Stuff You Should Know - Slime Mold: 0% Mold, 100% Amazing
Episode Date: June 8, 2021If you’ve ever wandered past what looked like a pile of dog barf on a log during a hike in the woods, you’d just seen slime mold - one of the most perplexing organisms on Earth. Learn more abou...t your ad-choices at https://www.iheartpodcastnetwork.comSee omnystudio.com/listener for privacy information.
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Hey, I'm Lance Bass, host of the new iHeart podcast Frosted Tips with Lance Bass.
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Welcome to Stuff You Should Know, a production of iHeart Radio.
Hey and welcome to the podcast. I'm Josh Clark. There's Charles W. Chuck Wayne Bryant.
And this is Stuff You Should Know, no producer edition.
That's right. It's just us buddy. We're gonna do it. We're gonna be just fine.
Jerry took an early vacation for Memorial Day. I know. She's always doing stuff like that. She
knows how to live. And we're stuck with slime mold in her absence. I like slime mold. I knew
you would love slime mold. Yeah, I think it's pretty interesting stuff. It's very Josh Clarky.
It is kind of Josh Clarky so much so that as I was researching this, I just kind of generally
knew about slime mold that it exhibited some weird level of intelligence here or there,
but I didn't know much about it. And then as I was researching, I was like, I'm kind of into
slime mold now. Yeah. Like all the different kinds of it. I regressed into the nerdy eight-year-old
I never was. Yeah. And then you're like, let me Clark this over to Chuck and see what he thinks.
Yes. Yeah. I like slime mold too. I think it's kind of cool. Let's do it.
Okay, Chuck. I'm ready. All right, everybody, stand back because we are doing it.
Yeah. And I think you could file this. I mean, it's not an animal slime mold. I guess we should
just tell you right away. It's not an animal. It's not a fungus even though you would think it's a
fungus. If you saw it on the forest floor and we'll get to all this stuff, but it feels like an
animal, one of our animal episodes anyway, sort of. Yeah. I was going to say the fact that it's not
an animal or fungus or the very end, but sure we could do it at the beginning, I guess.
You mean like literally in the last minute, they were like, I still don't know if this is an animal.
Is it a dog in disguise? You know, everything we just told you about, it's not an animal. It's
not even a fungus. And then we just go to listen to them now. So what is it though besides super
ancient as in like maybe one of the very first living things? Well, it's a protist actually.
They figured out and protist seems to be, well, it's one of the five main kingdoms, animal,
bacteria, plants, fungi, and then protists. And protists are typically single-celled organisms
like amoeba or protozoans, things like that. And they have, I know I couldn't find out exactly
when they did it, but they fairly recently, I guess in the history of biology fairly recently,
reclassified slime molds from the kingdom fungi over to the kingdom protista.
Yeah, which is interesting because for years, they had been studied by mycologists who were fun
guys. And they found out later, they were like, you know what, sorry, these should really go
over to the protistologists. And they said, we kind of like these guys. Can we keep studying them
since we have been? And they said, sure. And the protistologists were super pissed.
They were, they were, they're still actually not over it. They're frequently TPing the
academic halls of the mycologists whenever they get the chance.
Yeah, it's this very bitter battle. So that is pretty cute that the fungi people are still
studying slime molds, even though they're not fungi. But there's, you know, some good reasons
why they were originally considered to be fungi, mostly that they're like these big kind of clumps.
And there's all sorts of different ways that they take shape and form depending on the species.
They're different colors, some of them form kind of net like honeycomb structures. So they look
like dog barf. One of the main ones we'll talk about today looks a lot like dog barf.
They look like a fungus though. Like if you're walking in the woods and you saw this,
nine out of 10 people would say, well, it's got to be some kind of fungus.
Yeah, especially because if you're staring at them, you would have to stare at them for about
five, six, 10 hours to see that they have a huge difference between them and fungi. And
they move. They just move so slowly. It's not apparent to the naked eye. But if you film these
things with time-lapse cameras and speed it up, you can see, oh, they very clearly move about
from place to place. So that's a big differentiator between them and fungi. But one of the reasons
they thought they were like fungi that they were fungi is because they produced spores to reproduce.
Right. And I mentioned their ancient origins. They are about a billion years old. And
like I said, could be like as soon as there was stuff, it seems like there was slime mold
eating the bacteria that breaks down other stuff that dies. And that's what they feed on.
Bacteria, mold, yeast, basically anything that decomposes dead things, slime molds in golf.
I think it's not called photography. It's called phagotrophy. Oh, yeah. That's not how I was going
to say it. What are we going to say? Phagotrophy? Phagotrophy, yeah. But I think you're absolutely
right. Well, you know us, it wouldn't be us if we didn't probably both get it wrong.
Right. But that's when you basically surround something and engulf it and just sort of like
move it into your body, just like sort of absorb it basically. Yeah, which is another
difference between slime molds and fungi because fungi actually break the food down and then absorb
the broken down nutrients. But the fact is, if you have things that are decomposing other things
like bacteria, molds, yeast, the things that crawl onto or grow on dead people, dead trees,
all that stuff, break them back down into their constituents. So the fact that the slime mold
feeds on other things, it makes it a really important part of the food web. Sure. It's part
of the nutrient cycle because other things come along and eat the slime molds. There's apparently
a kind of beetle that has a specialized jaw that allows it to slurp up slime molds. I think some
kinds of insect larvae eat them. And then so it just kind of keeps going. But they're a really
important part where you would just have these microbes that like the beetle couldn't get to
that they're able to basically get that energy from, you know, the bacteria by eating the slime
mold. Right. And even though other protists can carry disease, slime mold is quite human friendly
actually. You can eat the stuff if you want. There's a dish in Mexico and some parts of Mexico
called Caca de Luna, which is exactly what you think. It is poop of the moon, moon poop.
And they eat this stuff. I even looked online to try and get a good recipe, but
it's not on like the pages of Martha Stewart Living. Like it's, you got to dive deep into Reddit and
stuff like that to get some good recipes, it seems like. Almost, almost smacks of urban legend,
but I'm seeing it in different forms that I think it's probable that it actually is a thing. The
thing that scares me is that people say like in some regions of Mexico, it's like, that's not super
specific, you know? True. And we pointed out they weren't animals or plants, but we definitely need
to point out that slime mold is also not mold. No. As a protist. That's right. So one of the,
one of the really amazing things about slime mold is there's a couple of different kinds,
as we'll talk about in a second, but one, a whole bunch of different kinds of species,
one type of slime mold can get really big. I mean, some of them can get up to the size of like a
medium or pizza, large pizza, I guess, depending on whether you're getting ripped off by your pizza
guy, but like 12 inches in diameter. That's enormous, right? So you're like, well, that's
pretty cool. It's a big blob of mold. Well, put your sock garters on because I'm about to blow
your socks right off your feet. Some of those types of slime mold that are as big as a pizza
are one giant cell. Yeah. I mean, this is truly amazing. The plasmodial slime mold, which is,
I guess you could call it one of the true slime mold, is it has all the stuff, like as if it
were undergoing cellular division and all the, all the different nuclei, like millions of nuclei,
organelles, cytoplasm, all that stuff, but it's just not, it doesn't have cell walls. It's not
individual little cells. It's just, it splits and lives inside this giant fortress wall. Yeah.
It's almost like if you took all the cells that should have made this giant blob up as a multicellular
organism and just kind of broke them open and dumped all the contents into this blob,
and then threw the cell walls away, that's what you would have. It's super interesting.
It is. And it's really kind of straightforward if you just hear it, but it's also really easy to
just keep going like, wait a minute, why? Why is it like that? And how is it like this? What's
going on here? Which is one of those things that just, it makes slime mold its own thing. And we're
still learning about this stuff, you know, every day. Yeah. And it, I mean, it gets, there's quite
a few times in here where we're going to say, and here's where it gets even crazier. That's right.
This isn't super crazy, but the other kind of slime mold, or the other big broad categories,
is cellular slime mold. And these are lots of individual single-celled organisms, but the
kind of knockout fact about them is when they're stressed out, if they don't have a lot of food
around, they can join up together and sort of look like one of those plasmodial slime molds,
but it's not. It's called, I guess, pseudo-plasmodial. Yeah. Because it's not a real one, but it
basically says, all right, we're going to all come together to try and find food together.
And then when they do have food, they can be like, all right, we'll just go along
our merry way and split up again. Yeah, which is pretty nuts. They also will come together,
apparently it makes it harder for predators, like those specialized beetles to eat them,
because those individual slime molds can be, you know, a millimeter in size or smaller. Yeah.
So it's pretty easy for a beetle to eat that. It's much harder for a beetle to eat something
the size of like, you know, a quarter, right? So they actually do come together. They come
together to move. They also come together to reproduce and produce spores. But the characteristic
of this, that what makes it a pseudo-plasmodium rather than an actual true slime mold is that
they retain their cell walls, their individual cells when they come together. They just kind of
loosely form together. And a really good way of understanding what these cellular slime molds
create is kind of like a swarm. Yeah, that's a good way to put it, I think. Or what's the,
God, that's my favorite thing when the birds do that. What's that called?
Flock of seagulls haircut. Sure, that's it.
Boy, you threw me there. So these, the plasmodium is covered by a layer of slime. And you're gonna
want to put a pin in this, because when they do move around, they leave behind a little,
these little collapsed tubules. And it looks basically like, not exactly like a snail trail,
but sort of like a layer of slime. And you're gonna want to remember that for later on,
because these actually kind of serve as important little markers. As a matter of fact,
write it down, everybody. We'll wait until you get a pin and a piece of paper.
Pull over. Go inside the CVS closest to you. Yeah. Put on your mask. Buy a pin.
Yeah. Buy a piece of paper. Pay 10, 12 times what you should have paid for that pin.
Really? Oh my God. The pin markup is big at CVS. I think the general markup at CVS is fairly high.
Oh, they're like, we get them in here for the aspirin, then we really juice them with this
ballpoint pen. That's right. I hope there's no CVS ads in this episode, but we'll find out.
What is, what's a good deal at a drugstore? Is there like a, I didn't... There's none,
there's zero. Are they all mark it up? Yeah, everything's marked up because it's like a,
it's like convenience kind of thing. You sound like a grandfather. It's all marked up.
Back in my day, you just go to a regular grocery store and buy your pens and you pay normal price.
From the bin factory. Straight from the man who made it. That's right. You know, when I was little,
for a short time, I'm not sure why we did this, because it's not like we lived out in the country,
and this is a very old timey country thing to do. We bought our milk direct from a farm.
Nice. And we would pull up and I would get to walk inside this huge walk-in cooler,
like next to a loading dock. And I just thought it was like the coolest thing in the world somehow
to get that fresh milk. Sure. Then they back the cow up and it makes a beeping sound and they
just squirt the milk right into the back of your station wagon. That's right. They mark it up first.
Slosh your way home. So where were we? Okay, if you do see this stuff in the woods, if you ever
hiking along and you see a big or medium-sized pizza like yellow blob or orange blob, they can be red,
they can be white, they can be maroon, very rarely they can be black, blue or green,
but usually it's sort of yellow or orange and you see that in the forest. You're probably
looking at a slime mold. Yeah, especially if it's really hot out and it just rained.
Yeah, the worst thing in the world for me. You can also see them like on your grass too.
Apparently, if it gets really rainy and hot, slime molds will actually come out of the woods
into your grass and be like, oh, this is pretty nice. And they aren't going to do any harm. It's
not a problem for your grass. It just looks kind of gross. It's certainly not going to hurt you or
your pets. And then eventually it'll dry up and turn to kind of a gray or tan powder and blow away.
And that means that it just turned into spores and it just reproduced all over your place.
Yeah, I think maybe we should take a break because right now people are probably like,
dudes, you promised greatness here. And so far it's a little humdrum.
What? So put those sock garters back on because when we come back, we're really going to start
knocking them off with some of these amazing facts.
Because I'm here to help. This I promise you. Oh, God, seriously, I swear.
And you won't have to send an SOS because I'll be there for you. Oh, man. And so my husband,
Michael, um, hey, that's me. Yep, we know that Michael and a different hot, sexy teen crush
boy band are each week to guide you through life step by step. Not another one. Kids,
relationships, life in general can get messy. You may be thinking, this is the story of my life.
Just stop now. If so, tell everybody, everybody about my new podcast and make sure to listen.
So we'll never, ever have to say bye, bye, bye. Listen to Frosted Tips with Lance Bass on the
iHeart radio app, Apple podcast, or wherever you listen to podcasts. I'm Mangesh Atikular.
And to be honest, I don't believe in astrology. But from the moment I was born,
it's been a part of my life in India. It's like smoking. You might not smoke,
but you're going to get secondhand astrology. And lately I've been wondering if the universe has
been trying to tell me to stop running and pay attention because maybe there is magic in the
stars if you're willing to look for it. So I rounded up some friends and we dove in and
let me tell you, it got weird fast. Tantric curses, major league baseball teams, canceled marriages,
K-pop. But just when I thought I had a handle on this sweet and curious show about astrology, my
whole world came crashing down. Situation doesn't look good. There is risk to father.
And my whole view on astrology, it changed. Whether you're a skeptic or a believer,
I think your ideas are going to change too. Listen to Skyline Drive and the iHeart radio app,
Apple Podcast, or wherever you get your podcasts.
Okay, Chuck, we set them up. Let's knock them back down.
So here's one cool fact is that slime molds basically can do the equivalent and do the
equivalent of throwing themselves on the grenade. They will sacrifice themselves to save others.
And these are things without a brain or a central nervous system. It's not like they think,
I'm feeling empathy today for my fellow mold. And so I'm going to save everybody because I've
come across some infectious bacteria. But what they do is they come across it, they engulf it,
and then they say, let me go. And they cut themselves off from the pack, from the swarm,
and detach themselves and die of that infection, but save the rest of the group.
And my heart will go on, please, in the background as they get further and further away.
Exactly.
But that's altruism, which is pretty amazing considering, like you said, they don't have
a brain or anything like that. So how are they doing this? We'll get to that later.
So what about, tell everyone about the dic distellium discoidos?
Discoides.
Discoides, okay.
That's one of my favorite words now, discoides.
Just because there's disco in it.
So this is a kind of cellular slime mold, right? So it's made up of a bunch of different
individual organisms that come together. And when they come together, they practice altruism to
some degree as well, because some of them will basically be like, okay, I'm dead now. I'm dead.
I'm going to turn into a bundle of cellulose fibers. And that cellulose is going to connect
with other slime mold cells that have died and turned into cellulose and come together and form
a stalk. And then at the top of the stalk, a bunch of different slime mold cells,
they're called slugs when they're individual like that, will climb up the stalk and then
they'll turn into spores. And then in that way, they're sticking up out of the ground
and a passing animal will come and they'll stick to it and they'll get a ride to greener pastures.
But to do that, some of them have to die to form the stalk to let the spores grow on top of,
which is pretty amazing itself.
It is. And you know, we mentioned that they move, you know, they're not, they don't just sit
around and wait for someone to drop a pepperoni near their pizza shape in the woods so they can
eat it. They got to go where the food is. And they either move by these little appendages that
like little feet like appendages, those are the cellular slime molds, the individual single cell
organisms that can come together. Or, and this is crazy, the other kind, they move as one big mass
because, you know, there's no cell wall going on. So they just sort of expand and contract the
cytoplasm to kind of gush their way along the ground very slowly.
Yeah, which is really neat to see because when they're, especially when they're searching for
food, which is basically all they're ever doing, like everything that they do is either to get away
from some noxious stimuli or to go toward food, usually to go toward food.
It sounds like us.
It basically, yeah, I don't like that smell.
No wonder we love them.
But I like that smell. I'm going to go toward that.
So they make these amazing kind of, they look almost like sea fans, you know what I'm talking
about? They look very fractally and they just kind of, they fan out is the best way to put it
when they start to go look for food. And when they do find food, they start moving toward it,
it's the cell walls contract and that cytoplasm goes that way. And next thing you know, over
a very long period of time, next thing you know, five days later, the slime mold has moved.
And actually, slime molds, if you don't, like they're totally fine living in Petri dishes
for as long as you want them to, as long as you feed them, if you stop feeding them,
they'll just get out of the Petri dish and start looking for food elsewhere.
So they'll escape.
It's a little creepy.
Yeah. But I mean, again, it's not like you're just sitting there watching this thing crawl
out of its Petri dish. It's you leave overnight and you forget to feed the thing and you come
back and it's half of it is out onto the table or something like that.
Yeah. It's something like right out of Gremlins.
Kind of, yeah.
And I think you said they move about a millimeter an hour, but some of them actually,
if they're really cooking, can go about an inch and a half in an hour, which-
Yeah, it's really fast.
I mean, it doesn't sound fast, but when you're talking about what we're talking about,
it is pretty fast.
Yeah. And I saw that a couple of places, most people cite something like a millimeter an hour.
I can't remember which one goes that fast, but yeah, I mean, you can't see it moving
when you're staring at it, but over time you can for sure.
Sure. Or if you're just really patient and you can lock in on something,
you might be able to see that.
So when they started figuring out, in the early 2000s, Japanese researchers were some of the
first to really study slime molds as showing some sort of intelligence.
They figured this out from watching these things actually move about.
And when you film them at high speed and then replay it,
you can see their movements are deliberate in a lot of ways.
They're not just blind dumb movements where they happen on to food.
They clearly consent food somehow or some way and they spread out.
And they seem to spread out again in a really deliberate way.
And so some researchers started to test slime molds to see what they were capable of.
One of the first researchers was a Japanese scientist named Toshiyuki Nakagaki.
Great name.
I think so too.
And Dr. Nakagaki, which is even better, built a maze, like a pretty simple maze,
but an actual three-dimensional maze in a good-sized Petri dish,
put what has come to be known as probably the smartest slime mold,
a Fizerium polycephalum, which is kind of like the rock star of the slime mold world these days,
put a Fizerium in it and said, go to town.
Go find your little favorite oat flake treat, which is their favorite food.
Yeah. And the key here is there were four different routes
to two different endpoints where this food was.
It wasn't just like there's only one way to solve this maze.
And so they put the little oat flake at these endpoints and the microorganisms that grow on
the oat flakes is what they're after.
That's not like they love oatmeal or anything like that.
Right.
And so he put them there and studied them.
And over the course of hours, these things basically learned to get to that food
in the quickest, fastest way every single time.
Yeah.
Yeah. Like it could conceivably get to it, like you said, four different ways,
but that fast way was the way that it would just, like that's impressive.
That's definitely noteworthy.
You can write multiple papers on that kind of study.
And so another Japanese researcher came along and said, hold my sake,
a researcher named Ed Sushi Taro from Hokkaido University.
Did you like that?
Yeah, that's good.
And Dr. Tiro said, all right, what about this?
What if we take some oat flakes and basically make a general map of the neighborhoods in Tokyo
and see what the slime mold does with that?
Put a little slime mold in a Petri dish with these oat flakes that kind of mimic the
neighborhoods of Tokyo and watch it go.
I think over the course of like four or five days, right?
Yeah. And you might think cool.
It does what it does and it goes after that food in the most direct way possible,
which is what it did.
But here's where it gets genuinely amazing is they went back
and they overlaid a map of the current Tokyo Railway commuter system, the subway system.
And they laid it over this grid of this slime and it was almost a perfect match.
Isn't that nuts?
I mean, I had to reread that like five times to even believe that that's what happened,
that this slime basically figured out the most efficient route to get around essentially Tokyo.
Yes, which I mean, humans had figured out too, but it took teams of human engineers
and very long time for them to figure this out, right?
So the slime mold was just like, this is nothing.
What else you got?
You got any more cities that are more densely populated with more neighborhoods?
Because I'll just make your subway maps all day long, basically.
And they're like, Tokyo is probably one of the most dense.
It's like, okay.
I saw another similar kind of a bit of research, Chuck,
where they actually used oat flakes to signify ancient Roman cities in the Balkans.
Wow.
This is crazy.
This is like an archaeological study.
And they put some, they sifted some Fizerium on it and it mimicked ancient Roman roads that
had been lost, were very obscure, had largely been forgotten, and ones that were well known
in the Balkans.
It mimicked these Roman roads, like things that people had been like, okay,
this is the best route from this city to this city.
The slime mold did basically the same thing and apparently revealed some lost stuff.
Yeah.
I mean, I guess it could also, it's interesting, like if it doesn't match up,
if they do an experiment like this, does that mean like the humans get it wrong?
Like, can they use this as a test and be like, sorry, the slime mold is spoken?
I guess so.
I kind of like the octopus picking the World Cup.
You know, they always take the World Cup away if the other team that the octopus didn't
end up winning.
Yeah.
Well, I wonder if you, I mean, and we'll get to the real applications of this,
but I wonder if they could do something like that where they, let's say they look at the
Tokyo system in a couple of places it did match.
They're like, we totally should have gone this way.
Yes.
I feel like that that is the direction that people are kind of going in, that they,
they could conceivably use this for planning new stuff, you know?
Wow.
So every city planner will have a slime mold researcher at their best.
Yeah.
I mean, like this is crazy.
Why not?
You know, all you have to do is have some oat flakes in a Petri dish and you're good.
So I think we should take another break.
What do you think?
And quite frankly, we want to eat some oat flakes right about now.
I'm kind of in the mood for that too.
We'll be right back.
Hey, I'm Lance Bass, host of the new iHeart podcast, Frosted Tips with Lance Bass.
The hardest thing can be knowing who to turn to when questions arise or times get tough
or you're at the end of the road.
Ah, okay.
I see what you're doing.
Do you ever think to yourself, what advice would Lance Bass and my favorite boy bands
give me in this situation?
If you do, you've come to the right place because I'm here to help.
This, I promise you.
Oh, God.
Seriously, I swear.
And you won't have to send an SOS because I'll be there for you.
Oh, man.
And so my husband, Michael.
Um, hey, that's me.
Yep, we know that Michael and a different hot, sexy teen crush boy bander each week to
guide you through life step by step.
Not another one.
Kids, relationships, life in general can get messy.
You may be thinking, this is the story of my life.
Just stop now.
If so, tell everybody, everybody about my new podcast and make sure to listen.
So we'll never, ever have to say bye, bye, bye.
Listen to Frosted Tips with Lance Bass on the iHeart radio app,
Apple podcast, or wherever you listen to podcasts.
I'm Mangesh Atikular.
And to be honest, I don't believe in astrology, but from the moment I was born,
it's been a part of my life in India.
It's like smoking.
You might not smoke, but you're going to get secondhand astrology.
And lately I've been wondering if the universe has been trying to tell me to stop running and
pay attention because maybe there is magic in the stars if you're willing to look for it.
So I rounded up some friends and we dove in and let me tell you, it got weird fast.
Tantric curses, major league baseball teams, canceled marriages, K-pop.
But just when I thought I had a handle on this sweet and curious show about astrology,
my whole world came crashing down.
Situation doesn't look good.
There is risk to father.
And my whole view on astrology, it changed.
Whether you're a skeptic or a believer, I think your ideas are going to change too.
Listen to Skyline Drive and the iHeart Radio app, Apple Podcast, or wherever you get your podcasts.
Podcasts.
Okay. Did you just eat some oat flakes?
I did not.
We'll get you some.
Because here's the secret, everybody.
When we take a break, we don't really go take a break.
No, you could have had some crusty old oat flakes on your desk and just eaten them real quick.
I don't know. I can't see.
So all right, we've said that these things don't have brains.
They don't have, and I don't think we mentioned, it's not like they have a,
like it's not like they're jellyfish and they have some sort of weird neural net.
Right.
They got nothing like that at all.
Nothing, like they have no way of generating consciousness in any form that we recognize.
And yet, slime mold is teaching us to open and open our horizons.
In hearts.
To, sure, to new ideas of what constitutes consciousness and intelligence.
You know what I'm saying?
Yeah.
Like it makes sense as a swarm, as a bunch of cellular slime mold makes sense.
We're already familiar with the hive mind and, you know, the emergent property of a bunch of different things,
you know, operating together.
The real puzzler, though, is the single cell, plasmodial slime mold.
That's one big giant cell, and the fact that it behaves in ways that seem conscious to some degree.
Yeah.
So if you want to kind of go back in time to where a lot of this research started,
it wasn't actually in Japan, but it was in the 1960s, a physicist named Evelyn Fox Keller
was curious if she could use math to model biological systems, because they had had success
using math to explain and expand our understanding of physics.
So she was like, let me see if we can do this with biology.
And someone said, well, you got to meet Lee Siegel.
Lee Siegel is, you got a little surprise for you.
And Lee Siegel got together and said, oh, Dr. Keller, you need to meet our friend slime mold.
And Dr. Keller was like, this is the 1960s.
I don't know what slime mold is yet.
And Keller and sorry, Siegel said, oh, we'll just take a seat and let me tell you about this,
which is dictio-stelium, right?
Dictio-stelium discoidium.
I think that's discoides.
Discoidium?
Yeah, okay.
But it's the one we were talking about earlier that creates the stems.
They sacrifice themselves to create stems for the spores.
Right.
And I think this was just significant because it was kind of like the first time anyone had
observed and fell off of their lab stool and could explain it to others, these pseudoplasmodiums.
But what they were missing was they were like, all right, we see this happening and it's amazing.
And how are they doing this though?
And the very first thing they thought of is like, maybe it's like an ant colony or something.
And maybe there's like a leader or a pacemaker cell or maybe a few of them that get together
and they just sort of send out chemical signals to everyone else and say, go this way.
And the rest are just sort of the worker ants that follow along.
Yeah.
And they knew in particular that there was a chemical called cyclical AMP,
which is related to ATP, the adenosine triphosphate.
And that that was how they were signaling.
But they thought that like you're saying that there are just a few signaling everybody else
was responding.
And what they figured out is that they had that totally wrong, that there weren't leaders,
there weren't pacemakers who were in charge of signaling and in effect making decisions
for the group, that it was actually like a group effort.
And that the whatever cell or slug that they're called in this cellular slime mold swarm
was closest to food, it would signal with AMP that, hey, there's some food over here.
Let's all go over this way.
And that signal would just kind of be passed along through the swarm, through the cellular
slime mold.
And the slime mold would move toward the food and start eating.
Yeah.
And this was, you know, I mean, you can see why they went in that initial direction,
because it made sense and a lot of nature is organized with a top down principle in mind.
Humans often organize with a top down principle, big business, government.
It's just a, it's a system that we're used to seeing in nature and in people.
And so it made sense that they went that way and they never,
they never really thought about the fact that it could be like, no, there,
it's a total bottom up system.
And whatever is closest can send out these signals.
Yeah.
So instead of like a hierarchy, it's more like, it's like,
it's like how a flock of birds operates or flock of seagulls hair cut operates where
They run so far away.
Yeah.
But it's the hair that's closest to whatever it's running from is the first to run and everybody
else follows is kind of like how a flock of birds will turn depending on, you know,
which way they need to turn based on that bird making that decision and the rest of the flock,
flock basically following it.
Yeah.
The bottom up, bottom up decision making kind of thing.
And so we started to learn a lot and we know a lot about bottom up decision making now,
as opposed to when these guys were working back in the 60s, I think.
But in the 21st century, that whole idea of bottom up decision making or decentralized
decision making has become a real component in, in artificial intelligence design.
Because if you've listened to the end of the world with Josh Clark, you know that one of
the hardest things in the world to do is program something to understand everything
because you have to input all the stuff it needs to know.
Whereas if you can just kind of set up some sort of simple algorithm to let the machine think for
itself, you, you finally got something.
Yeah.
And I would imagine I didn't see this anywhere, but it seems like this might
could have some applications in nanotechnology as well, like the idea that we could program
you know, billions of tiny little nanobot bugs to clean the windows of your house every day.
Nice.
Like a lot of things collectively doing one bigger thing.
Yeah.
Am I off base there or could that potentially be a thing?
Not at all.
I think it totally could be a thing.
It's, it's anytime you have a huge amount of things that you're trying to all get to do
roughly the same thing, but they need to not, you know, redouble their efforts or replicate
their efforts.
So you don't want one cleaning one part of the window and the other one coming over and cleaning
then the same part of the window that's already clean.
All you have to do is figure out how to teach them if this happens, do this.
And if you can figure out how to strip it down to a basic enough algorithm that could conceivably
be used for just about any situation, you've got the key to the universe in your hand.
Like there's actually, we'll have to do an episode on it one day, but I read an article
about a guy who was, I think he was a physicist back in the 80s who was like,
I think the universe is basically an operating system that is, that is, that goes down to two,
there's two bits, you could say it's black and white, one or zero.
It doesn't matter, but there are two kinds of bits and depending on the combinations that
these things form, everything else in the universe arises from that, including consciousness,
planets, slime mold, everything comes out of these two types of bits that basically make
up the fabric of space and time interacting with one another in increasingly sophisticated patterns.
And that is exactly what you're talking about.
So if we can figure out what that computation is, what those algorithms are that give rise
to larger and larger stuff, you can do anything.
It's weird.
You can do increasingly sophisticated stuff the more basic your algorithm is.
It's almost a paradox.
Yeah, this is like Dr. Octagon stuff.
Dr. Octagon?
I don't know.
Is that right?
From Spider-Man?
I don't, yeah.
He was Alpha Molina, you mean?
Yeah, sure.
All right.
I like Alpha Molina.
I think he makes some really weird choices for parts, but I'm sure somebody's like,
hey, we'll give you $10 million to play Dr. Octagon.
I'd be like, sure, you got it.
Where do I sign up?
Yeah, I need to get him on Movie Crush because he actually is friends of the network.
He's a friend of the network.
I think he's been on The Daily Zeitgeist a few times.
Oh, yeah.
And they booked him on some other comedy shows.
I'm like, guys, throw a little Molina my way.
For real?
Can I?
That Molina spread all over Movie Crush.
You've been on Daily Zeitgeist twice.
I've never had.
I've been on Movie Crush once.
That's true.
I had Miles on the Movie Crush the other day, and I was given my hard time because
they haven't asked me on it, and they've asked me one twice.
It's hilarious.
Keep it up, Chuck.
Keep it up.
He was like, no, man.
I was like, Miles, it's cool.
Did he really?
You flustered him?
I feel like he was on skates for a second there.
That's hilarious.
I let him off the hook.
I'm having Jack on next week, so I'm really going full court press here.
Yeah, Miles is like, man, be on guard.
Chuck does not pull punches.
It's funny because Miles, as you know, is such a smart, smart guy.
Just like having a conversation with him is always amazing, and then he comes on and
he picks Mall Rats.
What's his favorite movie?
Was it really?
That's his favorite movie of all time, huh?
I mean, that's what he picked, and he was like, hey, man, I never said I had good taste.
Nice.
It was pretty fun.
Do you have any hints of what Jack's is going to be?
Well, I know it.
It's Pulp Fiction because he had me save it like two years ago, and I just, you know,
he kept slipping through the crack, so he's going to come on next week for Pulp Fiction.
Very nice.
All right, so let's get back to, I mean, we talked about how the DD, as we're going to call it,
moves around without the pacemaker cells, but that original true slime mold, the big single
celled one that's just made up of all the goopy cytoplasm, we didn't really talk about what they
do, and because if you don't have cell walls, you're like, well, how's this stuff moving around?
It's actually made up of what's called oscillating units, and so these units oscillate at different
frequencies, depending what's going on, like where they are, and then what their little neighbor
oscillating units are doing, and so when they go close to food, they start oscillating and shaking
like, hey, hey, hey, I'm near some food, and then that just sort of gets that flow.
Everyone else starts oscillating in a similar manner, and that gets that flow of cytoplasm
going in that food direction. Yeah, and so the slime mold effectively moves to the food because
of that oscillating unit that looks, again, like a fan spreading out, going to find food,
and then finding it, the slime mold moves toward it. Or like you said, away from something that
they don't like. Yeah, yes, which is pretty neat. So those are the two things. It's moving toward
food or moving away from something, and one of the things that they found is that slime mold
can actually learn and not only learn to like stay away from something, it can actually teach
other slime mold to stay away from it, even slime mold that's never been introduced to it,
or alternately, it can teach, this is really the sock garter fact, it can teach other slime mold
that something that seems harmful is actually harmless. Yeah, this is a pretty cool experiment.
Yeah. So these researchers put slime molds, they built a little tiny bridge, it was very cute,
and they coated this bridge in a noxious substance. It wasn't harmful to them, it was harmless,
it was like salt or something, let's say, and then they put the little, those little oat flakes on
the other side as their ultimate temptation. And so these first slime molds start creeping up to it
and sort of dip in their little toe in the water and saying, this stuff is pretty noxious,
but then they learned, right, like, oh, okay, so it's not actually harmful, I can go across this
stuff. And what they found was that it learned to cross this little bridge just as fast as slime
molds that were placed on bridges that didn't have any coating going on. Right, so it said, okay,
this stuff's fine, it tastes gross, it's way too salty, but it's not going to hurt me, so I'm going
to get to food just as fast, right? That's pretty amazing in and of itself. But here's where it gets
crazy. Yes, right. We need like a banner, a matter, no will to come in and say that. Yeah, totally.
So they take the slime mold and break it apart and fuse it together with other slime molds that
have never been exposed to this noxious stuff before. They're called naive and the other ones
are called habituated. And those naive ones, when they encounter this noxious stuff like a salt
bridge for the first time, they don't approach it with trepidation. They go right across it as
fast as the habituated ones that it's fused to. Yeah. This is really weird because this is the
first time this stuff's encountering it. And they think that somehow the habituated slime molds
are passing on the information like, no, no, we know it's gross, but it's actually fine to the
naive slime molds. And they figured out, Chuck, that it doesn't matter if you take three habituated
slime molds and fuse them with one naive slime mold or take three naive slime molds and one,
just one habituated slime mold, it's going to approach us and move across it just as fast as
in either situation. Yeah. And then they also sort of figured out how long this took. So
the naive slime molds, they separated after an hour of fusion with those habituated, I'm going to
call them in the no molds. Okay. And it forgot. It forgot that the coating was harmless and it
sort of had to approach it with a little more trepidation. But if they had been fused for three
hours or more and then separated, it remembered. I mean, it technically can't remember, but they do
but they do have this weird sort of memory that works. And I think they even figured out
some of this snail trail stuff that they leave behind acts as sort of like a spatial memory
because they come across this snail trail and say, oh, someone's already been here before me.
Right. So there's no reason to go research this area because there clearly wasn't food there.
Yeah. And again, here's your 10 minute reminder that slime mold don't have brains or neurons.
So all of this is just astounding stuff that we're still trying to get to the bottom of.
Like that habituation thing, they're like, we don't know. We have no idea, but we're going to go
find out and maybe in 10 years we'll be able to explain it. Right. So eventually, you know, the
people that are hip to the slime mold thing are like trying to spread the word and be like,
this stuff is really amazing. They're doing TED Talks on it. It was a really good TED Talk on
it in fact. And some coders said, hey, wait a minute, you know, they're doing all this amazing
stuff like the overlay of the Tokyo subway and it's lining up perfectly. What if we actually
generated code of the slime mold and kind of reverse engineered it and we could see what
that looked like and how we could use it. So yeah, this one artist named Sage Jensen basically
figured out or took, I don't know exactly who figured out exactly what the slime molds
algorithms were, but somebody wrote them down and Sage Jensen came along and turned them into C++
code and basically ran these things. It's like algorithms and found that these fractals started
forming that look essentially just like slime mold moving across a petri dish in search of food,
which is pretty cool in and of itself. It was an art project basically, but someone on a team
of astrophysicists heard about Sage Jensen's work and they used it when they were stumped
trying to figure out how to map the invisible matter that makes up basically the structure
of our universe. If we can just crack that nut, we'll understand the universe exponentially
better than we do now, but we cannot figure out how to do it. And so just like with the ancient
roads between the Roman cities or the Tokyo subway map, someone figured out to use slime mold to
basically try to create the structure of the universe, these invisible filaments.
Yeah, these filaments that came out of the Big Bang. So I guess they went back to Sage Jensen and
said, first of all, Sage, you use C++ code, isn't it really just B minus code if we're being honest?
And he said, that's not how it works. Get out of my office.
That was a great coding joke.
Thank you. It's my only coding joke. And I just made it up.
It's the only coding joke, I think.
No, I think it's not a bug, it's a feature.
Isn't that one?
Oh, that's true. True dat.
Old timey. So yeah, they went to Sage and they said, you're an artist, but this is pretty amazing.
I think we can apply it here. And they modified it and what they did was, and of course, there's
always oats involved, they put a model in place with virtual slime mold cells and they put it
on a map with 37,000 real galaxies and they used, I guess, virtual piles of food to represent the
galaxies and the bigger the galaxy, the bigger the pile of food. And so they did this modeling
through the coding and had the virtual slime molds seek out the most efficient way to reach this.
And I guess in theory, they're hoping that they get a sort of map of the universe out of it.
Yeah. So when the slime mold was finished, they all stood back around, that's amazing.
How accurate is it? And they all just realized that they had no idea how to verify it.
But no, surely, I think what they're doing is they're taking this as an initial
guide and then they'll go back and try to figure out how to verify it. And maybe the slime mold
did figure out the most efficient way to link together these galaxies, but that would be...
I can't even put a word on that of how impressive that would be if the slime mold recreated how
the universe is invisibly linked together, the structure of it, you know? What if slime mold is
God? What if we're asleep right now and this is all just one dream, Chuck? The other cool thing
they figured out with the slime mold moving around is when they were researching them,
they found that those mazes that they were running them through, they went even faster through the
maze when they had some sort of noise, like a bright light or something. Like we said,
they like to go away from things they don't like. And that negative input of that light
basically made them say, all right, let's pick up the pace and make these decisions quicker
and get to that food. And stop fussing around. I don't like this light staring at me.
I think we kind of blew some minds today. I think so. My mind's definitely been blown.
Did you want to cover the Amazon thing? Nope. Okay, good.
That's it for slime mold unless you got anything else right now, do you?
I got nothing else.
We'll have to revisit this in 10 years. And thanks to Dave Ruse for helping us with this one.
And since I said Dave Ruse, I think Chuck, it means it's time for a listener mail.
Hey guys, I'm going to call this night trap response.
I just laugh every time I hear those words together now.
Oh no, night trap.
This is from Aaron. Hey guys, just finished the night trap video game show.
Thanks for bringing it to everyone. I own the 25th anniversary edition.
Like you said, it's not a good game, but has its moments.
One other game worth noting is called Double Switch.
It's of the same style and video camera control quality, and it started Corey Haim.
Perhaps arguably a little better game, but still had the same thing going on really.
I'm sure your research finds lots of things that don't quite make it into the final show.
Aaron, we did not know about Double Switch, so nice work there.
And Aaron says, I've listened to so many shows that feel that Chuck and I
are some sort of long lost brothers separated at birth.
Generally agree with just about everything he says, and I'm always fully entertained.
It would be nice to meet you guys if you ever get another tour started and make it back to Michigan.
Keep up the good work. I'll finish your book.
And I have the pre-order poster in my office, and I've converted friends and family.
So that is from Aaron in Michigan, and we're definitely going to start touring again.
I would say probably next year, although we haven't really talked much about it.
No, but we need to. It's definitely starting to get to be time to get talking, I guess.
Although, I gotta admit, I have not missed the traveling.
I've missed being on stage, but not the traveling part.
Well, you know, that's what they say. That's what rock stars say.
It's not the heat, it's the humidity.
No, they say you get paid to travel. You don't get paid to play shows.
I've never heard that before, but it really makes sense.
If you can figure out how to get paid for both, then you're really doing something right.
Good stuff, yeah. And if we get back to Michigan, we've already done Detroit.
We've had a lot of calls over the year for Ann Harbour, so maybe that's where we go.
Yes. Well, who is that again?
Aaron.
Aaron, that's what I was going to guess.
Thanks a lot, Aaron. That was a great email.
Thanks for the Corey Hame reference and all that stuff.
And if you want to get in touch with us like Aaron did,
you can send us an email to stuffpodcastsatihartradio.com.
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