The Jordan B. Peterson Podcast - 323. Unsettled: Climate and Science | Dr. Steven Koonin
Episode Date: January 16, 2023Dr Jordan B Peterson and Dr. Steven Koonin discuss the IPCC reports – the globally sourced research on climate change – and how policymakers take summaries of summaries from this to justify their ...green agenda, despite what the reports actually suggest. They also discuss starvation, obesity, green economics, and nuclear futures. Steven Koonin, a University Professor at NYU, has served as the Department of Energy’s Under Secretary for Science, as Chief Scientist for BP, and as professor and Provost at Caltech. He is a member of the National Academy of Sciences, a Governor of Lawrence Livermore National Laboratory, a senior fellow of Stanford’s Hoover Institution, and a Trustee of the Institute for Defense Analyses. Koonin holds a BS in physics from Caltech and a Ph.D. in theoretical physics from MIT. He wrote the recent bestseller “Unsettled: What Climate Science Tells Us, What It Doesn’t, and Why It Matters.”
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Hello everyone, I'm continuing my investigation today into the, well I'd say energy and environment
nexus investigating the apocalyptic nightmare that's our hypothetical future.
And I've been talking to a lot of people recently about that.
And today I get to talk to Dr. Stephen Cunen, who's extremely well-qualified to be discussing
both issues, energy and environment.
He is a senior fellow at the Hoover Institute and a university professor at New York University
with appointments in the Stern School of Business,
the Tandon School of Engineering,
and the Department of Physics.
Dr. Kunin's current research focuses on climate science
and energy technologies.
Through a series of articles and lectures
that began in 2014,
Kunin has advocated for more accurate,
complete and transparent public representation
of climate and energy
matters.
He wrote a best-selling book, unsettled what climate science tells us, what it doesn't
and why it matters was published in 2021.
Conan, as a multi-dimensional career, he served as undersecretary for science in the US
Department of Energy from 09 to 11, where he led the inaugural quadrennial
technology review. Before joining the government, he spent five years as chief scientists for
British petroleum helping them think through the development of alternatives to fossil fuels.
For almost 30 years, he was a professor of theoretical physics at Caltech,
and he also served there for nine years as vice president and provost, facilitating the research of more than 300 scientists and
engineers, and catalyzing multiple research initiatives.
In addition to the National Academy of Sciences, coding's memberships included the American
Academy of Arts and Sciences and the Jason group of scientists who solve technical problems
for the US government. He's been a trustee of the Institute for Defense Analysis since
2014 and is currently an independent governor of the Lawrence Livermore National Laboratory.
He served similarly for Los Alamos, Sandy Abrokeven and Argonne National Labs.
Los Elimos, Sandy Abrokeven, and Argonne National Labs. He has a BS in physics from Caltech and a PhD in theoretical physics from MIT.
He's the author of the classic 1985 textbook, Computational Physics, and has published 200
peer-reviewed papers in the fields of physics, astrophysics, scientific computation, energy
technology, and policy,
and climate science.
Looking forward very much to talking to Dr. Koonan today.
Okay, so the first thing that we need to point out
to everyone is that Dr. Koonan is by any standard
and outstanding scientists.
200 publications would put him in at minimum the top 1% of published
research scientists. So in Caltech's a deadly institution, or at least it was up there with MIT,
and one of the jewels in the University of California system. And then it's not only...
No, no, no, no, it's a private university. It's not one of the...
Oh, I'm sorry, I'm sorry. So that's...
Oh, no. Caltech, Cal sorry. Oh, that's not right. It's Caltech.
Caltech.
Yeah, yeah, that's right.
My mistake.
Right.
Yeah.
A small West Coast technical school is where we used to discuss.
Right, right, right, right.
So you think that there's a system school in the US that has a better reputation than
Caltech, other than MIT?
Well, I used to like to say when I know both institutions very well, I used to like to
say Caltech was like the best fifth of MIT.
It's about one fifth of size.
But in terms of, again, it depends on which discipline you're looking at, but overall,
you can't really distinguish between Caltech and MIT in some domain, Sanford.
These are all really good schools.
Right, right.
And the best of science in engineering,
not only the education,
but for this discussion, more importantly, the research.
Okay, so now you also, another thing for everyone
to consider here is that Dr. Koonan has also not only
worked as a researcher and a lecturer, etc.
but he also worked as a scientific administrator.
I think that's probably the right phraseology within the university system.
So, was able to evaluate and track and learn about a variety of different scientific disciplines.
But then also worked in the private sector for BP.
We should address that right off the bat.
And then in government, so you really have a broad, very, very broad background
professionally. Now, I suppose the thing, the appointment in principle that makes you
least credible on the client, climate denial front is probably you're posting at British
petroleum because people, yeah. So tell, let's talk about that.
So why doesn't that just make you chill over BP?
Right.
So this is about 1980, sorry, 2004.
And my name had been fed into a search that BP was running
for the chief scientist.
And eventually I get a call from the then CEO John Brown.
And he says, come, come be chief scientist.
And I said, I don't know anything about the oil business or the energy business.
I know energy is conserved. I'm a physicist.
But I don't know about practical energy.
And he says, don't worry, you'll learn.
And they brought me in not to help them find oil or gas.
They were very good at that.
They didn't need me to do that.
But to figure out what beyond petroleum, which
was the tagline at the time, what beyond petroleum
really meant in terms of technologies, in terms of viable
businesses.
And so I picked up the family and we moved from Pasadena to London.
I moved from academia to the private sector.
And I like to say for the first couple of years, I was the world's highest paid graduate
student because I had one of the company, run of the industry, just learning all this stuff
about practical energy.
In the end, I think I helped them quite a bit
over the five years I was there,
teaching them how to think about energy,
what technologies were promising,
what ones might actually make a difference
in terms of the environment,
but also in terms of a viable business.
So it was a wonderful experience, and I would assert one of the problems we have today is that
people who talk about energy don't really understand energy systems or the energy businesses.
And any academic who's working in those fields, I would say go spend a year in the private sector
because it will change your perspective enormously.
Okay, well, let's delve into that a little bit.
So you opened up two avenues of questioning there,
I would say, one is, well, three,
why did you decide to go to leave academia
and go to the private sector?
What did you learn about, say, beyond petroleum?
I mean, first of all, I think it's rather peculiar
in some real sense that British petroleum
has as its motto beyond petroleum,
given that the fossil fuel industry
is so necessary and stable.
But it's very interesting that they have done that.
And then so I'm very curious to pick your brain
about what you actually saw as promising
if anything on the alternative energy front.
And then I guess the third question is,
what did you learn as a consequence of working
in private industry that you really didn't know
when you were working in academia?
Oh yeah, okay.
Oh wow, that's a very broad palate.
Let me just talk, firstly, why did I decide to leave? Yeah, I had been
Provost, which is second-in-commanded Caltech for nine years
when BP approached me
Nine years is a long time to spend in in any job particularly one that's as demanding as
Trying to corral 280 faculty together and oversee the research operation.
I had always been interested in the private sector and through discussions with colleagues,
I understood that energy and climate were hot topics and well worth investigating.
So, you know, something, as usual,
I took a leave first to see how it would work out
and was on leave for two years
while I was getting settled into BP.
And those were the motivations.
I was just interested in energy at the time.
Of course, there was the opportunity to go live in London
and get exposed to a much bigger world than I was
involved with in Pasadena.
Right.
Right.
So a lot of that was turned by curiosity.
Sounds like it, do you?
Yeah.
A lot of my life is about curious.
Yeah, it sounds like it.
I've always had fun doing what I'm doing.
And with a physicist tools and physicist orientation, you just like to do that.
I mean, as one of my elders once told me when I was a young faculty member, a PhD in theoretical
physics is a license to poke your nose into anybody's business. Right. And I've just had great fun
doing that. Right. So, go ahead. Oh, I was just going to have to return now to this issue of what did you learn on the
energy front?
I mean, what did you see as promising, let's say, outside of petroleum?
And in what manner and why was BP interested in that?
Yeah.
So BP was interested like a lot of energy companies at the time and still for several reasons.
One is, look, the purpose of a private company is to make money and to do it legally and
to do it predictably.
They have to do that in the environment,
the regulatory environment, the technology,
the economics, these days, the stakeholder environment.
And so I think the CEO at the time, John Brown,
was one of the first leaders in the oil business
to recognize we had better take this low carbon business seriously if only because that's
where the stakeholders and the government were going.
I think that nicely segues into, you know, what did I learn about business?
We can talk about energy in a minute, but what I learned is, first of all, it is about
making money and it is about reliably delivering
a quality product.
It is about taking risk, particularly in the oil and gas business.
You invest a lot of money up front in the expectation that over 20 or 30 years, the revenues
from the oil you produce, the gas you produce, will pay back.
So it's a lot of capital upfront, big bets, sometimes risky, in a very complicated, regulatory
environment, particularly for an international company.
So one of the things I came to admire were the people who led these organizations, how
they managed to juggle so many different dimensions
at once.
It's a lot harder than just sitting in your office
and scribbling on a piece of paper about equations.
It's very complicated.
Another thing I learned is that energy is about scale.
Unless you really go to introduce a technology
that's going to make a material difference,
at least at the few percent level, nationally or globally,
you're not really doing very much.
You might be making money, which is fine,
but if you want to impact the energy system,
it's about scale.
And so I'll give you one example just to illustrate that.
I was once talking to a famous guy to show our main nameless, was not an energy expert,
it was a policy guy.
And he says, I know what the answer is.
We take all of the carbon in the used tires and recycle it into fuel.
And okay, he said this with great passion.
And so I sat down for a minute after we talked,
or even as we were talking, and I calculated how many cars
in the US and how many tires and so on,
and how much carbon is there.
And it turns out it can't make a difference at all.
Right, it's very tiny.
And so people don't understand the scale.
Yeah, well, there's nothing more annoying than arithmetic.
Yeah, right.
Well, you know, that's, there's a physicist, that's my first inclination, right?
How big is it?
How much is it going to make a difference?
How much is it going to cost on so on?
In the department of energy, we used to talk about, you know, new technologies is impacting
quads of energy.
The US uses about 100 quads of energy a year.
Quads, barrels of oil, the world uses 100 million barrels
of oil a day about.
And so what's the quads?
What's the quads?
A quad is 10 to the 18th joules, roughly.
It's actually 10 to the 15th BTUs. But it's just about 10 of the 18th, I'm sorry 10 of the 15th BTU's, but it's just about 10 of the 18th
June, all right. And the US uses about 100 quads of energy a year. The world is a whole uses about
550 or 600 quads a year. So think about that for a second in terms of energy. The US is only 4.5% of the world's population, but we use about 20% of its energy.
So, not because we're energy pigs or energy glutton, but in fact, because that energy improves
our quality of life enormously.
Well, people aren't going to be energy pigs or energy glutton as a general rule because energy isn't free.
And so everyone is motivated to the degree that they can be motivated by reasonable energy
pricing to be as effective and efficient as they possibly can be. And I suppose maybe
you can produce a small increment in that efficiency by raising the price, but that doesn't
strike me as a particularly good solution. So what did you see as promising on the alternative to fossil fuel front?
Promising.
Yeah, so, right.
And let me answer that question in the present day rather than in the 15 years ago when
I was thinking hard about those things for BP.
First of all, it's really hard to get rid of chemical fuels for transportation.
If you think about a truck or a train,
you really are plain, you need the energy density
that fossil fuels provide.
We run our cars on gasoline or in Europe and diesel.
And we want to shift to electric.
And I think that shift is slowly underway, though.
There are many barriers.
But when you put your denozo of the pump in your car, you're wielding about 10 megawatts of power. Whereas if we charge up
the battery on an electric car, we're talking about 100th of the power flow. So it's really hard to beat
the energy in chemical fuels. And so some fragile world is still going to run on chemical fuels.
They, the fuels we used today, emit carbon, fossil carbon because we did the oil out of the ground
and use it to make gasoline, which then enters the atmosphere. We could make those fuels out of
biological materials. And we've been doing that in the US by making corn ethanol, which is
a phenomenally inefficient and not very environmentally friendly way of doing it.
But there are other biological ways of getting carbon into fuel. And when I was in the department
of energy and in BP, this intersection of biology and energy, making chemical fuels out of biological materials,
was something we thought was very promising. We started a whole institute at Berkeley in Illinois
to pursue that. I think it's still in the research and development stage, but if we're going to have
and development stage, but if we're going to have transportation fuels for heavy transportation, then I think this biofuels is going to be very important.
Do you worry about the competition between crop land utilized for biofuels and food production?
Are you thinking more about oceanic like algae or algae?
No, no, algae doesn't.
like algae or algae? No, no, algae doesn't.
Yeah, algae is kind of tough, actually,
for various technical reasons.
We would grow things,
but, you know, the idea was to use
plants that do not compete for
farmland or to use the waste
part of food,
the cellulose,
rather than the carbohydrates.
And is there anything on that front
that's viable like commercial and at scale at the moment
or at?
No, no, no, we can't do it.
It's the cost, which is really the issue.
You know, you've got to break down the cellulose,
which is the structural material of the plants
into sugars and then ferment the sugars.
And the cost right now is so two to three times
what gasoline costs.
Okay, well, so we could say, and people do say,
well, damn the cost, it's real costly
if the planet burns up in 100 years.
And so why not just force people to, or require,
or incentivize people to pay three or four times as much for their energy usage now.
Well, I think, you know, as we've seen in France and other places, when you try to do that,
people get very upset. And in fact, this tremendous disruption. And in fact, you know,
this whole energy transition that we're talking about,
if you do it too rapidly, it's tremendously disruptive because energy touches every part of our lives.
And so you've got to go slow. There is no climate crisis. We can get onto that in a bit. Let us
take our time, develop the technologies, introduce them gracefully, and eventually
reduce emissions as required.
Yeah, well, that graceful introduction
doesn't seem to be something that can be managed
from a top-down perspective very straightforwardly.
I mean, first of all, we're seeing a tremendous amount
of instability on the energy provision front in Europe
at the moment, partly because of winter, partly because of the war, partly because of, I would say,
clueless, hypothetically, environmentally oriented policies in the past.
And let me lay out a couple of the problems I see with renewables and tell me what you
think about that.
Sure.
Okay?
Sure.
Well, the first is that obviously, and this has really been a problem in the UK recently,
you don't get a lot of electricity
when the wind isn't blowing and the sun isn't shining.
And we've had prolonged periods of wind drought
in the winter in the UK,
and that's a real catastrophe.
Now, people object.
Do you know the German word, dunkelflauta?
Yes. You heard that word before.
Yes, okay.
For other people who haven't heard it, it means when the wind doesn't blow and the sun doesn't shine.
So you get no electricity from wind or solar. The German translation is something like a dark stillness. Right, right. Well, and so we hear a lot of noise about the cost, benefit, and effectiveness of renewables, but that the cost of renewable
energy on the wind and solar front is generally estimated at the cost when the wind is blowing
and the sun is shining, not when it's dark and there's no wind at all because the price
actually moves towards the infinite at that point.
Now the problem technically, as far as I can tell, apart from whatever environmental
damage, wind and solar might be producing in and of themselves, like the death of birds
and bats, for example, the big problem seems to me to be twofold.
One is that they're cyclic on a daily basis and a weekly basis and a monthly basis, and
we don't have good storage,
and it isn't obvious we're gonna have it soon,
and storage itself, everything that needs to be mined
and so forth to make bad news.
It has a non-negligible environmental cause.
So it doesn't have to be storage.
So let me back up for a second, okay.
So we're on the electrical grid now,
and we would like our grid to have three qualities
First of all, it should be reliable the reliability standard in North America is like one day out of a decade that the bulk power system
Should go down
Mm-hmm. The second is we would like it to be affordable. Yeah electricity prices get too high
It's a terrible disruption. And the third thing is we'd like it to be clean
both in a local pollution sense, but also in a CO2 emissions sense. So reliable, affordable, and clean.
I like to think about the old joke during the Cold War,
you know, smart, honest, and communist choose two out of three. All right, so reliable, affordable, clean.
We have a reliable and affordable system
based on coal and natural gas.
You can be reliable and clean
if you do nuclear energy or you do carbon capture
and storage with gas or coal.
Or you can be affordable and clean with wind and solar.
But you can't have all three.
The most expensive part of a useful grid is the reliability.
Right.
It's not the wind and solar.
And because you can have up to a month's worth of dunkelflouta,
where the wind and solar are not producing at all,
the backup system, whatever it is,
needs to be at least as capable as the wind and solar system, which means the cost is going to be
at least double because wind and solar are the cheapest. All right. So, and people have done
detailed studies using real weather data and cost for wind and solar and nuclear or batteries and so on.
And it turns out that we're going to at least double if not triple the cost of electricity,
if we go to a renewable heavy grid.
And I don't think that's a very good thing at all.
Wind and solar can be a supplement to an existing grid, but they can never be the backbone.
Okay, so let's delve into that a little bit more because I just want to highlight for
everyone exactly what's being said here.
So because you need a continuous supply of power, and that's particularly true in the
winter, or perhaps when it's extremely hot, you need a continuous supply of power, and
you also need a continuous supply of power that's capable of being reliable during peak usage hours.
So because wind and solar cannot do that, and we don't have the storage,
to use wind and solar, we have to have two parallel power systems.
And so I can't see how anybody can think that's a good idea. Now, that's especially the case when if you produce
to parallel power systems, you make energy much more expensive,
but also you introduce unpredictabilities into the fossil fuel
or coal or nuclear end of the equation,
because it isn't obvious to the people who are investing in those technologies
exactly how much attention is going to be paid to their needs.
And so you complicate the economic infrastructure upon which the provision of reliable fossil fuel and nuclear is already being predicated.
You're going to have to also trigger the economic incentives because that backup system is going to sit idle
with fraction of the time, but you're still paying the capital expense.
Somebody took out a loan to build that gas plant with CCS,
and how are you going to compensate them when they're only being used 10% of the time, unless?
Okay, so I think you could make a radical case
that switching to renewables under such situation
if the renewables are wind and solar is just ill-advised period
because of the problem of having to double the energy infrastructure.
System. Yeah, yeah, yeah, okay.
And so, so. There's another, there's another problem.
And that is the critical materials problem.
You mentioned cobalt, I think, a little bit a while ago.
The renewable technologies for their magnets,
for other components, the wiring,
use a tremendous amount more of non exotic, I'm sorry, of exotic materials. Rare earths,
cobalt, nickel, copper, not so exotic but very important. And the world does not have the capacity
to produce those materials at the scale and cost that's required.
Okay, so now let's let's talk so now let's talk about costs.
So, from what I'm able to understand,
and this is fairly basic, is that
because energy sits at the base of everything we do,
because there's no difference in some real sense
between energy and work,
and there's no difference between work
and even minimal human flourishing shelter, opportunity
for your kids' provision of inexpensive
and plentiful food, you know, the fundamental basics.
Every time we make energy more expensive, what we do is we tilt hundreds of millions of
people who are just starting to struggle their way out of absolute poverty right back into
what desperate, scrambling round in the dirt, fundamentally.
And so, and then you might say, well,
that's absolutely necessary because of limits to growth.
The planet just can't tolerate the multitude of people
striving for economic security that are currently engaged
in that struggle.
And so tough luck to those people.
But the thing that really bothers me about that, apart from the fact that it's cruel beyond belief, is that I don't see any evidence at all that tipping hundreds of millions of people back into absolute poverty is going to do anything but make the planet a hell of a lot worse. The situation in Germany is quite illustrative of that now because we've got a perfect storm in Germany,
as far as I can tell. We've got dependence on a dictator, Putin, or on petro dictators,
because Germany, for example, just made a big deal with Qatar, because Canada sent them away empty
handed. And then energy costs are extremely expensive in Germany, and so lots of industrial
enterprises are leaving, going
to places like China and the US, and then also the entire power structure is now incredibly
unreliable, and it's more polluting by a large margin than it was 15 years ago.
Yeah, all true.
Okay, all true, which is incredible for a, you know, credible for a country that is founded on rationality and sensible
engineering, and invented many of the technologies that are used in a modern fossil fuel-based
energy system. Nuclear vision was discovered in Germany, right? This is crazy. I think, you
know, Mrs. Merkel is at the heart of a lot of those decisions. She is a trained scientist, she's a physical chemist.
I know from talking to people who have talked with her,
she understood all of this, but was beholden to the electorate
and made the decision based on politics
rather than what she knew about energy tech.
Yeah, I don't even think that this is based on politics, per se.
I think what happens to these leaders, and I've seen a fair bit of this in Canada, and
I know about it firsthand.
And in the US, for that matter, is that people get inflamed about a particular issue because
they're afraid, let's say climate change.
And then the politicians who have very little courage
on the electoral front use very, very badly designed
public opinion polls to sample people's terror
at the level of whim, and then they pander to it.
And I don't actually don't think that that's necessary
because I don't think there's any evidence at all
that that kind of public opinion poll driven pandering
is a reasonable short, medium, or long-term political solution.
So it's actually quite a mystery to me.
You know, go ahead.
Go ahead.
I was going to say, in these issues, at least for climate
and energy, there are underlying scientific
and techno economic realities.
And you cannot violate them without running into big trouble.
And Germany is a wonderful example
where they just ignored the techno economic realities.
The same is true of the climate story
where some combination of some of the scientists,
the media, the politicians and the NGOs,
have quite unreasonably hyped the alleged climate threat.
Both climate and energy are complicated, nuanced subjects.
They can't be distilled down into sound bites.
What we do involves trade-offs and the politicians will not let the
public be informed enough about those trade-offs to make a decision.
Yeah, well, some of that's a problem. It really is, in part, a problem of complexity, right?
I mean, because you can imagine that there's an attraction to relatively simple hypotheses.
And maybe that's a good one. That's Alcombs razor in some sense, although you don't want your
explanations to be any simpler than they need to be. And so we have, well, it's reasonable to
be concerned about the environment. Part of the environment is climate. Part of climate is carbon
dioxide. Maybe we should just focus on carbon dioxide, and then we're doing the right thing.
And that's where people get led down the garden path, because you don't get to be a planetary
savior by jumping up and down and saying carbon dioxide is bad.
Like, that's too oversimplified, and the politicians capitalize on that.
Right. simplified and the politicians capitalize on that. Right, so let me give you one simple response to that, which I found to be pretty effective.
And I would credit Alex Epstein from general thought, right?
And who I know you've spoken with.
There are one and a half billion of us in the developed world, US, Canada, EU, Japan, and so on.
And we enjoy abundant energy.
It's a little more expensive at the moment
because of market issues, but by and large,
we've got a great deal of energy.
And it's got this lift that's a sleeve,
the kind of lives we live.
There are six and a half billion people on the planet
who don't have that energy.
And as they develop, as they improve their lives,
their energy demand is going to grow.
And the only way, sorry, not the only way,
but the most effective way to let them have that energy
is by fossil fuels.
Electricity, gas, coal, transportation, oil.
And I think Alex very effectively argues
that it is immoral to deny them the opportunity
to develop with adequate energy.
Yeah, well, we can know, I think I'm not heard
of an adequate response.
I would push that task unethical
into the realm of murderous.
I think it's absolutely unforgivable for the West to ever say anything about whether
or not the developing countries, and that would include China and India.
Have any right to start moving away from Wood and Dung, which also kill many, many people
while they're burning.
To ward coal and natural gas and nuclear.
And I've not heard any leader address that issue directly.
Well, I'd love to ask John Kerry or, you know, you're a leader, Trudeau or the people in
the EU, where is your morality about these six and a half billion people?
Well, there is no good answer.
Well, this is the argument as far as I can understand it. And I've been trying to follow along, let's say, on the psychological front trying to
piece this together.
It's something like, pay now or pay later.
Sure many, many people are going to suffer if we raise energy prices and put on limits
to growth.
But that will be nothing compared to the suffering of people 50 to 100 years
down the road if we don't take emergency action now.
So that's nonsense.
Non-sense.
Okay, why?
Okay, that's not what the science says.
Okay?
Let me start with, again, something pretty simple.
Let's look at the last 120 years. Since 1900 to now, the globe has warmed about 1.3 degrees
Celsius. In that time, we've seen the greatest improvement in human betterment we've ever seen.
The population has gone up by a factor of five in that 120 years.
The GDP per capita has gone up by a factor of seven longevity increased from 32 years
to the current 72 years across the globe.
Literacy fraction has gone up enormously.
Fraction and extreme poverty has gone down and so on.
Even as the globe warmed another 1.3 degrees.
Now, the IPCC projects, best guests right now,
about another 1.3 degrees of warming in the next 100 years.
To think that that additional warming
is going to reverse or even significantly derail the progress we've
had. It's just nonsense. And in fact, the IPCC reports say that, at least on the economic
front, a few degrees of warming is a few percent hit on the GDP, which will increase,
anyway, substantially over the next 100 years.
Yes, yes. So instead of going up by 400% that'll go up 385%
right, right, right, which is within the uncertainty,
well within the uncertainty prediction.
So the notion of a climate catastrophe is just nonsense.
Okay, so I'm going to, I'm going to put it.
It says it right there in the reports.
Okay, I'm going to push you on that
and I'm going to try to take the hypothetical alternative
scientific perspective.
So back, I guess it was 100 years ago, 150 years ago, something like that.
Thomas Malthus wrote his famous essay on population and extinction in some real sense.
And so for all those of you who are listening,
you need to know this idea.
So, Malthus, who was quite a smart observer,
noted that in natural populations,
there are often cycles of boom and bust.
And so, under standard natural conditions,
a population of animals, and that would range anywhere from single-celled
animals, say, in a petri dish, up to deer grazing on the plains.
A population would expand until it consumed all of the available resources that would be
mostly food in the case of animals, and then having over-consumed would precipitously
collapse.
And that's balanced in the natural world
to some degree by predation and the intercomune
and inter what would you say,
competition between different species,
but fundamentally limited resources,
a given population will expand until it exceeds
the carrying capacity of the environment.
Now, Malthusian biologists assumed that that model was relevant to human beings
by assuming that we were subject to the same constraints.
And so you really saw this kicking into high gear in the 1960s,
where people like Paul Ehrlich, who has plenty of sins on his conscience,
let's say, made the case in the mid-60s, along
with the Club of Rome, that by the year 2000, we'd have so many bloody mouths to feed on the
planet that commodity prices would shoot through the roof and everyone would start.
I remember reading, as you probably did, the limits to growth, right?
Right. The poster book, right?
Right. And the time...
Of course, we know now. Yes.
Well, in the time frame... Well, the time frame prediction was the year 2000.
Now, one of the things we should point out that if you're putting forward a scientific
hypothesis that's testable and falsifiable, it's incumbent upon you to specify the appropriate
time frame. You don't get to say the human race is heading for an uncontrollable,
Malthusian catastrophe sometime in the next 10,000 years.
It's like you can just go away with those ideas.
If you can't specify the time frame, then you should shut the hell up.
Verifiable testable hypotheses are the essence of science.
Right, absolutely.
So people like Araleck, who predicted, for example, that commodity prices were going
to spike through the roof by the year 2000, and everyone was going to starve, are wrong.
And the reason they're wrong, at least in part, is because the Malthusian predictions,
they don't apply to people.
And I think the reason they don't apply in some fundamental sense is because
we're capable of the death of our ideas instead of the death of our bodies, right? So we can adapt. Adaptability is maybe the defining characteristic of humans, all right? We are wonderfully adaptive.
People live, you know, from Hudson Bay down to the equator and we do just fine.
you know, from Hudson Bay down to the equator. And we do just fine.
And I think, at least to judge by past experience,
you have to have faith that we, as a species,
will figure it out.
Because we've always done that in the past.
Yeah, we've done it under more trying conditions
than we have now, I might say.
Absolutely.
And there's a lot of brain power available in the world
now too, and that's one of the massive benefits of having a larger population. I mean, there's
more smart people alive now, especially smart and educated people than there has been at
any point in the past. And we've got to let them do their thing. All right. And that's got
to do with governance and regulation and so on. But absolutely, this tremendous human capacity right now.
Okay, now the IPCC, why don't you explain exactly what that is and also tell everyone, because
all the climate doomsters hypothetically predicate their propositions on the IPCC reports, which
and they're regarded as gold standard.
People like Bjorn Lomburg also accept the IPCC from nonstications, but have pointed out
like Epstein, and you have pointed out, too, that, well, it's one thing to read the IPCC
report, and then it's another to read the summary, and then the summary of the summary, which
is mostly what people read, and it starts to become non-scientific and political or theological as it gets condensed.
So what do you think the IPCC reports actually say apart from the fact that we're looking
at about a 1.3 degree increase in average temperature in the next 100 years?
Yeah.
So we do see, we have seen in the past an increase in the Earth's temperature.
The IPCC will say that's consistent with it all being driven by human influences, but
they allow for the possibility that there's natural variation in there.
So that's just on the temperature.
What they say about extreme weather events is that apart from things
directly associated with the temperature like record high temperatures or heat waves, you
don't see much trends globally. There's drought, hot to see a trend, hurricanes or tropical
cyclones, hot to see any trend at all over a century. Maybe there's a little
thing we can talk about afterward. Sea level rise, proceeding at the rate of one foot, a century
globally, different locally, we can talk about that a little bit if you want. Mid-latitudes, severe
storms, and so on, not much going on at all. It's hard to find trends.
Doesn't mean that the trends aren't there,
but they've just not emerged from the data.
Okay, so I want in.
The IP, sorry, go ahead.
I was going to talk a little bit about the IP.
Yes, please do.
So this is an exercise carried out by the UN.
Roughly every six or seven years,
they convene a thousand scientists from countries
around the globe who are supposed to survey, assess the scientific understanding of human-induced
climate change.
That's really important because they focus on, you know, what might be a tribute about humans as opposed to natural climate change, which is an important
part of the story. And so they split up into various working groups, right, very
detailed, thousand, two thousand page long reports that actually, in my opinion, do a pretty good job of assessing the science. Those reports are then
packaged, if you like, or summarized into summaries for policy makers,
where the scientists don't have as much of a hand in writing those summaries, the government's
intervene quite a bit. And when you compare the summaries, which is what serious people would read if they're
not climate scientists, to what's actually in the reports, there's lots of disconnect.
And I can give you some examples at some point.
And then, of course, you get the media where you have journalists who don't know very
much at all about the science.
They're on a climate beat in the newspaper, and so they have to provide
climate stories that catch the attention. And then you've got the politicians who grab
on to all of this. And so at the end of this long game of telephone, what comes through
is very little reflective of what the actual science says.
All right, so, okay, so now you hear very frequently that 97% of scientists agree that, well,
global warming exists or climate change exists, but my understanding of that is the following.
And so correct me if I'm wrong.
So 97% of scientists agree that there is credible evidence that some proportion of the current trend towards warming
is attributable to human activity and more specifically to carbon dioxide.
So it'd be some fraction of the 1.3 degrees that have...
Yeah, right.
Whether it's a half or whether it's whole, I think, people would disagree on it.
Right, right.
And there's some disagreement about exactly the range of hypothetical temperature increase
over the last 100 years or the next 100.
Okay, so that's the 97%.
What percentage of scientists do you suppose actually take an apocalyptic view specifically
in relationship to carbon dioxide?
Do you have any idea?
Any sense of that? No, you know, no.
And you know, the 97% numbers are made up number also.
Yep.
It's on a entirely flawed study.
I think, you know, the scientists are not behaving
as though it were apocalyptic.
I would say 95% of them are not in that camp.
But look, that's just my anecdotal perception.
You know, I sit down and talk to the folks a lot.
Yeah.
Right, and you know, none of them are kind of jumping off the roof
and saying, my God, we'd better do something
over headed for a climate hell.
A climate highway to hell or something is what,
the Secretary General of
the UN said a couple months ago.
Right. Well, so the... No, we're not. Okay. Go. This is... It's an issue. It's a long-term
problem. We can deal with it, but there's no reason to wring along bills.
Okay. Well, then I'm going to play devil's advocate from another direction for a moment.
So I would say of all the data points that I've encountered over the last 15 years investigating
the nexus between energy and environment, the data point that's leapt out at me most strongly
is the fact that since the year 2000, the world has greened by 15%
and primarily in semi-arid areas. So let's just walk through that for a second. So 15%
is a lot. It's bigger than the entire landmass of the United States. And green is a lot different
than brown or dead. And semi-arid means that plants are growing in places
that are damn near deserts.
And as far as I can tell,
that's pretty much the opposite of what
the climate apocalypse
prognosticated.
And more than that,
I can't shake the suspicion.
And I would love to be corrected on this
if you can see somewhere that I'm wrong.
Why the hell isn't that good news, especially when it's also allied with the fact that our
crops are much more productive as a consequence, too?
So I could say, hey, look at this.
It turns out that there's no more effective way of delivering fertilizer for plants worldwide
than to burn fossil fuels.
Yeah.
So let's back up on the science for a second first.
So plants love CO2, right?
We pump CO2 into greenhouses in order to get the plants to grow better.
Right now in the atmosphere, the concentration is about 420 parts per million
of CO2, we raise it to over a thousand parts per million in greenhouses to help the plants grow.
The CO2 not only lets them grow faster, but it lets them use water more.
Right.
They don't have to open up the stomata and lose water as much.
You're 15% since 2000. If you'd asked me, I would have said it's more like 40% since the 1980s.
All right, so yeah, things are growing better on Earth since 1980.
Why?
Something called the Liferia Index has gone up.
NASA produces maps that show this.
They write press releases that show this, but somehow it's not really present in the media.
Okay, so how come we're not, how come we can't take the stance that carbon that show this, but somehow it's not really present in the media.
Okay, so how come we can't take the stance that carbon dioxide is a net good?
Because that's such a developing statistic.
40% since the 1980s.
I mean, I don't know of another set of data that has, well, let's call that scale.
Right, that's really something. And green. That's important, right?
And if you look at the agricultural yields and so on, whether it's in the US or India,
has been going gangbusters on producing crops. You know, this is certainly one of the benefits.
And it's a significant one. That has to be weighed against hypothetical detrimental
effects from global warming. And the net of them is a few percent. Again, it's in the noise.
You can't distinguish it. There are other factors about human well-being that are much more important than whether the climate's changing or not. So, you know, if I were to be a little snarky,
it's almost a nothing burger.
The science says that if you read the reports,
but the detrimental effects get hyped up by various players.
The other thing that I've seen,
the drum being beat about quite acidulously,
let's say, in
recent years.
And maybe I don't know how much you know about this.
I don't know enough about it.
That's for sure.
There are people who are claiming now, and maybe this is because some of the shine is
going off the climate apocalypse, that we're headed for a mass extinction.
And I read a couple of computer models the other day
that were publishing, saying that there's a,
like a domino effect with regards to mass extinction.
And I mean, there are a lot of people.
And although there's a lot of greenery now,
and there's more forest in the Northern Hemisphere.
So, you know, those are powerful countervailing proclivities.
But do you have, do you have any specific knowledge
about our effects on the mass extinction
front?
Yeah, no, you know, like a senior academic as you and I are, you're reluctant to talk
about things you don't know much about.
And I'm very careful about that.
I don't know about the projections you're talking about, but I'm a priori very suspicious because these are complicated
physical, biological systems and small effects can have a big influence.
And so I'm skeptical.
If I were to look at those papers, one of the first things I would ask is, how well have
you reproduced the past?
Because unless you can reproduce the dominant changes
that we've seen over the last 100 years,
1,000 years, whatever, I don't have much confidence
in your ability to predict.
Well, OK, let's talk about models some more.
So one of the things I want to point out to people,
and you tell me what you think about this,
is that it is perfectly possible to produce pretty damn good computer models
that predict the behavior of the stock market in the past. And the stock market is very complex,
of course, because it's an index of, well, the sum total of human economic activity,
plus political activity. So it's a very dynamic system and it's full of weird feedback loops because as
soon as you can predict it, you perturb the system. But in any case, here's the fundamental point.
It doesn't appear to me at all that the stock market is more complex than the climate. And if you
could produce a model that could predict the climate, then you could produce a model that would predict
the stock market. And if you could produce that model, even if you only got, were right,
51% of the time, consistently,
you would soon have all the money.
And I don't see anybody who's developing
these very complex models who has all the money,
so I don't think that they can make models
that can model the behavior of systems without complex.
And so let's talk about models a bit.
So let's talk about models a little bit.
Let me back up again and talk about some of the basics.
The most used models for the climate system
are what are called general circulation models.
They cut the atmosphere and the ocean up into cubes
about 100 kilometers on a side, 60 miles on a side,
and going up 20 layers in the atmosphere and then 20 layers down in the ocean.
And we have a difference to the stock market is we have some underlying physical laws,
laws of conservation of energy, mass, momentum, and so on, that govern how
the air, the radiation, both sunlight and heat radiation, water vapor flow through these
boxes. Newton understood those oiler back in the 19th century or even earlier. And we can build such models and use computers, so you wonder
with a, I've ordered 10 million boxes covering the earth going up and down in the
ocean, the atmosphere. And then you follow the flow of stuff through these boxes
every 10 minutes, 10 minute time steps. And you do that for a century or so, and you got some description
of what you think is the climate. But there are lots of problems with that. One is that
60 miles on a side is not sufficient to describe the difference in climate between New York
and Washington, DC, or New York and Toronto, for example. So that's one.
And so the second is a lot of phenomena happen on much smaller sizes. Think about thunderheads,
for example, okay. They happen on a few mile scale. So you have to make up some assumption about
what's going on inside each of those mocks and different people make different assumptions.
A third is that the boxes are not really cubes,
but they're pancakes because the atmosphere is really thin
compared to the size of the earth
and the ocean is also pretty thin.
And so you have to make up assumptions
about how things move vertically
that are not directly tied to the fundamental
physical laws.
So all of those, you know, make a lot of trouble, and that's why the world has 50 different
such models and to get predictions they average all of them together.
Okay, so let's take that apart just so everyone understands.
So the first is, is these models are not very high resolution.
Either spatially or temporally.
So you have to use huge cubes plus your only...
Temporally, well, temporally is pretty good, 10 minutes.
Well, mate.
Spatially.
Right, but you know, but we also, well, perhaps on the temporal side,
I mean, the thing is, is we're looking at relatively small
deviations in temperature, right? If it's one degree over a century
this is not a huge effect and what that means is that the models aren't high
Resolution enough to be accurate to that scale. They're simply not that's true
That's true now that doesn't okay. That doesn't mean we shouldn't model because
That's true. That's true. Now that doesn't, okay, that doesn't mean we shouldn't model because our models get better
and better all the time.
But there's a big difference between modeling something, even if you can make it accurate
to predict the past and being able to model the present.
But there's a walloping difference between being able to model the present and being able
to model climate 100 years from now.
Because the errors compound as you predict out into
the future.
Yes.
Well, yes.
That's certainly true, although you hope to be describing averages that are reasonably
well predicted.
You know, there's several comments about that.
One is, you know, on the human influences are small.
There, as you say, a 1% effect were concerned about a rise of two degrees,
where the surface temperature is about 300 degrees, so it's like a 1% effect.
The second is we're interested not in describing the climate, but in describing
how the climate responds to those influences. That's the big question, and
that's a older magnitude, harder job than describing the climate itself.
The third thing is we're looking over time scales of 150 years, and we have terrible data to describe what happened in the past.
Yes, we have reasonable confidence about the average global temperature, but what goes
on in the oceans, which is really where climate happens.
The oceans are the long-term component of the system.
We have terrible data until about 20 years ago when we started putting out floats of various
countries.
How good is the ocean data?
I mean, the ocean is pretty damn deep, and it's not like we can measure everything that's
happening in the ocean's pretty damn deep, and it's not like we can measure everything that's happening in the ocean.
I can't imagine we understand long-term current flows from the depths well enough to be predicting
climate alteration on the scale of a few degrees.
That just strikes me as unbelievably preposterous.
Right.
Studies that have attempted to reproduce the warming of the ocean show that the ocean was warming at about half the current rate
even as the little ice age started to end.
And so untangling this long-term natural variability
from the effect of human influence
which has only really been significant for the last 70 or 80 years or so
is a very, very difficult problem, maybe
the central problem in climate change.
Okay.
Now you talked about when you were at BP, you got somewhat excited about the possibility
of biofuel.
We didn't really continue down that road.
What are your thoughts on the nuclear front, let's say? And did you see developments there that you regarded as, like with most people.
A lot of people talk about modular nuclear power, for example.
So, right.
So full disclosure first, I began life as a nuclear physicist.
And so the atom is my friend.
I'm a scientist, not an engineer.
I don't think I could build a critical, credible nuclear reactor,
but I certainly understand how they work in great detail
and understand the economics and the business and so on.
I think if the world is serious about reducing carbon dioxide emissions,
nuclear power has to be a big part of the future.
Essentially zero emissions, reasonably economic,
and a demonstrated technology, right? Roughly 20% of US electricity comes from Fission,
80% of French electricity comes from Fission, maybe 75 now. So, you know, we know how to
do this. The problem is that the big ones,
particularly in the US, the existing power plants
of which there are about 90 something now in the US,
are very expensive.
You have to put down a lot of money at the beginning,
10, 2020 billion, and then
you don't start to pay it off until 30 years, hence, when you sell the electricity that
you've been making. And so you need a stable and sensible regulatory environment for these
big capital expenses.
Well, look, I mean, we were building nuclear power plants, you know, 60 years ago.
And so we should be better at it now, especially at the modular level.
So one of the things I'm curious about, well, two, I suppose, is to what degree does insane
regulation make nuclear power unbelievably expensive?
And then the second question would be, given that insane regulation does make nuclear
power extremely expensive,
do you think there's any possibility at all, practically speaking, that that red tape
could be reversed?
I mean, Germany just built an LNG port in like five months, so it's obvious we can
get our act together when we need it.
We can do this.
Yeah, yeah.
I think, you know, regulation has been a big part of why big nuclear is expensive.
I'm all for making sure these things are safe.
We have to do that.
That's the primary consideration, and the industry believes that as well.
The problem is that in the US, we have built every reactor custom built.
They're all different.
Right? Even if the names are more or less the same in. They're all different. Right? And even if the
names are more or less the same in detail they're different. The hope is with
small modular reactors is to focus the regulation so that you can get one
design approved and then you can make a hundred of them. Right. And ship them
around the country, you build them in a factory, and you put them on a flatbed rail car
and bring them to the site.
It would also ease the economics
because you pay for the first one,
and then you use the cash flow from it
to finance the second one and the third one and so on.
How does site.
Yeah, well, I'd really like.
And Bill's voice is doing that.
They've got a proposal.
So, Bill's voice is doing that, right?
So, in the US,, there are two companies, I remember that they're one of them called Newscale.
And I think they hope to have the first one in the ground within the next five or six
years.
You know, you got to come down the learning curve.
Right now, the costs are more expensive than big nuclear per kilowatt hour produced. But as they come down
the learning curve and build more of these and so on, the costs should come down. They'll still be
more expensive than gas, for example, to make electricity, but at least you won't have the CO2
issues. The waste issue which people talk about also with respect to nuclear is a technically solved problem.
How is it solved?
Monitored retrievable storage.
You put it underground, you monitor it, the waste decays, the heat from the waste decays.
After 100 years, it's almost all gone. And then you can pull it back out
if you needed the energy in it. You know, we only burned about 5% of the uranium in the
waste. That's there in the waste. And so it's soluble.
So, okay. I started looking into the sorts of things we're talking about about 10 years
ago, and maybe 15 years ago.
Okay, so one of the things that really shocked me, well, there are two things.
The first was that when I started looking into the energy and environment in excess in
detail, I got more optimistic rather than less.
And I thought, oh my God, there are things are a lot better than I thought they were.
People are getting richer at a stunning rate.
It looks like there's a positive relationship between population growth and wealth.
The planet is cleaner and better off in many ways
than it's been for a very long time.
But there's real reasons for optimism.
And then I also, so that was shocking.
Then I also learned, and this was also shocking,
that there's a very positive relationship
between GDP and environmental, let's call it awareness
and concern.
So it looks like once you get people up to about the point where in their country the
average GDP is $5,000 per person, people can stop scrabbling around in the dirt and burning
everything and eating everything inside.
And they can start to think about what sort of environment they'd like to have for the
children and grandchildren. The technical name is the Kuznet's curve, which you probably... everything inside and they can start to think about what sort of environment they'd like to have for the children in
Granchand. The technical name is the Kuznet's curve, which you probably
right, right, right, right. And so, and so then I thought, oh well, isn't this interesting? What this
should mean is that if we wanted to, we could work really hard internationally to make energy cheap and we
could pull billions of people, the remaining people in the world, out of
abject poverty.
And the consequence of that, they would be that they would start to become locally concerned
about environmental maintainability and sustainability.
And then everyone would have enough to eat and they'd all be educated, plus the planet
would be better off.
And then the question was, okay, and here's a question that we can really delve into.
Why the hell aren't
we doing this? It's like instead we're buying this crazy apocalyptic narrative that's making
the planet worse, that's driving energy costs up, that's destabilizing us socio-politically,
when, as far as I can tell, the pathway forward to abundance and sustainability is pretty damn obvious and also not particularly expensive.
So what the hell is going on?
So I will quote two folks relevant to this.
One is HL Mankin, who was a journalist writing in the early part of the 20th century in
New York, US.
Very astute, very assertive.
And he's got a line in one of his books,
which I'll try to reproduce.
The purpose of practical politics
is to keep the electorate alarmed
by a series of mostly imaginary hub goblins
so that they can be clamoring to be led to safety.
And you see the politicians grabbing on to these issues,
whether it's the climate, whether it's immigration,
they do it on both sides, all right, all sides.
The missile gap in the 60s, you know,
whatever the truth was behind these,
the politicians amp it up in order to get the electorate
to actually do something, right?
So that's one quote.
The second is, there was this guy named Anthony Downs, who was an economist working in the
60s through the 90s or 2000s.
He was first at UCLA and then at Brookings, so he was quite on the left.
Had a number of insights to his credit, but one of them was what he calls
the issue attention cycle, namely some issue, whether it's pesticides or climate, bubbles
among the experts for a while, nobody pays much attention to it.
It suddenly bursts into the public consciousness and everybody gets both alarmed,
but also enthusiastic about the ease
with which they're gonna solve it.
Then everybody discovers, boy,
this is gonna be really hard to solve,
and eventually the issue fades
with time or morphs into something else.
And I think we are at kind of that third phase now
with the climate where everybody is really
rising just how hard, and I would say almost impossible,
it's going to be to reduce emissions.
Certainly net zero by the end of the century
looks like it's just not going to happen.
So, you know, I think that's what's going on.
Well, I'm going to add some psychological layering. Well, I'm gonna add some psychological layering
to that, and you can tell me what you think of this.
Well, so first of all, people are tilted towards
attention paid to negative events.
And so, for example, people are much more hurt
by a loss of $5 than they are made happy
by a gain of $5.
So we're quite lost sensitive.
Now, I think the reason we're lost sensitive
is that, well, you can only be so happy,
but you can be 100% dead.
And so the more sensitive threat,
in terms of magnitude of response per unit of reinforcement,
makes sense given that we're finite and vulnerable.
And then we also have the problem that any given threat,
almost any given threat, could in principle be personally and socially apocalyptic.
So, for example, it could be the case that the aches and pains that you're experiencing today
are the ground zero for an epidemic
that'll kill one third of the United States, right?
I mean, it's very unlikely,
but it happened with the Black Death,
and the possibility of an apocalyptic outcome
is always non-zero.
And in fact, in personal life,
it's always a hundred percent
because the worst thing that could possibly happen to you
will for sure happen to you.
And so I-
Well eventually happened.
Well right and so I think one of our problems is that because we're sensitive to negative
information and because there's always a potential apocalypse, bubbling away in the background,
it's very hard for us to distinguish collectively between threats that are valid
apocalyptic and those that aren't.
Yep. And then we tend to err on the side of panic, let's say.
And that wasn't such a bad thing when our responses weren't as large as the potential problems,
because now what happens is that if we stampede in one direction, we're so powerful that
the bloody stampede can be much worse than the problem.
Yeah, absolutely.
You know, Bill Nordhaus won an over-apprized economics in 2018, I think, for one of the things
he wanted for was the realization that there's an optimal way in which to decarbonize.
If you do it too rapidly, it's too disruptive, and you deploy immature technology,
you do it too slowly. Carbon dioxide builds up and promotes a greater risk.
So I think people need this kind of multi-decade, if not century perspective,
on making these changes, but also going back in time, the realization that we have managed
going back in time, the realization that we have managed much worse threats and crises. And as Bjorn Lomburg says, we should cool it a bit, relax, think it through, and do it in a deliberate.
Yeah, well, we're also not that good, particularly now, at adopting, say, a few centuries-long time frame.
And it's not surprising, because we don't live that long.
But I mean, if you look at medieval Europe,
there was the capacity for sustained imagination.
So a lot of the great cathedrals,
which were amazing engineering projects for their time,
were construed over multiple centuries.
People who started them knew they wouldn't finish them.
So there was
that sense of long-term continuity, but maybe one of the by-products of a very efficient
and hyperproductive capitalist society is that we tend to have a shorter time frame for
expectation of results. You know, and there's obviously benefits to that, right? Because
why they hell not fix the problem in the next quarter if you can?
But there's going to be some issues that require a time scale of centuries.
I mean, I think the Biden-
Yeah, that's, you know, I-
Go ahead, please.
You know, we have, you know, been seduced perhaps by the digital revolution
where the technologies change every couple of years, right?
I mean, you know, if you go back a decade or two,
we were using eight track tapes and so on,
and now, of course, it's all MP3s,
or MP4s or whatever.
Energy is very different.
The systems need to work as a system.
The facilities last decades,
and we demand high reliability.
So energy changes on multi-decade time scales.
It doesn't change every year or two.
And people have, they have come to expect
that things can change rapidly.
When in fact, they're a good physical
and economic reasons why energy cannot change.
Right, well, so that's a complex cognitive problem too, right?
To be able to distinguish between those problems that are amenable to rapid solution
and those problems that aren't, that's not a trivial cognitive exercise.
It's not obvious apron, especially if you don't have specialized knowledge.
Right. If you don't have experience, I mean, not to not the younger generation, I have three
kids myself, and you know, they're all wonderful people.
But if you're a 22-year-old just having graduated from undergraduate education, you don't have
the perspective.
I certainly didn't.
And getting this perspective through life experience, through reading more and understanding more about the world,
gives you a different view of these things.
Some people say that you and I will not be around
to see the worst consequences of climate change,
but we have seen the world navigate far more difficult.
Yes, yes.
And to do it successfully, not without pain and turmoil,
but we will persist as a species. Well, yes, and I mean, I would say that things have turned out
quite a lot better than I presumed they would when I was young. I mean, and how old are you,
Dr. Conan? I'm 71. Okay, so you're about 11 years older than me.
So, you know, both of us grew up in the Cold War area.
And I would say our apocalypse was probably nuclear.
And it seems to me that we had more reason to assume
that the nuclear threat was a genuine apocalyptic nightmare
than the climate apocalypse have now,
given what happened in the Cuban Missile Crisis.
And then again in the 1980s,
we were damn close a couple of times.
And we might be on the threshold now with regards to this war
with Russia, so who the hell knows?
Right.
But it was certainly the case that among people,
in my generation, there were a substantial number of young people
who were seriously affected
enough psychologically by the ever-present threat of nuclear war, let's say, to be very
demoralized and disenchanted about the future, to think, well, why the hell bother?
Because the probability we're going to end up in a nuclear winter is so high that it's
just pointless to do anything.
And then there was the usual murmurings in the background about overpopulation and so forth
and coming scarcity and all of that.
And then really what's happened since then is that pretty much everything globally has got
way better than anybody could have possibly imagined.
Right?
There's absolutely.
Yeah, and very surprising ways is so not only is the planet greener, but it's much better
fed.
And obesity is a way bigger problem than starvation, except, and starvation almost never occurs,
except for political reasons.
And I mean, we're-
Distribution issues, right?
Yeah, exactly, exactly.
And so, you know, all things-
As literacy has gone up, communications, mobility, health, longevity, I mean, as I said, over 120 years,
the world has improved like it has never improved before.
Yeah, so then we have,
and I mean, it's not like we're getting stupider
and I'm a bit concerned on the AI front, you know,
but so far, the additional computational resources
we've been able to put at our disposal
have been used in a fairly intelligent way
I mean China is kind of worrisome on the totalitarian front and yeah next
But it isn't obvious to me that China is going to be particularly successful in their totalitarian ambitions
The Chinese themselves seem to be getting pretty damn sick of having the state interfere with absolutely everything that do every second of their lives
the state interfere with absolutely everything that do every second of their lives.
So I could easily see China undergoing a collapse
that's something akin to what happened
to the Soviet Union in 1989.
That system is just too damn unwieldy.
And you see these people in Iran clamoring away for freedom.
And so maybe we'll see a positive development
on that front, that might be nice.
And so I just don't see any, okay, first of all, I don't see any reason for an apocalyptic
outlook.
We could make things a hell of a lot better than they are now.
Very, very with-
Absolutely.
Now, who do you see operating at the international level on the leadership front that you regard
as, or do you see anyone, that you regard as a credible advocate
for like a sensible nexus of environment
and energy policies.
You know, it's very tough to find that
because if you speak out against the prevailing
catastrophe narrative, you get shouted down and you get no traction at all.
But what I do think is that, again, there are techno-economic realities that will eventually
cause the system to do the right thing.
I talk in private to leaders of energy companies, to politicians, finance folks. And I think if you and I were having
that conversation with them in private, there wouldn't be too much disagreement. But many of these
leaders feel captive or be holding not to shareholders, but to stakeholders. And they dare not say anything is off the narrative.
A lot of that's just straight out right cowardice in my eyes.
I've lost.
I mean, you've been, you've been, you know, I mean, you wrote this book on Settled
and people went after you, but look at you.
You're alive. You seem to be thriving.
Your book was quite successful. I mean, how did you escape the
apocalyptic consequences of council culture? How did you manage that?
I think one of the foundations of the book or one of the principles when I wrote it is that I would
only use material that was out of the IPCC reports or the quality research
literature or the primary data itself.
In other words, I wasn't making anything up.
It's all traceable back to those gold standard sources.
And so people can accuse me as they have of cherry picking or not telling the whole story.
And of course, I have responses to all of that.
But by and large, they have a very hard time criticizing what I've written. They can
criticize me, show for the oil industry, not a climate scientist, a denier, etc., etc. But by and
large, I've only gotten very positive reactions
from other people who've actually read the book.
I mean, I can tell you stories about
some of the nonsense criticisms.
Yeah, yeah, yeah.
But I mean, you've been able to do this
and you haven't been like hung and drawn and courted
by the horrible mob.
I know that being mobbed can be very unpleasant.
And I know many people
who've been canceled, and it's a life-changing experience. So I'm not trying to minimize
that. But you'd hope that there would be a modicum of courage on the political front,
so that some people could come out and say, well, you know, we don't really need to go
down this idiot limits to growth route that we've been pursuing expensively and counterproductively for 60 years, we could
just do what we could to make energy more abundant and cleaner and cheaper for poor people.
And we could raise their sights to the future.
As the measures that governments are implementing to try to get to that unattainable future,
whether it's bands on internal combustion engines
or increased renewables that are going to make
the grid expensive and unreliable,
eventually people will be impacted directly
and they'll be mad, because it's not being done
in a graceful or thoughtful way.
And I think people will then say,
why are we doing all this again? The US is only 13% of global emissions. And the US went to zero
emissions tomorrow. It would be negated by a decade's worth of growth in the rest of
the world. And so, the best thing the US can do is develop technologies, right, to try to get there and not make massive changes itself.
Well, it's also the case that the US did lower its carbon output by a substantial amount, and the reason for that was fracking, which is not something that any of the environmental apocalypse would have predicted.
In fact, quite the question. That's the major reason, the substitution of gas for coal, but another reason is that
the renewables have grown in electricity generation in the US.
I don't know the exact number now, but wind is something like 13% of US electricity generation.
It's got reliability issues, it's got land issues, it's got materials issues, but that's
another reason emissions have come down somewhat.
Right. So all things considered,
you've remained fundamentally optimistic.
You think that's a temperamental characteristic,
or do you think that was driven by your exploration
of the on-the-ground realities?
And then I want to talk to you too about,
you know, you said you've been accused
of not being a climate scientist.
And first of all, I don't think there's such a thing as a climate scientist, right?
I mean, that's not our category that a scientist falls into.
You're basic training was in physics, so maybe we'll return to that just for a moment.
What makes you a credible observer on that front?
But let's deal with the first issue first, the...
You know, I think temperamentally, I'm optimistic.
My mother, who's still with us at age 91,
is was the youngest by about 15 years of four children.
And she grew up and still has incredible optimism
about things.
So I think it's partly in my psychological DNA.
But it's also, I'm very quantitative.
I do numbers.
And when you look at the numbers,
which are, somebody once said,
I think it was Kelvin or Rutherford,
unless you can express it numbers your knowledge is of the most meager kind. And so most people
don't do that, but I do, and I dug into the climate energy
story. And when you look at the numbers, as I think you
said a while ago, it's not so bad. There's no apocalypse
in the future.
Yes, there are issues, but we will navigate them.
So I think it is a combination of both being informed,
but also being naturally optimistic.
Right. Well, that bit of a tilt towards optimism
is what moves people out into the world.
And I also don't know so much if that's properly characterized
as optimism or something characterized more accurately,
let's say, as useful faith.
I mean, there are reasons to assume
that things will go to hell in a hand basket,
but there's reasons to assume that we could manage
as well as we have in the past or better.
And I think that one of the attributes that
tells us towards managing well in the future
is the willingness to have some faith in our ability to adapt and to do the right thing.
And, you know, when we're constantly presenting young people with the picture of human beings
as destructive environmental and cultural forces, we squash that natural faith, which is,
well, yeah, there's problems because being
alive is a problem, but we have a host of potential solutions at hand, and we're not without
resources in the face of our challenges.
And the resources are both fine.
This is the second immoral dimension of what the current scene looks like. Not only are we trying to deny six and a
half billion people adequate, reliable, affordable energy, but we are particularly in the West
depressing the younger generation in a most unreasonable way that I want to have. Children,
they think the world is going to go to hell in the next 10 years and so on. That's complete
nonsense. And somebody needs to 10 years and so on. That's complete nonsense.
And somebody needs to stand up and say that.
Yeah, not only do they not want to have children, they don't even want to have sex.
I mean, we've really demoralized a whole generation.
And, you know, there is something terribly immoral about that because my hypothesis is that
if you think poor people should starve because energy prices should go up.
And if you think that demoralizing young people
is a good way to ensure the long-term sustainability
of the planet, you and I are not on the same side,
not even a little bit.
Like, I think it's absolutely reprehensible
that we're casting people back into poverty,
both in the West, because we're doing that
to poor people who are marginal now,
but more importantly in the developing world.
And this continued demoralization is absolutely inexcusable.
I would love to engage with some of the leaders,
John Kerry, Bill Gates, my former friend and colleague,
Ernie Moniz, who was Secretary of Energy,
a very good Secretary of Energy,
all of whom are on the more alarmist
side of these things.
I'd love to have this kind of conversation with them and ask them about those two immoral
dimensions.
It's very hard to get a serious discussion.
I recently have done four debates with credible people on the other side, presented the arguments
against rapid decarbonization. And I'm proud to say I won all four debates by...
We should put those in the links to the description so you can send them.
Yeah, I will send those to you. So the first one was against a climate scientist from Texas A&M Andrew
Desler who is much more of a climate scientist than he is an energy guy and
you need both here. The second debate was and probably in my view the best one
was against Daniel Shrag who's a professor of Earth Sciences at Harvard, and has been and still remains
a good friend and colleague.
The third was against an energy economist at Columbia named Gerna Wagner, and then the
fourth was again against Andrew Desker, who wanted a rematch.
And so, the problem with talking about this is you need to understand both the climate
science and the energy side.
And there aren't many people by virtue of my background, I have perhaps been exposed
to both in ways that most people have been.
Right.
Well, that's another problem with regards to, let's say, public opinion is that, well, first of all, most people aren't climate scientists.
That's for sure.
In fact, they're a very small percentage of the population.
And then, as you pointed out,
if you add the additional requirement
of having some expertise on the energy front,
you're taking a very small fraction
of a very small fraction of people.
And maybe you can count them on, I
don't know, maybe they're in the, maybe there's under a hundred of them in the world.
There just aren't that many. And so, you know, part of this is also the case that the
whole species is starting to wrestle with problems of a level of abstraction and a level of
magnitude that are really unforeseen, right?
And so we don't, when I worked for the UN committees
that were working on the sustainable goals,
one of the first things I realized was,
oh, no one's an expert in sustainable development.
That's not an area of expertise.
No one knows how to do this.
And so we are in some sense casting around in the dark.
And part of the problem without is we do fall into our apocalyptic heuristics very, very easily,
especially if that can be weaponized for political purposes. It's a little hard on young people.
It's a little hard on poor people. And so, you know, you need to approach these problems with
an inquisitive mind because there are so many different dimensions and you want to go out and learn enough about them to be able to ask the right kind of questions to the expert. Yeah, well,
you know, the other thing we do to young people, this really made me disenchanted in some ways with
what was happening in universities. There were many reasons for that disenchantment, but, you know,
the other thing that we convince young people of right when they're in their messianic
phase, that's a Piagetian developmental stage between about 16 and 20, is that the way
forward morally to take your place in broader society is by taking the root of political
activism.
And that basically means that what you do to be a moral person is to identify the perpetrators of the apocalyptic catastrophe
and then go make life miserable for them. Instead of teaching young people that, no, you should
actually spend a few decades developing the knowledge necessary to make some real progress on these
fronts. You shouldn't assume that there's some cabal of enemies that you've identified when you're
18 and you certainly shouldn't assume that the mere fact that you're out
waving a placard and protesting means that you're on the right side of history,
or even in relationship to your own psychological development.
So my interaction with young people these days is mostly through the courses I teach at NYU.
I teach climate and then energy to separate courses to master's-level students.
And fortunately, I think already there are a mix of engineers and MBAs, so they have this desire to
actually do something positive rather than simply, as you say, wave flags and complain about what's being done. And what I find in both courses is how much the eyes get opened up, whether it's about
the climate science, which I teach almost entirely out of the IPCC and the research literature,
or the energy which I teach, you know, both the technologies, the business, the regulation, and so on.
And, you know, I think it's gratifying to see eyes open up. That's one of the great benefits
of being a teacher, as you know. But also, it shows to me that people can spend a little bit of
time to learn some of these basics and then be critically questioning
inquisitive about these very complicated but important subjects.
Right. Well, and it's also very heartening to know that you could do that at NYU and that
that's working. Yeah. You know, when I was about to publish the book, I sent the manuscript
to both the president and the provost, whom I know well since former academic administrators
tend to hang out together.
And their response was, you know, see,
if I don't know if I agree with everything you've written,
but you've got a right to say it, and we support.
Well, thank God for that.
So, all right, well, look, that's probably a good place.
Time to close.
We're at about the end of our 90 minutes here on YouTube.
I'm going to talk to Dr. Koon
and a bit more on the Daily Wire Plus platform
as many of you who are watching and listening know.
I like to take my guests and do some investigation
into their particular biography
because I think it's useful for people to hear about how
people's successful destiny makes itself manifest
in their lives and it also helps please me on the clinical front because I like finding out about people's
lives.
We're going to switch over to the Daily Wire Plus platform to do that for about half an
hour.
Thank you very much for agreeing to talk to me today and for bringing what you know
to the attention of all the people who will be watching this and listening across the podcast
platforms and on YouTube.
And it's quite positive to be speaking with so many people
who are knowledgeable now about the climate apocalypse
and who have drawn the conclusion that this is something
that we can handle and that we could handle in a very good way
if we were even remotely careful.
And hopefully that will be, as you pointed out, maybe the tide is starting to turn on this.
And we're going to start to understand that we can think in terms of centuries
and that we can actually manage this.
Hello, everyone. I would encourage you to continue listening to my conversation with my guest
on dailywireplus.com.
listening to my conversation with my guest on dailywireplus.com.