We Study Billionaires - The Investor’s Podcast Network - BTC137: Bitcoin Functions Like A Biological Network w/ Brandon Quittem (Bitcoin Podcast)
Episode Date: July 5, 2023Preston Pysh brings Brandon Quittem to the show to talk about his deep interest in biology and nature, and how the Bitcoin network is evolving in harmonious ways with nature. IN THIS EPISODE, YOU’L...L LEARN: 00:00 - Intro 01:34 - Who is Brandon and his background in Fungi? 01:34 - Fungi 101 and how they work with plants in the forest. 01:34 - Mycelium and it's complex network under the soil. 16:18 - How Bitcoin mimics Biology. 18:39 - Proof of Work and how Fungi decompose organic matter. 23:08 - Network Intelligence in Biology and economics. 23:08 - Antifragility in Bitcoin and Biology. 23:08 - Immune systems and Bitcoin. 57:43 - Social Scalability in Forests & Nature Vs Bitcoin. BOOKS AND RESOURCES Join the exclusive TIP Mastermind Community to engage in meaningful stock investing discussions with Stig, Clay, and the other community members. Brandon Quittem's Twitter. Brandon's articles on Bitcoin and Biology. Paul Stamets TED Talk. Entangled Life by Merlin Sheldrake. NEW TO THE SHOW? Check out our We Study Billionaires Starter Packs. Browse through all our episodes (complete with transcripts) here. Try our tool for picking stock winners and managing our portfolios: TIP Finance Tool. Enjoy exclusive perks from our favorite Apps and Services. Stay up-to-date on financial markets and investing strategies through our daily newsletter, We Study Markets. Learn how to better start, manage, and grow your business with the best business podcasts. SPONSORS Support our free podcast by supporting our sponsors: River Toyota Range Rover Sound Advisory American Express The Bitcoin Way Vacasa USPS Onramp SimpleMining Public Fundrise BAM Capital Shopify Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm Learn more about your ad choices. Visit megaphone.fm/adchoices Support our show by becoming a premium member! https://theinvestorspodcastnetwork.supportingcast.fm
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You're listening to TIP.
Hey everyone, welcome to this Wednesday's episode of the Bitcoin Fundamentals podcast.
So on today's show, I have a brilliant thinker with Mr. Brandon Quidam.
The impetus for this show actually percolated while spending some time with Brandon in Miami,
and we started to talk about his deep interest into biology and nature.
And I was sitting there with my wife and I'm having this conversation with Brandon.
And it was so interesting, we both just kept looking each other and smiling and we were just blown away.
So I asked Brandon, if there's,
There were any books I could read that could help me understand this really unique and interesting
perspective that he had.
And he recommended this book called The Entangled Life.
This was a New York Times bestseller.
So I read this since our engagement in Miami and we set up a time to record some of these
amazing and fantastic ideas that he has.
And so that's this episode.
And I'm really excited to bring this one to you guys because it's just so unique and engaging.
And Brandon is just so thoughtful.
So without further delay, here's my chat with Mr. Brandon Quidim on Bitcoin and Nature.
You're listening to Bitcoin Fundamentals by the Investors Podcast Network.
Now for your host, Preston Pish.
Hey, everyone, welcome to the show.
I'm here with Brandon Quidam.
And Brandon, this is going to be an exciting conversation.
Welcome to the show.
Thanks, Preston.
Very excited about this one.
I personally love biology.
I talk about it a little bit here and there on the show.
And as a person who I know also enjoys biology, I already know this is going to be,
this is going to be an interesting one for us to dive into.
Let's start here, Brandon.
You're an expert in fungi.
You gave me a reading assignment when I saw you in Miami and I took you up on this
because I know you're just an expert on this particular area.
and the book that you told me to read was Entangled Life.
I went through this and was blown away with what I read and was just like, we need to record something.
We need to get this down.
And you're definitely the guy to do this.
So take the audience from ground level, like very, very high level point of view on fungi 101.
We're going to dive deep into the biology and some of the fascinating things.
And then at the maybe the second half or the second two-thirds of the conversation,
we're going to tie it all back to Bitcoin.
So take it away, Fungi 101 brand.
Yes, absolutely.
And quick caveat for the actual biologists or mycologists out there, I'm just an amateur
who goes hard at things that I'm interested in.
Same with Bitcoin, same with Micology.
So I'm going to anthropomorphize a little bit.
I'm going to tell stories that an actual biologist might slap my wrist a little bit.
but that's okay. Let's start with mycelium. Let's start with fungi. Let's start at the very high level.
In biology, we sort of put different organisms into categories, the taxonomy. So fungi have their
own kingdom, plants, animals, fungi, etc. And most people think of them as plants or they think
about the mushrooms at a grocery store or something they see on a log in the woods. But the
reality is that it's an enormous kingdom with tremendous diversity. There's some of the oldest
multicellular life on our planet.
In fact, one fossil, the oldest multicellular fossil we found is 2.4 billion years old, and it's
some type of fungi.
And this is a recent finding that sort of breaks our whole long view of history because
we thought other things that evolved first, but it turns out that fungi might have
been primary and we'll kind of figure out, kind of talk to you how they fit into the ecosystem
later and where that would make sense.
And so the mushroom itself, most people think about, that's just the sexual reproductive
organ. It shows up just for a brief moment. It produces spores, which are like little mushroom seeds,
and then the mushroom quickly disappears. But the majority of most fungi's life are spent
underground or in a tree in a form that we'll call mycelium. And mycelium's the most interesting
part of the kingdom, in my opinion. And it also, as we'll find out soon, ties directly into Bitcoin,
which I know sounds totally weird, but it is true. And that mycelium form, think about an underground
of tubes. So one cell wall, very tiny little tubes that branch and fragment and connect trees
together. The recent studies are showing that they send information bi-directionally. They trade
resources. And so underneath a forest is this enormous network of multiple fungi and plants
working together and trading. And it actually resembles an underground economy. And we now
affectionately call this the wood wide web, right? It's this underground network.
work there. And so that's sort of the framing of what this thing is. But let's do a little more
fungi stuff just to make sure everyone's on board with how cool this stuff is, because it's really a
forgotten kingdom. And as late as the late 60s, it was considered a lesser plant. Right. So not that long
ago, we didn't even know it was its own kingdom. And a lot has changed since then. And the more we
study, the more this whole kingdom starts to unfurl. And okay, so fungi and animals are actually
very similar, much more similar than we are to plants.
So both animals and fungi inhale oxygen.
We exhale carbon dioxide.
Plants obviously are the opposite.
And we both find our own food, whereas plants make their own food.
Okay, the major taxonomy, the branch where we sort of forked off from fungi is because
animals put food in their body.
Okay.
And fungi actually put their bodies into the food.
And so that mycelial little tube structure, it dissolves its environment.
It consumes its environment through chemistry.
And it's actually a master of chemistry.
A lot of our medicine comes from fungi.
And because our biology is similar, fungi have evolved to learn these little defense molecules
to protect themselves.
And it just so happens that those same molecules work on us.
Most famously was penicillin, right?
And humans have been deploying fungi as a tool for as long back as we can remember.
In World War I, people would put moldy bread on wounds in trench warfare.
And we actually didn't even know it was due to penicillin on the bread.
We just knew it worked.
And if we go back even further, let's say about 5,000 years ago, we found a famous ancient man
in the Swiss Alps.
He's called Otsey, the Iceman now.
And he had a few possessions on him, a knife, a little satchel, and two mushrooms.
So half of his possessions were fungi.
Okay, the two fungi.
One is Tinder polypore.
This is a unique mushroom.
It's found all over the world.
And when you dry it out, it makes really good tinder for starting a fire.
Okay, super valuable.
You're crossing the Swiss Alps.
Obviously, fire is important.
The next was a birch polypore, which is a mushroom that when it's dried out, it actually
becomes so hard, you can sharpen a knife on it.
And if you like boil in water for a little bit, it produces some antiviral and
antibacterial properties.
And what we found is this Otsey, the Iceman, was so.
well preserved in the ice that we could actually check his stomach. And we found pathogens in his
stomach that that birch polypore was active against. So very, very important for this guy.
And that's true all over all of history. It's the humans who partnered with fungi, they're the
ones who outcompeted others. For example, beer is made with yeast and yeast is a fungi. And in a time
where waterborne pathogens were very, very destructive to societies, if your society could brew
beer, very low alcohol beer, you can drink that cleanly with no problems, whereas the neighboring
tribe would be grabbing water from some other source and have a much higher risk of waterborne
pathogens.
Quick tangent, some people believe that the answer for why did humans go from hunter-gatherers
to agricultural society was because they discovered how to brew beer.
And maybe it was at first because it keeps you safe, but later it turns into, you know,
beer's pretty cool, so people like it and they want to settle down.
But that's entirely possible that we didn't settle down for food.
We settled down for beer.
I'll let the reader navigate that one.
Another question here is around the honey mushroom.
What is the largest organism on our planet?
Again, just going through fungi facts.
The honey mushroom in eastern Oregon was discovered not that long ago.
And it's between 2,000 and 8,000 years old.
And the only reason why they discovered it is because they were hiking around this mountain.
They're like, why are all these pine trees dying?
They got in a plane and flew over the mountain and they observed that there was this huge swath of the forest being decimated.
And then they figured out that it was a single honey mushroom who was consuming an entire forest.
It's thousands of acres in size and still growing.
And since we know so little about fungi, it's entirely possible that there's larger ones, other parts of the planet.
That's just the largest one we've found so far.
People talk about plants.
And I actually want to break down a difference between a mycocentric world.
in a phytocentric world, meaning plants get all the press, plants get all the love, because we see
them, we know them, whereas fungi are mostly out of sight and out of mind. And so they get no love.
And so if you view the world, let's look at a forest, for example. What is it for us? It's a whole
bunch of trees competing, right? And those trees actually connect with fungi underground,
and they form a symbiotic relationship. The mushrooms burrow into the tree roots, and they
create trade networks. And there's trade policy. There's biolo. There's
sell high, there's hoarding resources, you reward your good trading partners and you stiff the other
ones. And it very much resembles a human economic system. In that environment, most people would say a
forest is just competitive trees or maybe it's a symbiotic forest working together and they just
use the mushrooms for their capacity, right? And let me break that down. Fungi use chemistry to
dissolve things in the soil. And what they're doing is they're liberating minerals and valuable
resources, which the tree needs to grow. And what the trees do is they use photosynthesis to create
sugars and fats, which are food for the mushrooms. So the trees sell the sugars and fats in
exchange for these minerals. And prior to that symbiotic relationship, trees were only about a
meter high and they didn't have really any root structure. And so the leading hypothesis now from the
mycology side is that tree roots are actually evolved to go search underground to find these
micro-risal fungi partners to trade.
If we look at it, now that's the phytocentric view, right?
It's a forest and they borrow from the mushrooms.
From the micocentric point of view,
mushrooms and especially micro-rizo fungi are the ones who trade in the roots,
they are actually just tree farmers, right?
So they connect with all these trees and they're growing the forest in the way that best
suits them.
And we're starting to uncover these trade relationships.
And what we find is that it looks like a tree will give resources
to another species.
So an oak tree gives a birch tree a whole bunch of carbon, right?
That makes no sense from a biology standpoint.
They have separate genetics until you involve that mushroom trade network, right?
Where the mushroom wants to broker a healthy forest.
And sometimes that means taking some carbon off of this big healthy tree and giving it
to a smaller tree that needs it.
Yeah, let's just keep micocentric or spytocentric in mind there.
A couple other interesting ones here are the leaf cutter ants,
which Andreas Antonopoulos actually put on one of his books.
So he understands this sort of a network intelligence type thing, which we'll talk about.
But the leaf cutter ants, they're one of the most populous organisms on the planet.
And what they do is they go out and they forage leaves.
They bring them back to their underground layer.
And they put those leaves in a pile and essentially ferment them.
And so that fermentation process, of course, happens with a fungi.
And that stores a food cache underground.
and then they can come and eat off of that mycelium for a long time into the future.
Now, if we look at it from the fungi's perspective, what's happening?
The fungi are hiring these ants to go find them food and bring it to the mother source
so the fungi has more to eat.
It's kind of an extended phenotype for the fungi, right?
They deploy the ant like a beaver makes beaver dams.
The fungi hires the ants to bring it more food.
Yeah.
And if you look at biology one step deeper, and this is getting into, I would say,
tip of the spirit of biology. It's a little more esoteric. It's not necessarily mainstream
approved. But I think all the interesting stuff in science is on the edge and, you know,
50 years later, we'll look back and be like, oh, that's obviously true. And the point I'm
talking about here is about symbiosis. And so pretty much every scale of biology, there is some
sort of symbiosis. And what that means is two separate organisms are cooperating. And in that
environment, it's a little bit of cooperation, a little bit of competition. But the point is
that they work together and one plus one equals three.
And a fun study here was they looked at a certain medicine, I don't remember which one.
And they said, oh, this medicine comes from a plant.
And then they look a little bit deeper and they realize, wait a minute, that molecule
is actually produced in the fungi that lives inside the plant cells.
And by the way, 100% of plants have fungi embedded into their cells.
That little mycelium thread like stuff works its way in.
So not a single plant have ever been found in the wild without a fungal
and most plants with roots also connect through the Microrizal Network underground.
And back to that story, the fungi actually created the molecule, not the plant, right?
Then you go even deeper and you realize that bacteria is inside the fungi.
They're even smaller.
And they find out that the molecule is actually created in the bacteria.
And you can go one step lower and you can say, oh, it's actually the virus in the bacteria
that's in the fungi, it's in the plant that creates the molecule.
And so I bring that up just as a launch point into symbiosis because I think it's important to have that sort of idea in the back of our head that these are cooperative and competitive ecosystems.
And humans play the same game.
You look at our gut.
It's full of a microbiome of all these tiny little creatures that are not human cells, right?
90% of the cells in our body are not human cells.
And we need these organisms to survive.
And that's how we evolved as well.
And one last thing on this one before I get off my diatribe is that about 500 million years ago, all complex life lived in the oceans.
Okay.
There was no terrestrial plants.
There might have been some insects on dry land, but it's pretty much all the action was underwater.
Then there was some fateful occurrence where a fungi and some sort of a plant, some symbiote, maybe an allergy, something like that, they washed up on shore together.
And what happened was they formed a symbiosis and they colonized dry land together.
So that fungi burrows into the rock and dissolves the rock with chemistry and liberates the carbon, nitrogen, phosphorus, all the things it needs.
Simultaneously, that little algae that the fungi trapped was converting the sunlight and oxygen into food.
Sorry, and carbon dioxide into food.
And so those two together kicked off this enormous process that went from turning volcanic rock into topsoil.
And over time, over a very long period of time, we have about a foot or two feet of topsoil
on our planet.
But it started with that fateful moment.
And once a little topsoil comes, it makes way for other land organisms to then colonize
the slightly more fertile dry land, right?
And fast forward all the way that made room for us today.
And so we and every other terrestrial complex life on our planet owe it to the fungi for
creating the conditions on life for which we can emerge. And simultaneously, that helps the
fungi, right? They're tree farmers. So if they create this beautiful forest, that's more trees
producing food for them. And the story continues. So I'll stop there. I'm going to take this
in the Bitcoin direction faster than I thought I was going to, simply because as you're describing
this, I can't help but think about building in layers and how important it is to optimize and not
over-engineer a particular layer.
So when we're looking at biology and we're looking at Bitcoin, help the listener understand
why this idea is so important and why we see natural biology maybe evolve the way
that it has.
Yeah, great question and good tie in here.
So the formal story or argument here is called Gall's Law.
And it essentially states that to make a complex system, you need to start with a simple
system. Okay. And that law appears in biology and in Bitcoin. So in the biology, in the biology layer,
it might be the virus, bacteria, fungi, plant, animal hierarchy, or it could be, for example,
atoms make molecules, molecules, make cells, organials, organs, systems, organism,
ecosystem. Right. So each one of those scale layers does what it does best. And if you zoom in at
that little scale, there's a whole drama happening at the molecule level, right? And you zoom out
and those molecules are part of a larger system.
And that seems to be a fundamental law of the universe,
which is that do what you do best
and make that simple and straightforward and robust
so that you can layer on more complexity on layers above.
And so bringing that to Bitcoin,
and we can take that the alternatives to Bitcoin,
if we even want to call them that afterwards,
but Bitcoin is very, very simple, right?
It produces blocks.
It's a secure base layer
that just creates a transaction ledger.
And that's all it really does, and that's a good thing.
And if you want to do a Visa-type payment network, like the lighting network on top of that,
that would make sense, but you wouldn't want to combine a central bank with Visa, right?
Those are totally separate layers with different functions.
And if you try to do it all at once, you're essentially breaking the law of the universe,
which is the scale in layers.
And so thankfully, in the Block Size War's era of 2016-17, Cooler Heads prevailed,
then Bitcoin optimized for that base layer or security.
And then we're going to do Lightning Network.
We're going to do services on top of that, like exchanges are maybe a layer, all these
new things coming out.
And that's just the right way to scale.
When we look at biology and we look at the fungi network and you were saying that they're
great at harvesting minerals in exchange for the energy that the plants.
So when we're looking at how they have optimized themselves, kind of going back to the original talking points that you have, it almost seems like the fungi, or I'm sorry, the plants are experts at consistent energy flow down into the root structure.
And the fungi are consistently able to find minerals.
And then that's why that exchange relationship, the fungi has trouble having sustained energy sources.
and the plants have issues having sustained mineral sources and nutrients for them to build
as high as they build outside of the.
Am I properly describing that as somebody who's kind of clueless on now on why they've
optimized themselves the way that they have?
Yeah, exactly right.
And specifically, I'm going to probably refer back to this multiple times, but the kingdom
is so diverse that what you described is 100% true for the microrizo fungi.
and those are the specific ones that form symbiosis with trees in order to make the trade.
And so in that context, yes, they absolutely need each other.
And now if we want to shift to another type of fungi, the other primary role that they play
is actually as the recyclers of the planet.
So the saprophytic fungi is the technical term.
But all it means is they eat dead and dying organic matter.
Not even organic matter.
They eat anything pretty much, but mostly dead and dying organic matter.
matter. So the question would be, you walk through a forest and there's all these trees and there's
some leaves and sticks on the ground and stuff, but why aren't we just buried in leaves and sticks
in dead animals? And that's because the fungi consume all that. And they're so good at chemistry that
they take a fallen stick on the ground. And they're just the disassemblers, the recyclers.
They just take that whole thing apart bit by bit, right down to its base molecules. And then that
essentially liberates value out of a wasted resource and then recycles that essentially sells
it back into the ecosystem, eats what it wants and sells the rest. And so they perform a very
important role there. And it's very similar to Bitcoin mining actually. And you can say that
Bitcoin miners are actually converting waste or stranded resources like that fallen tree. They're
converting that into a valuable digital commodity. Right. And before Bitcoin, this often happened with,
let's say stranded energy in Iceland, right? The famous example is they have geothermal and
remote locations. So essentially free energy and no customers, what do you do with it? Either you
try to build a manufacturing plant nearby or something like that. And what often happen is they
would smelt aluminum there because the highest cost input for aluminum is energy. And so they would
build an aluminum plant in the middle of nowhere to take advantage of that free energy. And Bitcoin
miners do the same thing, right? They co-locate to these.
stranded energy sources, these fallen sticks in the woods that have no use case. And the Bitcoin
miners convert that into a digital commodity. And the Bitcoin miners are actually going to outcompete
the aluminum smelting plants in most cases because the Bitcoin miners have no CAPEX on a power plant.
As soon as that the miners are done at that power source, you just move the machines, put them
somewhere else. You can deploy them almost instantly at any scale. Right. And so those Bitcoin
miners are just going around trying to find
untapped resources and liberating
value out of them.
And energy itself is
kind of a passion of mine lately.
I think it's a really important conversation
looking at the world right now.
And what these miners are doing produces
so many second order positive effects.
I think that the simple analogy
is actually looking at broadband
internet. And so as soon as
there's more demand for faster speed internet,
what happens more demand
tells the market to create more supply.
And the same is true in Bitcoin.
More demand for these energy sources
tells the market to create more supply.
And more supply of energy
is good for humanity.
We want low-cost, reliable power
all over the world.
And Bitcoin miners in their own small niche way
are actually helping to bootstrap that process.
And of course, human flourishing is downstream
of harnessing energy.
That's been true since the beginning.
Let's take a quick break
and hear from today's sponsors.
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All right. Back to the show. It reminds me of this quote that I've heard on Twitter that people say
Bitcoin doesn't waste energy. It consumes wasted energy. And what a parallel.
that is mind-blowing the parallel there to what we're seeing on this network.
Another thing that like just from reading the book and just kind of thinking about this mycelium,
it almost seems like a neural network of the brain that's taking place under a four.
Like if you were able to like peer underneath of a four,
so it would almost seem like this mycelium is like the connections that you see between neurons and a brain.
Is that a correct way to think about it or am I making too big of a leap?
And if like, so what?
Like what would be your takeaway from that if it even would be considered something like that?
Yeah, I think that's actually an extremely profound point.
And it's hard for humans to appreciate this type of intelligence because it looks so different
from us, right?
We have a central brain.
We think very highly of ourselves.
Just so happens we think very highly of ourselves with.
our brain. But we'll leave that aside. The mycelium is a totally different type of intelligence.
What it's like is a neural net like you described. And again, let's go back underground.
These tiny little tubes all over using chemistry, growing, moving. It's just a process, this
anarchic flow of little filaments underground. And those millions of little endpoints are searching
for food. They're defending their territory. They're inventing new molecules to subvert the
competition, and it's constantly re-architecting itself. And rather than having a central
processing unit like we do, the decision making is actually made at the edge of the network.
So the tip of these little filaments, they're making decisions locally. Do I go left? Do I go right?
Do I eat that? Do I run away from that? Right. And that whole thing, you know, when do we
reproduce? All those decisions are made at the end. And the whole sum total of those decentralized
endpoints forms consensus, and that's where the intelligence is.
So it actually pushes decision-making to the edge where the information is actually the
most relevant, totally different than us, right?
And this actually mirrors the decentralized or inter-subjective consensus formed in Bitcoin,
right?
The nodes individually determine what software they want to run, which enforces the rules
that they believe in.
The miners choose the blocks that they want to include to append the network.
the exchanges, wall, its merchants, all the infrastructure above that stewards, users.
I mean, everyone, all of those little endpoints together voluntarily participate and together
aggregate consensus in the network. So Bitcoin also is that same archetype of the decentralized
intelligence network. And I think that the most, so I wrote the first essay on this topic in
2018 and the crowd favorite of the essay by far was the slime mold. So I got to tell this story.
First, the slime mold is not fungi.
It was formerly considered fungi.
We learn a little bit more.
Now it's classified as an amoeba.
But you can think of it as a bunch of single-celled organisms that form a clump, and they like to hang out together.
And they travel in packs because it's best for them.
And so that's what the slime mold is.
And some scientists in Japan put down old flakes, which are the slime mold's favorite food,
onto a petri dish.
And they essentially mapped out Tokyo's subway system.
you know, Shinjuku, this stop, that's how all the stops.
Then they unleashed the slime mold into this little maze.
And in the course of an afternoon, the slime mold created a network.
It grew and formed to create a network to capture all the food.
And they looked back and they realized, wow, it created a more efficient, more resilient subway system than the Japanese engineers built, which are world class.
And so again, the humble amoeba out competes the best engineers on our planet.
And I don't say this to knock the Japanese engineers.
I say this just to describe the fact that there are different types of intelligence.
And this is an emergent intelligence that it just comes out of the desire to find food and be optimized.
And I think biology has these sort of base operating parameters, these search functions,
these optimization functions inherent somewhere deep down in the algorithm that produces evolution to produce this type of information.
And it also tells us a lot about Bitcoin, right?
Because these essentialized networks, although not smart like we are, they do make good
decisions because we're each individually on the edge of the network making decisions.
Which wallet do I use?
Which exchange do I use?
Which software patch do I go for?
And we're all making decisions for us, right?
And we have the best information.
And the aggregate of that creates the network.
And that makes it very resilient as a life farm, right?
which fungi are extremely resilient.
We've had six mass extinctions on our planet, as far as we know.
Like, you know, 65 million years ago, asteroids come, kill the dinosaurs.
In that period, asteroid hits, blocks out the sun, extremely cold period for years.
And in that period, at the time it was dinosaurs, right?
So cold-blooded reptiles.
And they don't do so well when it's cold.
So essentially, the age of the dinosaurs ended, the fungi.
inherited the whole planet, they steward the planet, they prepare it for life. And this tiny
little mole, they call it a tenric, but it's just a tiny little mouse essentially. He buried himself
underground and outlasted this horrible cataclysmic event as the mushrooms are preparing the surface
for future. And then this little mole pops out, I mean, generations of moles, mole pops out,
all the dinosaurs are gone, and it becomes the age of mammals, which we're currently living into now.
I say that to say that the fungi essentially survive all these cataclysms, and they just wait and prepare, and then, you know, they're opportunistically adding other organisms into the mix to suit their own benefits, to be clear. But it is that symbiotic cooperation slash competition type environment. Back to that mycelial network, right? Underground cells little tubes everywhere. There's really no essential processing units. You could cut the mycelial network in two, and now you have two networks growing.
No problem, right?
So no central point of control, no central point of failure.
Bitcoin's the same way, right?
You could remove any single developer node, minor exchange, doesn't matter.
They can be as vulnerable as possible, no problem.
But there's no CEO of Bitcoin to jail.
There's no one version of the software to shut down.
There's no essential hardware to seize.
There's none of that stuff.
And so it forms that same sort of anti-fragility in the Tlebian sense that you attack it
and what happens, it actually routes
surround your attack and the network becomes stronger.
So if you think of that underground drama, fungi, fight not bacteria, other fungi,
trying to find food.
And all of a sudden, it identifies an attacker on one side, right?
Information travels through the mycelial network.
Literal information, by the way, they're now measuring electricity and action potential.
They're sending information.
And it goes back to specialized parts of that fungi to create a custom molecule.
Again, they're masters of chemistry.
They produce a custom molecule, ship that enzyme right over to the edge of the network to then defend its new attacker.
And what happens over time is the fungi itself creates a chemical library of these defense molecules.
So it learns, it gets better, more fit for its niche over time, which is the only way the honey mushroom could take over an entire mountain top and live for thousands of years if it learned and adapted.
So these are extremely resilient creatures.
And let's use that same little narrative for Bitcoin, for example.
Let's say we find a bug in the code or some attack factor is found, right?
Information travels through the informal network.
It gets to a developer.
The developers put their heads together.
Create a custom software patch or enzyme.
They ship that software patch or enzyme throughout the network.
The network updates itself, vulnerability patch, organism stronger,
and that attack would be harder to execute.
in the future, right? So again, the system learns, it adapts, it evolves. And in that sense,
it does mimic life. And I know that comes across kind of crazy. And believe me, I was the most
shy to publish Bitcoin's a living organism when I did in 2018. Everybody's talking about finance and
software, this and that. And I'm like, I don't know. I think it might be a living organism.
But turns out the analogy is salient. And I think the primary reason why comparing it to living
organisms make sense. Number one is because this thing does not behave like a software project
or like a money. It really does learn, evolve, and it mimics life in all these different ways.
And I think it's a good narrative to explain Bitcoin to people, at least that's what I've found,
because we intuit biology much easier. You can tell stories. We're of biology, right? So it sinks in
deeper, whereas like dry technical step by step, most people that doesn't really work on. And
that's just sort of a side note there. But the other angle on anti-fragility, before I pass it back to you,
is the systemic anti-fragility, right? So we did the micro. The organism itself is anti-fragile
because it learns. From a macro standpoint, let's compare fiat or an inorganic system to a Bitcoin or an
organic system. Let's say monocrop. Let's take bananas. You just bulldoze all the trees and
plant a bunch of bananas and your dole and you just monocrop one banana all around the world and you
ship it around and you make money selling bananas, right?
Hyper-efficient, extremely low cost, great way to deliver calories, true, true, true.
However, it's extremely vulnerable because they're all clones of the same organism.
They're all brothers and sisters of the same exact genetics.
And so what that means is what happens if a disease vector comes?
Okay?
And this did happen in the 50s.
At that time, there was one banana that made up for the vast majority of bananas
consumed around the world, especially the exports.
And it was called the Big Mike Banana.
And some enterprising young fungi saw an opportunity called the Panama disease.
They figured out how to eat that banana and take it over.
And over the course of a couple years, we had a global food shortage because one fungi
learned how to eat one banana and that decimated 80% of the banana exports on the planet.
And that same story applies to Fiat money in the same way because Fiat money, hyper-efficient,
you know, you can control it, all these different things.
And it offers a benefit, which is short-term price stability.
You have these little ledgers, levers, and you try to steer the price and try and keep
it stable.
But it comes at the expense of that long-term systemic risk, right?
Every time you meddle with the price of money, every time you bail out zombie corporations,
every time you meddle, you're just burying risk.
You're hiding the risk.
And that systemic risk builds up over time.
and then the one fungi takes out the whole banana crop and you have some sort of financial
collapse.
And so essentially just don't account for fat-tail risk.
And now let's compare it to Bitcoin, which is more like an old growth rainforest, not a
monocrop, not a single banana.
In that environment, fierce competition, incremental progress, thousands or millions of species,
sustainable, a single fungi attacking a single species there, you wouldn't even notice.
A thousand fungi attacking a thousand species wouldn't even dent the complexity.
and the resilience of the forest.
Bitcoin is like that.
Bitcoin is this ecosystem, this living, breathing, dynamic system.
And what it means for money is that Bitcoin accepts the short-term price volatility.
Bitcoin's price is volatile, and it always probably will be more than fiat money.
But what we gain in exchange is that long-term systemic stability.
It wears the risk on its sleeve.
There's no bailouts in Bitcoin.
The market clears, risk is cleared, and we move on.
And in my opinion, that's a huge win for humanity because it provides a more stable economic layer.
We connect the whole planet like a mycelial network where anyone in the world can speak the same economic language.
Doesn't matter what your government says.
Doesn't matter what currency you're supposed to use.
You can access this network with a $10 smartphone and you're now economically a viable online.
And I think what that does practically is it brings more market participants into the global economy.
and that's really good for humans because, okay, you're in Zimbabwe, now all of a sudden you have a good
idea. You can fund your business and you can bootstrap that from anywhere on the planet.
So not only is that helped the individual, their family, their community, but what if that one
person is Mozart? What if that one person is My Angelou? What if it's Nikola Tesla that previously
was buried under some country with capital controls and poor internet or something like that?
And instead, now, what would have Mozart was born before the piano was created?
Right.
What would have shame for the rest of humanity?
So by bringing everyone online in this single economic network that no one can stop just like
mycelium, it will uncover individuals who change the world.
And they wouldn't have had the chance if they couldn't connect to this global network.
And so in my opinion, it's our duty to make sure that anyone with a good idea has a chance
to bring it to market.
It's the right thing to do.
And it's practically good for us.
So, Brandon, somebody that's listening to that, they might say, all right, so you're talking about a monocrop, you're talking about the big Mike banana basically being an example. And then you talk about Bitcoin, which to them might sound like it's a monocrop. Or as they're looking at it from their outsider perspective and they're used to Fiat money and the way that the system currently exists, they're saying, no, moving to Bitcoin is like a monocrop. So how would you respond to that person when, if that's what they're used to.
thinking is they're hearing. So first I would say that I don't see a world wherever where there's
a single money and nothing that trades like money is around. Like there will always be multiple
types of money, I believe. And so when I say that, I'm more mean, it's an option for anyone.
It's a lifeline for those who don't have a better monetary system that they can access, right?
And it's 100% voluntary. And so based on your needs locally, you're going to make the best decision
for yourself. Now, from the other side, the systemic risk side, like what happened to the big
Mike banana, the major difference is that Fiat monies are political monies, right? And that means that
people in charge make decisions, oftentimes short-term decisions, which come at the expense of
long-term things. And it's rational for that to happen, right? The barbarians are at the gate.
We've got to print more money to defend ourselves. Super rational, easy to justify. But over the
long term that may undermine the currency. And I think that's why currencies have such a short shelf
life is because humans meddle with them. And over time, it hides risk and then there's a systemic
blow up. And so compare that to Bitcoin, there is no politics there. There's no one's printing
more because it's too hard to make changes. And the market clears, it removes the distortion.
There's no politics. There's very little, if any, systemic risk. And so I think, in my honest opinion,
And that's the most important part of this Bitcoin thing.
It is not $21 million.
It is not a blockchain.
It is not any of the stuff.
It's actually the fact that we have a monetary system that's extremely hard to change.
And historically, money's failed because either they get out competed technologically,
which I think is what happened with gold and why we moved to fiat.
We went to a global world, an information world, and gold is analog.
It's just too slow to keep up, so we make fiat money.
The other way monies fail is due to over politicization, which essentially just greed steps in or
short-term thinking steps in, and then we just break the money and no one wants it anymore.
And so in those situations, money lasts, let's say, 50 years, maybe 30 years if, you know,
things are going well.
And I think Bitcoin has a chance to not be a 50-year money.
I think Bitcoin's the first chance of being a 500-year money because it can evolve and adapt
So it handles the technology disruption angle.
It learns.
It gets better.
It's software.
We can reimagine it.
And the worst case scenario, we can port the UTXO set into a new software system.
And the UTXO sets where the value is because that's the network.
The holders themselves care about that and it's backed up everywhere.
And so you could port that into a new software system.
Let's say we invent something really cool.
The other side is the politicization.
Because it's so hard to change, it doesn't matter with the politics.
of the day are. It doesn't matter what the current thing is. Bitcoin just laughs. It's totally unaware of
the current thing. It just does what it does. So I think both of those two combined essentially
overcome why monies fail. And it doesn't mean that Bitcoin won't fail, but it does mean that this is
the first potential money to last 500 years, right? Let's 10x the average or maybe more.
Drew Bansol makes a good case for how if we're going to go to space, we're certainly not
using Fiat money on a database here. We're certainly not using gold. So maybe we are using
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All right.
Back to the show.
Love that response.
Talk about the fungal life cycle and how this mimics Bitcoin cycles.
I made this thread in the last bear market and it kind of went viral.
I put some visuals here.
I think he does a good job telling the story of fungi too.
and caveat. I'm like secretly trying to teach all the Bitcoiners about fungi. I think it's an
equally deep rabbit hole. And another quick tangent, my personal interest in life or what am I good at?
What am I here for? I believe is to pursue the frontier of knowledge. And I think that means
overlapping industries. This is biology and technology, right? And if you're a decently obsessed
amateur in multiple fields, which I am, you can actually produce novel insight that the experts in
those separate fields would totally miss. And they're obvious to you because you have that overlap.
And so I guess this is me saying we need more generalists in the world, right? It takes like 25
years to be an expert cardiologist. And great, you might contribute 0.1% more in cardiology,
but you know nothing of fluid dynamics. So you're going to miss how blood flows through the veins, for
example. That's probably not even a good example, but you get what I mean. Multiple layers is key.
And so let's come back up to fungi, the life cycle here. Most of a fungi's life is in that mycelial
form. It's out of sight, out of mind. You walk through the forest, you don't even see it. And then when
the conditions are absolutely perfect, humidity is right, temperature's right, moisture is right,
etc. It concentrates all its energy to produce a mushroom, the fruiting body. And some of these are
actually among the fastest acceleration things we found on our planet. So little tiny mushrooms,
which are mostly water and cell walls made of chitin, which is the same as like a crab shell.
So very, very hard, rigid, mixed with water produces a unique form. And they can actually
burst through asphalt. They can lift a concrete paver off the ground. And it accelerates,
I forgot the number, but it's like a jet engine acceleration, which is insane. So quietly underground,
when the condition's right, produces the mushroom.
And as soon as that mushroom reaches the peak, it releases all its spores, tiny little
mushroom seeds, and they're lighter than air, they flow all over the place.
And most of them die.
But a few land together, they fuse and they create new fungal colonies.
They go underground.
And then they're in that quiet place for maybe years before they reproduce again.
That's the life cycle.
For years, for years, you said, before they reproduce.
Potentially.
Wow.
Yeah.
It could be years.
It could be a lot of, I mean, the diversity is so large, but certain mushrooms come up
in the spring every year or the fall, right?
So there's patterns, but a new fungal colony probably doesn't have enough energy to reproduce
for a while.
So it's just underground foraging, building, forming relationships, building its own mass.
Now it's like what the hype cycle in Bitcoin, right?
Bitcoin is mostly in a bear market.
Mostly normal people don't talk about it.
They don't know about it.
That's the mycelium form.
of Bitcoin. We're still in that now. Then we have a bull market. That's like that mushroom being
reproduced or being produced. Everyone's talking about it, news, everything's going wild. And then it
hits that peak, that euphoria when the craziest things happen imaginable. And three months later,
we look back to like, oh yeah, that was clearly the top. We got a little, got a little before it there.
That's the sporillation part. That's the mushroom sending out its spores and reproducing.
then the price crashes.
Now you're into this sort of integration period.
Most of those spores or new market entrance leave.
They ride it off.
They leave with their tail between their legs.
But a few of them plant roots.
They're like, well, there's something deeper here.
They form companies, relationships.
And they're the hodlers, right?
They're the weekly DCA army that maintains the price floor.
And so that's sort of the colonization period.
And again, it goes right back into that quiet lull for a few years as we rebuild,
be hardened, strengthened, formed new relationships.
And the mycelial network gets bigger in that bear market, totally out of sight.
And then all of a sudden, another raging bull market comes bigger than the last one and people
are caught off guard.
That's fascinating.
I'm speechless.
I'm absolutely loving this conversation.
And so in the book Entangled Life that you recommended for me to read, there's this topic
called Dark Matter fungi that's brought up.
What is this?
Do you think that it relates to Bitcoin in any kind of way?
And yeah, just generally, what are your thoughts on it?
What he's describing there with dark matter or dark matter fungi is that there's a whole lot of fungi that we don't know about.
And the more we explore, the more we realize that there has to be another participant in the market in order for everything to balance out.
So dark matter is essentially our laws of the universe don't work unless there's this magic other variable that we can't.
measure. So we'll just call that dark matter and then the equations balance. The exact same
things happening with fungi. And so I think it originally was brought out into the oceans
because number one, we don't explore the oceans that much. Number two, we don't explore fungi
very much. So fungi in the oceans are definitely not getting a lot of attention. And so as we
explore the oceans, we're starting to realize that there's so much more complexity than we thought
and fungi are buried in the oceans pretty much everywhere.
How this relates to Bitcoin, in my opinion, is kind of a haste makes waste type thing here
where we're sort of just marginalizing the mushrooms, right?
And we just sort of make up our mind and we find out later that we're wrong.
We know nothing, essentially.
And the same is true with Bitcoin, where, first of all, only a tiny percentage of people
around the world understand Bitcoin on any sort of deep level.
And so, well, number one, that gives us our chance for price.
action upside, right? Number two, I think we should accept the fact that it's hard to grasp
and it's really easy to write off, just like it's easy to write off mushrooms outside out of
mind. People think they understand Bitcoin right away, right? It appears simple at first glance.
So you're like, oh, I get it. It's this. It's easy to dismiss because I heard one argument.
But if you go a little bit deeper, you start to realize that this thing's way more complex
and way more interesting. And a fun analogy here is a mountain climber.
So you're climbing, climbing, climbing, climbing a mountain and you see the peak and you're so excited.
You've been hiking all day and you finally get to the peak.
And then you look up and you realize, oh, that wasn't the peak.
That was a false peak.
I got to keep going.
You know, a few hours there to get to another false peak and you're just getting demoralized until you finally reach peak.
And the same is true with Bitcoin.
You quickly reach these false summits and you're like, oh, I got to figure it out.
And if you don't look up, you maybe stop there.
But if you look up, you realize that it's way more complex than we thought.
And so haste makes waste.
Brandon, do this for us.
Take us, if you were going to describe Bitcoin for somebody, now that we've talked all
of this and we've looked at things from very interesting and different angles than I
know I've ever covered on this show, Orange Pill the audience.
Tell them why you are such a hardcore Bitcoin or why you see the technology to be so
promising.
I know you've covered a little bit of it throughout the show.
But if you were going to take a very high 40,000 foot view for a person, you're going to
for a person who's hearing this conversation and saying, wow, some of these ideas are really
fascinating. But let's just talk about Bitcoin now. What do you say to that person?
There's so many angles in this question, number one, but I'm going to pick the one that I'm most
passionate about. And that is that money is a social technology, a psychosocial technology.
It is an abstraction layer that binds humans together. And we use money because we have these
neofrontal cortexes that allow us to form abstraction.
Right. So it's a technology.
And it allows society to scale our networks and scale our productivity.
Without money, you end up in maybe 150 or maybe a thousand person groups because you're
essentially trying to keep track of kin and are we friend or foe based on our genetics.
And I caught the woolly mammoth last week.
So you got to get this one this week.
And you can kind of keep a ledger in your head.
You don't really need money.
But as soon as you want to have a global complex.
society, you're going to need some sort of an abstraction layer to represent value or energy or
time or work.
It's all the same thing.
And that's what money represents.
And so if we have a money like we do today, maybe we have a good money, maybe we have a bad
money.
But no matter what, if we can have a better money, that's going to have tremendous downstream
implications for our society.
Because you're not corrupting information, because you now have a ledger that's not the
information of exchange, of energy exchange is more sound than what it's ever been before?
Is that where you're going with it?
Yeah, there's a whole bunch of ways why Bitcoin would be superior to our Fiat money system,
but that's one of them, right?
It creates, the scarcity element represents the scarcity of natural resources on our planet.
So it's important that those are in symbiosis or in symmetry, right?
You can't have a money that prints forever when resources can't be printed forever.
And so that one-to-one helps bring more economic reality to our trade.
It creates the economic signals to be a little bit more clean because there's not this
politicking and essentially changing the rules all the time.
So it maps to reality better.
And that allows us at the edge of the network to make better decisions.
And that's what the market is.
That's where wealth is produced, right?
We can specialize at a higher rate.
We can make decisions at a better rate.
And that alone increases productivity.
life satisfaction for everyday people.
And so at that level, it essentially scales us socially at a better rate.
And Nick Zobo has a term social scalability, right, which is essentially way, how do we
increase cooperation over distances, right?
How do we flexibly cooperate over distances and time?
That social scalability, things would be like property rights or rule of law or various
things like that, communication networks, money, these are social scaling technologies.
And what Bitcoin does, in my opinion, is it allows us to go to a whole other tier of
cooperation. So if we zoom way out, I view we're stuck at this sort of nation state, industrial
revolution game. And that game is who has the most resources who can then deploy the most
power? So it's a magnitude of wealth or magnitude of power game. The U.S. has the industrial base,
the economic base, we have the best military, we're in control. But what this leads to is this
nation-state politicking over resources. And that comes at a really high cost, right? Go read Alex Gladstein
for a taste of how destructive this game can be. Whereas with Bitcoin, it sort of dissolves that
industrial revolution game and it creates more of a networked game where your place doesn't
matter as much. Your government doesn't matter as much. We form networks online and we trade through
those networks. And so I believe it actually shatters that glass ceiling of social scalability
and allows us to unlock more human potential by having an economic system that no one can
stop and can go pretty much anywhere. And the minor or the microscale, that means individuals
can bring their skills to market and benefit from that in their family. At the city level,
we can have more robust cities with more wealth. And at the macro scale, we just generally have more
wealth at the margin because everyone can participate and because the economic signals are clean
and because there's no politicking to blow up the game and change the rules every 50 years.
That allows us to have a strong foundation to build civilization.
So we can have that 1% growth compounded forever rather than these volatile periods that sort of like
set us back.
And yeah, that's what I would say.
And earlier you had mentioned about this fungi that decomposes biology, organisms, plants,
in order to prepare the soil in the environment for plants to regrow and to basically
a new forest to basically flourish.
When you look around the world and you were saying this was a lot like mining, do you see
miners playing that role in certain parts of the world where there has been the
this really corrupt political environment and has had an enormous setback for the population
and the society that's in these regions, do you see mining actually providing this similar
type environment where it's going to go in, it's going to incentivize energy to be built
with a buyer of last resort already in place through mining that can then energize and provide
energy to that local community.
Do you see that happening or is there any other parallels similar if you agree with that
one or not that you think are maybe representative that we can learn through biology of
what basically Bitcoin is going to do next?
Yeah, 100%.
So we touched on part of this earlier, which was the story of how did complex life go from
the oceans to land, right?
And that was a lichen, a symbiosis between a plant and a fungi.
And in ecology, there's a unique type of species that sort of describes that process.
These are called pioneer species.
And their job is to go colonize desolate landscapes and they prepare the land for more complex life to then come and join the party.
And I think Bitcoin miners play this role extremely well.
They go find energy sources that are being untapped.
And miners just due to profit incentives go, they set up the, this.
infrastructure and they turn that energy into a commodity, right, like we described. But the second
order effect there is that now you have a buyer, like the economics of bootstrapping energy
assets just got way better because you have a customer from day one. So the Bitcoin miners go to
some rural mountainous region in Africa where there's a whole bunch of rivers. And maybe the
startup cost to build a hydro facility there is too high because it might take you three
years to transport that power to the consumer. And so the project dies on the vine, right? The startup
capital doesn't form. Whereas with Bitcoin miners as that pioneer species, they go join the party
and they say, hey, if you build out this hydro, I'll buy all your power from day one. And they do.
And then over time, let's say three, five years goes by. They build out all the transmission and they
bring that power to market to a local city, let's say. In that type of situation, the Bitcoin
miners get priced out of the equation and instead all that energy is then sold to the end consumer
who will always pay more than the miners. So it's sort of a bootstrapping mechanism to bring new
energy assets online. And just like the pioneer species, right, they colonize the land,
they make the soil, then it becomes a complex ecosystem. At that point, the pioneer species
gets out-competed. That lichen can no longer survive because the giant oak tree shades it out.
And then that lichen hopefully reproduces and starts the process elsewhere, just like the mining machines, right?
As soon as they get priced out, you can go bring those miners to some other site with very low-cost energy.
And you essentially put them in a retirement home to convert any free energy you have into money, right?
Because the KAPX already depreciated.
And if we look at real examples, right, this is kind of esoteric maybe for people who are new to these ideas.
but let's talk about a company called Gridless.
It's a company in Africa.
They're doing this right now.
And what we're finding in Africa is that there's a last mile problem with energy.
So the city's more or less electrified.
I mean, horrible conditions compared to here,
but the cities mostly have power most of the time.
But if you're rural, there's no power and there's no path to power
because it's not economical.
So that last mile problem.
Now, enter microgrids.
Microgrids are just tiny little energy assets that are designed to serve these marginalized rural communities.
However, funding a microgrid is really cumbersome.
It usually relies on foreign aid or some government programs, things like this.
It takes years.
It's super inefficient.
And you got to ask yourself, why isn't it happening, right?
It's hard.
There's the reasons.
Now enter the Bitcoin miners.
They have an economic reason today to go start.
up these microgrids and they're doing it. And guys like Eric, the CEO of Grithis, are reporting
that they're bootstrapping energy assets, which leads to more power at a lower cost. So they're
lowering the price of power, increasing access to power to rural communities. And it might not
sound like a lot to you or I, but decreasing power or increasing power in these communities is
enormous for their lives. It's the difference between being able to read after dark. It's the
difference between having a mobile phone so you can call your family more than for five minutes a week,
right? Is the difference of educating your daughter or your daughter just stays in the village,
right? So these are huge, life-changing things for those on the margin, right? A little energy goes a long
way. Not to mention the fact that if they don't have, I know, if we scale this way out, that's the
microgrid example. If we provide more low-cost energy at a wider distribution around the
planet. It is the single biggest humanitarian thing that you can do for the marginalized parts of
society. It allows these communities to be competitive with their exports because they can actually
make things inside their country instead of relying on all their imports as well. It provides jobs.
How about a personal one? I've got a nine-month-old son upstairs, new parent. Wow, that process
is crazy. And in Africa, if my son was born prematurely, in many places, there wouldn't be a
hospital with an incubator to keep the child alive, right? We take that for granted in the West,
but that is a function of baseload power not being economical or available in those countries.
I guess I'm saying that because there's a huge humanitarian benefit from spreading energy.
And I think the zeitgeist today is kind of a more energy is bad, right?
These sort of New York Times type talking points or weft talking points.
And I think the counterpoint to that is that you're depriving people of basic human
human needs. And I think energy is the master commodity of which all human flourishing flows. And so I
think we should lean into things like Bitcoin or any technology or any process that does spread
more energy at a lower cost. And so I'm very, very passionate about that one. Wow. Do you have any
pet peeves about Bitcoin or the Bitcoin community or naysayers of Bitcoin? Like, think through
something that you love to talk about, that maybe few talk about or a few address, but for you
personally, it's a big deal. Yeah, I think it goes back to what I think is the most important part
of Bitcoin, which is that it's hard to change. Okay. And so the, let's say the Ethereum community
or similar type thinking, they will quickly say, well, Bitcoin doesn't do anything and it's too
hard to change, so you're going to get out competed by features. And the key is we need
control to change this thing. And all we got to do is have a nice democratic process to make
change. I think this is the biggest folly in the whole industry. And because what you're doing is
you're creating a political money, which is what Fiat money is, you're creating a political
money just with a new software system. There's absolutely no difference. And they could be successful
for 20 years, 30 years, right? But inevitably, either it'll get out competed by better technology,
or more than likely, it'll be co-opted politically and it will corrupt itself from the inside out.
And in my honest opinion, Ethereum has already passed the point of no return for many different reasons.
I guess I get frustrated when non-Bitcoiners make that argument because they're essentially
building a monetary system that's easier to control and they're handing the keys to whatever
political power captures it.
And I view that process as inevitable.
It's just a matter of time.
And if Ethereum gets big enough, it will happen.
We want to lean into the fact that this thing is out of human control, right?
Greed is built inside of us, and that's okay.
But let's harness greed for good.
And Bitcoin essentially forces people who are greedy, which is a normal thing to be greedy
on some level, it forces that into a market where you have to provide value for someone else
in order to gain value yourself. Whereas in a political money, the incentive is, why not just
capture the game? Why not just change the rules? Why not just lobby the politicians? Why not just
get close to the money printer? It's rational to pursue that rather than go compete out in the market.
And so what Bitcoin does is as soon as the market realizes you can't change this thing,
it forces all the would-be political capture type people, the central planner types.
It de-emphasizes their value.
It defangs them.
It essentially forces them to go get a job, forces them to learn to code.
It forces them to create real value.
And marginally, that adds tremendous amount of productivity to society.
And it's sort of reducing.
We're fighting this ongoing force of.
political capture or the revolving door, all these different ways to look at this.
But we're constantly fighting that force.
And why not just get rid of that thing altogether?
And if so, more humans will put their energy towards productive economic means rather
than political capture.
Brandon, you have written some just prolific pieces on some of the things that we talked about
today.
One of them is called Bitcoin is the mycelium of money.
Bitcoin is the pioneer species.
We're going to have links to those.
We're going to have links to some of the other writings that you have had.
I know you recommended to me the book, oh, my gosh, Entangled Life, which we had talked about earlier.
We'll have a link to that in the show notes.
Are there any other books or resources that you want to highlight to the audience beyond those?
Yeah, if you're super new and you just want a quick hit, you don't have that much time.
You want to take like a baby step.
Just Google Paul Stamitt's TED Talk.
It's like six ways mushrooms can save the world or something like that.
It's super dense, super fun.
I would say if you like the weirder, more esoteric, push the boundaries of what we know about
biology and ecology, look up Entangled Life by Merlin Sheldrake.
He's also a fantastic speaker.
I admire his ability to command English language.
So just look up Merlin Sheldrake on any podcast.
You'll get a good dose.
And I do encourage you to read my essays.
I know I'm self-promoting here, but they do a really good job of weaving these things together.
And if you're a bitcoiner who's curious about fungi, this is a great way to learn about
that whole kingdom.
And it's honestly, yeah, I'm trying to mushroom kill all the bitcoiners because it's an equally
fun rabbit hole and I want more people to talk about it with.
That's awesome.
And obviously your Twitter feed is phenomenal.
So we'll have links to that in the show notes.
Brandon, I can't thank you enough.
This was really, really fun.
And just I thoroughly learned a ton and enjoyed the chat.
Likewise, Preston.
That was awesome.
Appreciate it.
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