifications. The first is that the old
notion of the balance of nature is thoroughly discredited. There is no balance of nature. To think so is to share an agreeable fantasy
with the ancient Greeks. But it is also
a shocking change for us, and we resist it. Some now talk of "balance in
nature," as a way to keep the old idea alive. Some claim there are multiple
equilibrium states, but this is just a way of pretending that the balance can
attained in different ways. It is a
misstatement of the truth. The natural
system of inherently chaotic, major disruption is the rule not the exception,
and if we are to manage the system we are going to have to be actively
involved.
This represents a revision of the role of
mankind in nature, and a revision of the perception of nature as something
untouched. We now know that nature has
never been untouched. The first white visitors to the New World didn't
understand what they were looking at. In
California, Indians burned
old growth forest with such regularity that there is more old growth today than
there was in 1850. Yellowstone was a beauty
spot precisely because the Indians hunted the elk and moose to the edge of
extinction. When they were prevented
from hunting in their traditional grounds, Yellowstone began its
complex decline.
We now have research to help us formulate
strategies for management of complex systems.
But I am not sure we have organizations capable of making these
changes. I would also remind you that to
properly manage what we call wilderness is going to be stupefyingly
expensive. Good wilderness is expensive!
Finally, and most important — we can't
predict the future, but we can know the present. In the time we have been
talking, 2,000 people have died in the third world. A child is orphaned by AIDS every 7 seconds. Fifty people die of waterborne disease every
minute. This does not have to happen. We
allow it.
What is wrong with us that we ignore this
human misery and focus on events a hundred years from now? What must we do to awaken this phenomenally
rich, spoiled and self-centered society to the issues of the wider world? The global crisis is not 100 years from
now — it is right now. We should be
addressing it. But we are not. Instead, we cling to the reactionary and
antihuman doctrines of outdated environmentalism and turn our backs to the
cries of the dying and the starving and the diseased of our shared world.
And if we are going to remain too
self-involved to care about the third world, can we at least care about our
own? We live in a country where 40% of
high school graduates are functionally illiterate. Where schoolchildren pass
through metal detectors on the way to class. Where one
child in four says they have seen a murdered person. Where millions of
our fellow citizens have no health care, no decent education, no prospects for the future.
If we really have trillions of dollars to spend, let us spend it on our
fellow human beings. And let us spend it now. And not on our impossible
fantasies of what may happen one hundred years from now.
Thank you very much.
