Daniel and Kelly’s Extraordinary Universe - Listener Questions #27
Episode Date: January 15, 2026Daniel and Kelly answer questions about birthing multiple species, mental imagery, and face mites!See omnystudio.com/listener for privacy information....
Transcript
Discussion (0)
This is an I-Hard podcast.
Guaranteed Human.
Hey, it's Joel and Matt from How to Money.
If your New Year's resolution is to finally get your finances in shape, we've got your back.
Prices, they're still high.
And the economy is all over the place.
But 2026 is the year for you to get intentional and make real progress.
That's right.
Yeah, each week we break down what's happening with your money, the most important issues to focus on.
And the small moves that make a big difference.
Kick off the year with confidence.
Listen to How to Money on the IHeart Radio app, Apple Podcasts, or wherever you get your podcasts.
Hi, Kyle. Could you draw up a quick document with the basic business plan? Just one page as a Google Doc and send me the link. Thanks.
Hey, just finished drawing up that quick one page business plan for you. Here's the link.
But there was no link. There was no business plan. I hadn't programmed Kyle to be able to do that yet.
I'm Evan Ratliff here with a story of entrepreneurship in the AI age. Listen as I attempt to build a real startup run by fake people.
Check out the second season of my podcast, Shell Game, on the IHeart Radio app or wherever you get your podcasts.
A man with Down syndrome tries the impossible, the grand slam in turkey hunting.
Four 53 hits, we're legal shooting light.
And he gives us this one last chest.
And he pitches off.
And when he pitches off, he flies right into the gun barrel.
I said to the cameraman, do you have him?
He said, shoot him.
I said, Justin, shoot.
You can download this.
This episode and others from Lines and Tines with Spencer Graves on the IHart Radio app, Apple Podcasts, or wherever you get your podcasts.
All right, son.
Time to put out this campfire.
Dad, we learned about this in school.
Oh, did you now?
Okay.
What's first?
Smokey Bear said to.
First, drown it with a bucket of water, then stir it with a shovel.
Wow.
You sound just like him.
Then he said, if it's still warm, then do it again.
Where can I learn all this?
It's all on smoky bear.com.
with other wildfire prevention tips,
because only you can prevent wildfires.
Brought to you by the USDA Forest Service,
your state forester and the ad council.
One mom gives birth to two species.
Hit the news today.
Evolution, you're crazy.
That's all I have to say.
Do physicists see the universe in their mind's eye?
Or is it easier to understand it if they're mentally blind?
Mites live on your face and make there at night.
Why would evolution do that?
It's just not right.
Whatever questions keep you up at night, Daniel and Kelly's answers will make it all right.
Or it'll creepy out even more.
Welcome to Daniel and Kelly's extraordinary universe.
Hi, I'm Daniel.
I'm a particle physicist, and I think the universe is beautiful and creepy.
Hi, I'm Kelly Wintersmith.
I study parasites and space, and I think the universe is also beautiful and creepy,
and sometimes creepy is beautiful, and it's all complicated.
Have you met a parasite, Kelly, where you're like,
that's too gross.
I wish this didn't exist in the universe.
Or can you find some beauty in every single wriggly, crawling, disgusting thing?
I can find some beauty in everything,
but I would rather not be in the room with Ascarus Lumbroquoities.
It's a really long, really thick nematode.
It really grosses me out.
And when we talked about screw worm a couple weeks back, maybe a couple months back now,
I'm still scarred from that conversation, yes.
Well, I looked at the photos.
And that was...
Don't do that, people.
No, nobody else did that.
We actually had a listener write us to say they did that.
And they were like, I should have listened to you when you told me not to.
I have not Googled screw worm.
And I think I protected my mental health for that reason.
Yes.
Do not Google screw worm.
It is super gross.
So, yeah, there's some parasites that I don't want to be in the room with.
I once watched a presentation.
I was studying a parasite that lives on the brains of California killyfish.
And so I spent like literally all day working with brains.
But then I was watching an anthropology talk and they went to a country that was like selling
monkey brains and there was a table filled with monkey brains.
And I was looking at just the picture and the room started to spin.
Whoa.
And I was like, I'm going to throw up.
And I was like, but I can't have everybody see me throwing up over brains.
I work on brains.
And anyway, I like just kind of looked down and hoped nobody could see.
see me and I managed to get through it. But it's weird the things that set us off. The universe
certainly sets us off. And I have the same kind of reaction to, you know, astrophysical stuff.
On one hand, a supernova is amazing. On the other hand, it could like sterilize a whole portion of
the galaxy with incredible radiation, right? It's terrifying. The universe is beautiful and incredible,
but also violent and destructive and crazy. So it is an extraordinary universe we live in, isn't it?
It is. And it's also, I got to say, a confusing universe we live in. And that kind of brings us to our first question, which was really hard to unpack.
This question was an amazing question from a listener, Jamie, who often writes us and sends us articles to be like, does this make any sense?
And it's always fun to dig in. And this paper was particularly fun. So the headline is, one mother for,
two species via obligate cross-species cloning in ants.
Whoa, one mom keeping birth to two different species.
I thought that was impossible.
Anyway, let's hear Jamie's question and then dig in.
Hello, professors.
This is Jamie Feffer from Westfield, New Jersey.
I would be grateful for your help understanding an article that I read in the New York Times.
It reports on a study in nature where scientists said that queens from one species of ant
produced male offspring of a different species.
The scientist then said that it's like a human having chimp babies
and then using the babies as a source of sperm
for giving birth to human chimp hybrids as a source of labor.
What on earth is going on here, please?
It sounds like a chapter from one of Professor Kelly's books.
Thank you very much.
All right, Kelly.
So set us up for why this is a fascinating question.
My understanding of what a species means is that individuals can mate and give birth to live offspring that isn't sterile.
And so how can you give birth to two different species?
How is that possible?
Yeah.
It's crazy, right?
So, okay, so you can get like a donkey and a horse.
They can mate together and make a mule.
And the mule is sterile.
And so you can get like pretty distantly related species that mate and produce something different.
Like, for example, my dog has chihuahua and gerrilla.
and Shepherd ancestry, and nobody knows how that happened.
And I also won't suggest Googling that.
But, you know, it did happen and he exists.
Yeah, yeah, yeah, right.
Don't think too hard about it.
But so those are different breeds, not different species.
And so the equivalent here would be like, you know, so I gave birth to two human children.
It would be like, I gave birth to one human children.
And then the next one was a chimpanzee.
And that's confusing and unexpected.
I mean, you always expect every child is going to be different, but not that different.
That's right. That's right. That's pretty different. And the species, so we're talking about ants in this example, and species one, this is the species that gives birth to two species.
She, the queens not only give birth to their own species, as you would expect, but they're also able to give birth to males of a different species that they've been separated from for five million years.
Wow. All right. So this is like dogs give birth to dogs and occasionally a cat.
Yes, right. I mean, I don't know how long dogs and cats diverge. That's probably more than 5 million years. But yes, your point stands. And so, okay, so here's what's happening. So first, ant mating systems are crazy.
Right. And we're not going to go into loads of detail because it's super complicated. But what you need to know is that females are diploid. So what that means is that they have two sets of chromosomes.
Just like humans, we have two sets of chromosomes.
But to make males, they only have one set of chromosomes.
So a female doesn't have to mate with another male if she wants to lay dude eggs.
She just takes one set of her chromosomes, sticks them in the egg, and now you've got males.
So she doesn't have to mate.
She can make males on her own.
But to make a female, she needs a contribution from another member of her species.
That's right.
So to make a female worker, she needs to mate with another.
male. But having these complicated relationships between the parents and the kids, doesn't that
mean that, like, the siblings' relationships are complicated and, like, your evolutionary interests
are intermingled in complicated ways? If I remember, like, ants have really complicated sibling math.
Yeah, they do. Okay. So the bottom line is that the sisters share about 75% of their genetic material
with each other, whereas usually sisters share about 50%. So, like, human sisters share 50%, you're saying?
That's right. Yeah. And aunt sisters share 70%.
And we think that this plays a role and why ant colonies work so well together.
So you can think of ant colonies as like a super organism.
You've got the queen who's laying a bunch of eggs.
And then all of the females work to support the queen.
And you would maybe not expect such selfless behavior unless individuals were super
closely related to each other, which means that when the queen is making a lot more babies,
they're essentially making individuals who are very genetically similar to you.
you. And so from a genetic standpoint, and from an evolutionary standpoint, this is great news. So maybe
you're willing to not mate because your mom is making so many super genetically related sisters and it's
awesome. Does that kind of make sense? Mm-hmm. That makes sense. Yeah. Okay. So that explains like how
the siblings are related to each other. Why do we need to understand that to understand how you can give
birth to another kind of species? Okay. So the thing that you want to know is that this aunt that was all
over the news recently. When she's giving birth to a new species, she's giving birth to sons in
particular. Okay. And so here's what happened. If you're in Europe and in Asia, you will find these two
species of ants. One of them is called mesor ibericus, and one is mesor structor. But we're
never going to keep those straight. So I'm going to call them species one. That's ibericus. And species two
structure. All right. In part of their range, they overlap. And in part of their range, they don't.
So there's some areas where you just find species one, some areas where you just find species
two, and some areas where you find colonies of species one and species two. In addition to all
of the ant reproductive weirdness, with the females being diploid and the males being haploid,
this system has another weird trait,
which is called sperm parasitism.
So here's what happens.
The workers in the nest are females,
but instead of mom mating with a male of her species,
mom mates with a male of a different species.
What?
Right.
So they're closely related enough
that they can still mate with each other,
but they produce, I believe, infertile offspring
that become workers.
And so why would that evolve?
The reason we think that that evolved
is because, yes, it's nice
that all the sisters are 75% related to each other,
but every once in a while,
one of the workers will get it in their heads,
and I'm being super anthropomorphic here,
but they'll get it in their heads
that maybe it would be better
if they just laid their own eggs.
What?
And now you've got a competitor with the queen.
But if all of your workers
are these hybrids that are sterile,
they can't make it.
their own eggs anymore. And so the queen essentially has this extra layer of control over her colony
because none of her workers are even able to compete with her. It's just not even a question.
Fascinating. Yeah. And so there are, you know, a handful of different ant species we know of
that do this thing called sperm parasitism where they make these hybrid sterile workers by mating
with males of a different species. And why exactly is it called parasitism? I think the idea is that
So for species two, the males that are impregnating the queen, they're essentially wasting their sperm.
So they impregnate the queen of species one.
Yeah.
And all of those offspring are sterile, so they don't go anywhere.
So the males of species two have made this sperm, paid the cost to make it, and it's genetically, evolutionarily not going to end up contributing to more offspring for them.
And when Jamie asked you this question, do you think he knew there was a parasite angle on it?
Or is that just like a happy bonus for everybody?
I don't know.
It might have just been a happy bonus, but I'm excited either way.
Jamie knows us pretty well.
So maybe this was a gift for me.
I didn't realize that even sperm can be parasites.
That's incredible.
Oh, no, no, no.
The sperm is being parasitized.
Oh, right.
Yeah, yeah.
So the queen is essentially like extracting the sperm for her own purposes,
but not benefiting species too.
Is there an evil cackle that happens along the way, you think?
Eh-ha-ha-ha.
Because, you know.
Well, no, but they're little ants, so it's got to be a little high-pitched voice.
Try that, Daniel.
I can't do that.
I can't do that.
I'm like, he-he-he-he.
That's as high as I go.
Okay, well, all right, so that was amazing.
That's already weird, okay?
But so for Species 1, it has now actually become a requirement that the queen mates with another species.
She can't produce these workers anymore unless she finds species two, males.
Hmm. The thing you thought you were going to do just once turns out to be a habit and then now you can't live without it.
I know. That's right. We've all been there. And so for me, it's coffee. But so. For other people, it's sperm paraticism.
That's right. That's right. To each their own, right. So, okay, so you might remember that I told you that there are areas where you only find species one or you only find species two, right? So if species one has to mate with species two,
how does species one manage to persist far away from species two?
Yeah.
And there's one spot where it's known that there's a thousand kilometers
between the nearest species one and species two nests.
Hmm.
All right.
So there's no queens of species two in the area.
But if you find a species one nest and you dig it up,
you'll find that there are still hybrid individuals in there.
So there's still the hybrid workers.
And so the question is,
how the heck is she managing to produce these hybrids
when there's no males of species two around?
Yeah.
The answer is going to be that she makes species two males.
Which is crazy, right?
So let's go through the process
that the scientists went through to sort of study this.
So first they opened up species one nests
and they looked very carefully at everybody who was in there
in an area where you shouldn't find any species two.
And they did find some species two males.
in the nest.
And they were like, okay, that's really weird.
And so then they looked at the genetic information inside of species two, and they found
that species two had mitochondria from species one.
And if you know anything about mitochondria, you might remember that mitochondria are only
inherited from mom.
Right.
So that means that these species two males must have come from a mom of species one.
because they've got her mitochondria.
And they went over to areas where you find species two normally,
like in their own sort of colony.
And they confirmed species two males usually have mitochondria from species two moms.
And so this was weird.
So you can tell the difference between species two males that come from species one or species two by their mitochondria.
Yes.
Wow.
Yeah, very cool.
But they wanted to make 100% sure that the queens were the ones who were,
laying the eggs that had the males.
And so they took queens and workers and they brought them into the lab.
And some of the workers that they brought into the lab, these were from Species 1, they went
ahead and they did lay some of their own eggs.
And what they found was that 9% of the eggs made by queens of species 1 produced males
of species 2.
Amazing.
Right.
Super weird.
And when the workers of species 1 made some eggs, none of them were species 2.
It's just the queen who's doing this.
Okay.
So then they monitored a colony that they brought into the lab for a year and a half.
And they found that the mom produced species one and species two males.
They both survived to reproductive age.
And they looked genetically and they confirmed, okay, one queen is definitely making species one and species two males.
How is she doing that?
Yeah.
So one possibility here is that a lot of invertebrate.
are able to store sperm.
So you can mate with a male,
and a couple months later,
you can be like,
oh, I'm going to take that sperm that I was storing,
and now I'm going to fertilize my eggs,
and even though there's no males around,
I can go ahead and have some extra babies.
I didn't know it lasted that long.
I thought it had a short lifespan,
like 24 hours or 48 hours or something.
I don't know exactly how long it is,
but it's more than 24 or 48 hours.
But by having them in the lab for 18 months,
they were able to, like, pretty confusing.
inclusively say, okay, the females probably aren't like flying a thousand kilometers to go find a species two male, mating with him and then coming back. Like, she's been in the lab the whole time. Or maybe they're like actually aliens and they have wormhole technology and they're like teleporting over there. That's right. Not a hypothesis they considered?
No. You know, they didn't have a physicist on the team probably. I know that you always need a physicist, right? Maybe. Maybe. Maybe. Oh, you're not even going to agree with me on that one, huh? Yes. Hedge your bed on that one. All right.
Probably. Almost certainly. At least we should consider having a physicist on every project.
Sure. Right. And are you going to consider having a biologist on every project to make sure you all stay down to Earth?
I already do. Oh. I already do. Of course. Okay. Okay. All right. So they saw this essentially happen in the lab and controlled conditions so they knew that she was actually generating species to herself.
Yes. Right. They also looked at like genetic diversity of species two males in their native range and in these species one.
nests, and they were very low diversity, which you would expect, you know, if there was something
weird happening and the males were just like a very small subset of their genes were being
passed through species one over time. So here is what they think is happening. Females are
somehow cloning males. And all cloning means, and you might remember this from a past conversation
where we talked about cloning, like in our episode about the dire wolf that was made by colossal. So
essentially what you do is you take an egg and you like extract the genetic information from the egg,
except you can leave the mitochondria in there, and then you put new genetic information into that egg,
and then what hatches is the species or the individual associated with the new genetic information.
Does that make sense?
So somehow the females seem to be taking genetic information from species two, plopping it into their own eggs, and producing species two males.
They don't know exactly how that's happening.
But the way that it could work in theory is that you've got a queen from species one in an area where the species overlap.
She mates with a male from species two and stores that sperm.
She migrates away from the area where their species overlap and goes and starts her new colony somewhere completely different.
She uses that sperm to make males.
And then she mates with those males to get her hybrid workers.
Mm-hmm.
That's pretty icky, though.
She's like meeting with her own sons.
Yeah, no, I mean, nature has a lot of uncomfortable stuff happening.
I'm sure we can find some beauty in that also.
Nope.
And so, nope, moving on.
And so hard no.
So, okay, so she's got, she can mate with these males that she made, and now she's got her hybrid workers.
But when it's time to make a queen, a new queen, she can mate with the other males that are of
species, and then those queens can mate with the males of species two that are already in the
colony with them.
They can acquire that sperm, and then they can bring that sperm with them even farther away
from the initial area that they lived.
So even farther away from where you usually find species two.
So this is a mechanism for extending your colonies beyond the boundaries of species two.
They like need species two, but it's not always available.
so they'd evolve this mechanism to basically cut them out of the loop and make them themselves.
Right, yes.
And then they also have this amazing ability to, like, instead of combining genetic information,
they just take the male's genetic information and clone them.
Incredible.
Which is totally crazy.
And to be honest, the authors were very clear, we do not know the mechanism to explain what's
happening here.
And so this is just like a hypothetical.
But they compared it to domestication.
It's kind of like domesticating species too and sort of take.
it with you for your own purposes. And I'm not quite sure that I buy the comparison, but it's an
interesting way to think about it. Yeah, that is fascinating. They're sort of raising it and co-opting
it for their own purposes in that sense. But when we domesticate cats, there's no like
interbreeding. I mean, not usually that I'm aware of. Oh, oh, more absolutely not okay.
I mean, when people say cat lady, I don't think that's what they mean, right? Oh, gosh.
Oh, not safe for work. So the authors propose a new word, changing the subject. The new
word is xenoparis, meaning they, quote, need to produce individuals of another species as part of
their life cycle.
Wow.
Zeno means like strange or different and parity means like to give birth.
So anyway, giving birth to something different.
So does this mean we should again broaden our concept of what a species is, that the lines are
even fuzzier than we thought before, the biology is amazing us and how messy it is again?
You know, so you, let's let's hold that answer because I am working on a whole episode on how
How do you define species and all of the, like, weird things evolution does that makes our job really difficult?
It's going to be like a philosophical discussion, which I think will be right up your alley.
You love it?
Yep.
Yeah.
Yes.
So tune in for the answer in a future episode.
And let's see if Jamie feels like I managed to figure this paper out.
Wow.
All right.
Let's hear from Jamie.
Thanks, Jamie.
Thank you very much for explaining the article.
I'm glad there was at least some form of Paris.
Cytism in there for Professor Kelly.
I look forward to your episode on defining a species.
A story like this makes me wonder if maybe our categories are too rigid or perhaps they
don't apply to all creatures equally.
Thanks though.
I'm really grateful for the explanation.
New Year, new goals, and in this economy, a better money plan is more necessary than ever.
I am Matt and I'm Joel.
We are from the How to Money podcast and every week we help you to spend smarter, save more, and make sense of what's going on out there.
If you want 2026 to be the year you finally feel in control of your money, we're here to give you the tools and advice to help you make it happen.
Listen to How to Money on the IHeart Radio app, Apple Podcasts, or wherever you get your podcasts.
Hi, I'm Dr. Priyanko Wali.
And I'm Hurricane DeBolu.
It's a new year.
And on the podcast's health stuff, we're resetting the way we talk about our health.
which means being honest about what we know, what we don't know, and how messy it can all be.
I like to sleep in late and sleep early.
Is there a chronotype for that or am I just depressed?
We talk to experts who share real experiences and insight.
You just really need to find where it is that you can have an impact in your own life and just start doing that.
We break down the topics you want to know more about.
Sleep, stress, mental health, and how the world around us,
affects our overall health.
We talk about all the ways to keep your body in mind, inside and out, healthy.
We human beings, all we want is connection.
We just want to connect with each other.
Health stuff is about learning, laughing, and feeling a little less alone.
Listen on the IHeart Radio app, Apple Podcasts, or wherever you get your podcasts.
A new year doesn't mean erasing who you were.
It means honoring what you've survived and choosing how you want to grow.
It means giving ourselves permission.
to feel what we've been holding and knowing that it's okay to ask for help.
I'm Mike Dalarocha, host of Sacred Lessons.
This podcast is a space for men to talk openly about mental health, grief, relationships,
and the patterns we inherit, but don't have to repeat.
Here, we slow down, we listen, we learn how vulnerability becomes strength
and how healing happens in community, not in isolation.
If you're ready to let go of what no longer serves you
and step into the year with clarity, compassion, and purpose,
sacred lessons is your companion on your healing journey.
Listen to Sacred Lessons with Mike Delo Rocha
on America's number one podcast network, IHeart.
Follow Sacred Lessons with Mike Delocha
and start listening on the free IHeart Radio app today.
Hey there, this is Dr. Jesse Mills,
director of the men's clinic at UCLA Health
and host of the Mailroom podcast.
January guys everywhere make the same resolutions. Get stronger, work harder, fix, what's broken?
But what if the real work isn't physical at all? To kick off the new year, I sat down with
Dr. Steve Polter, a psychologist with over 30 years experience, helping men unpack shame,
anxiety, and emotional pain they were never taught to name. In a powerful two-part conversation,
we discuss why men aren't emotionally bulletproof, why shame hides in plain sight, and how real
strength comes from listening to yourself and to others.
Guys who are toxic, they're immature, or they've got something they just haven't resolved.
Once that gets resolved, then there comes empathy and compassion.
If you want this to be the year, you stop powering through pain and start understanding what's underneath.
Listen to the mailroom on the IHeart Radio app, Apple Podcasts, or wherever you get your favorite shows.
All right, so from ants to Ant Fantasia, which I, you know, reliably produced incorrectly, I'm sure.
Me, ouch on that one there, Kelly.
All right, so we are answering questions today.
We love getting questions from listeners.
If you have a question about the nature of the universe or really anything about this beautiful, incredible, disgusting, cosmic violence that we have and that we live in.
Please write to us to questions at danielandkelly.org.
We will get back to you.
And here's a question about visual imagery in the mind and how it enables or disables people to do physics.
Hi, Daniel and Kelly.
I recently found out that I have a trait called Afantasia,
which is the inability to consciously pull up visual imagery in my mind.
I do dream, though, but finding out others can picture an apple in their head
with their eyes open or closed was mind-blowing.
And I've gone most of my adult life without even knowing this.
Imagine my continued surprise when I discover that it's not limited to visual information
but can also include auditory, smell, and even taste.
I enjoy reading sci-fi and fantasy,
but my experience and your experience must be worlds apart.
And that leads me to my question.
As a physicist, how do you use imagery on a day-to-day basis?
Are you writing equations on a chalkboard?
And if so, are you holding the chalk?
Thanks so much.
Oh, my gosh, this is such a fascinating question.
And this question reminded me of Temple Grandin.
So when we got our son's autism diagnosis, I read every biography I could find written or autobiography written by someone who's autistic so that I could try to understand like what his life would be like.
And I guess Temple Grandin has this amazing ability to sort of imagine what it's like to be.
So she works with livestock and tries to create ways to make their lives better and to have more humane practices.
and she's amazingly good at like envisioning what it must be like to be a cow and what it is that they're seeing.
And she clearly can imagine things way better than I can.
And it sounds like this listener is on the other side where they're able to envision even less than I can.
And I think this spectrum is totally fascinating.
It is really amazing.
And it's something we only understood like in the last, you know, 10 or 15 years that there is a variation between people and their mental imagery.
Essentially, we've been communicating with each other about this kind of stuff for thousands of years and not realizing that we're having very different experiences internally.
And I read this excellent article in The New Yorker very recently about a Fantasia from late October.
I really recommend it.
And it begins with a story of a physicist who in his late 30s or early 40s finally realizes that when everybody else is talking about having images in their minds, they're being literal about it.
He thought forever that everyone was just sort of like using metaphors.
Like, I mean, you say you're thinking about that.
You're seeing that in your mind, but you're not literally like seeing it, right?
And it was only like recently the dude is like totally grown up when he realized people are being literal that some people can close their eyes and imagine an apple from yesterday and like see it be green and shimmery and, you know, really visualize these things.
He thought everybody was being figurative.
What do you think it would be like to realize that as an adult?
I mean, I think animal behaviorists think about this kind of stuff all the time.
Like, you know, that animal can do something I can't.
But it must have been a crazy moment to realize.
Yeah, well, I think everybody is a little different.
And as you're growing up, you discover, like, wow, everybody thinks that swimming is fun.
And I hate the beach.
Or everybody else loves chocolate, but I think it's gross.
Or watermelon tastes like cilantro.
So it's not unusual to find something that makes you different.
But it is amazing how such fundamental parts of what we think of the human experience can be different from person to person.
And, you know, this is a question like philosophers have been debating for thousands of years.
Like, what is it like to be a bat?
Do we see the same color red?
And so it's sort of incredible that it's only recently people have been studying this in detail.
And this article goes into the history of the study of it, which is only about 150 years old.
There's a guy Francis Galton, who's also sort of a famous.
eugenicist, did some early research and found a bunch of examples of scientists who, he says,
quote, have feeble powers of visual representation. So scientists in particular tend to not be able
to imagine things in their minds, which I think is, you know, the impetus for today's question.
And that's surprising because it feels like visual imagery is so important to physics. Like,
think of the story of Einstein coming up with relativity. He says that he,
was imagining, or trying to imagine pulling up alongside a photon, and in realizing that that was
impossible, he understood how photons have no reference frame. And Einstein's work is filled with
these, like, examples of trains and passing each other in light. And clearly, he's imagining
visual situations, right? And in chemistry, there's lots of examples, like, how did somebody figure out
the structure of benzene? They had, like, a dream of a snake biting its own tail. It's like very
vivid visual imagery. So it's easy to imagine that having vivid mental
imagery would be essential for doing science, right?
Yeah, but Galton was wrong about a lot of things.
Was a lot of things, a lot of important things?
Was he wrong about this too?
So we don't have enough data to know, and the fields has really gone back and forth.
Like, in the early 1900s, the widespread belief among psychologists was that mental
imagery didn't exist.
There's a movement of behaviorism, led by a guy named J.B. Watson, who says, quote,
what does a person mean when he closes his eyes or ears and says, I see the house where I was born.
Touching, of course, but sheer bunk.
We are merely dramatizing.
The behaviorist finds no proof of imagery in all of this.
So psychiatrist felt like, no, you're not really feeling these things.
You're not really seeing these things, which is bizarre because some of them must have been experiencing it, right?
But, you know, that was just the movement.
Science is weird that way.
It follows these trends and these fads.
And eventually it zigzags towards a truth.
but it can go down some weird rabbit holes.
Yeah, and it can get stuck in them for a while.
Yeah, and so it was only the early 2000s when a Scotsman had a cardiac procedure,
and after that discovered he could no longer picture anything.
What?
Like, he used to be able to, and then he had this procedure done,
and all of a sudden he, like, couldn't have a mental image of, you know, his wife's face when she wasn't there.
He, like, lost this ability.
What was the tie-in with the cardiac procedure?
Did part of his brain not get enough?
oxygen as part of the procedure? Yeah, so he went to a neurologist, and this neurologist had always
been interested in this kind of stuff anyway, and did a study and showed that part of this guy's
brain had been weakened, probably because of this cardiac event. And he was trying to call these
mental images up, but that part of his brain was not activating. So he found the part of the brain
that was like activating when other people were making mental images, and in this guy was now
failing. And so he wrote an article about it. This is like a,
a new discovery. And then a bunch of people wrote in and they were like, oh my gosh, that describes
my experience. And so it turned out this wasn't just like one random Scotsman who had an injury,
but it was fairly common. And so he decided to call this Afantasia. Fantasia was defined by
Aristotle as the ability to conjure an image in your imagination. So a fantasia, meaning you can't
do it. And Carl Zimmer wrote an article about this in Discover magazine, which got a lot more attention
and then a lot more people wrote in.
And they were like, wow, this is actually quite widespread.
Huge Carl Zimmer fan, let me just say.
I know.
And I love when science journalism helps propel the science, right?
Gets the right attention to it.
People are like, hey, everybody should know about this.
This is kind of a thing.
And a lot of people, it turns out, discover that they have this condition only when
reading about it or hearing about it described on the radio.
Like their whole lives, they had heard people talk about picturing things or
imagining things or visualizing beaches or whatever. And they just assumed that these were idioms,
that they were like kind of being hyperbolic, they were exaggerating really, that they weren't
really seeing it. And only when hearing this described that this was a condition that you could
have, that they'd been deeply and profoundly misunderstanding everybody else's experience.
I wonder if they're more likely to doodle. Because if I'm trying to keep track of things in my head,
but I couldn't do that. I feel like I'd want to doodle it out on paper to keep, and anyway, I'm
getting, this is amazing. No, it's fascinating. And in the article, they interview some artists,
and there are some artists who have a Fantasia, and they hear other artists say, like,
mm, the picture didn't come out as crisply as it does in my mind. And these artists with
the Fantasia are like, what are you talking about? And there's the opposite condition called
hyperphantasia, where you have like exceptionally detailed mental images, which sounds awesome,
but some people describe it as like graphic and inescapable, you know, where you like, if you
watch a horror movie, you just like can't escape having those terrible scenes in your mind.
You know, we don't fade the same way we do for others.
I can totally imagine that not being good.
Like those pictures of screw worm that I looked at, I've kind of forgotten them.
It would be awful if I could still see them right now.
Yeah.
Somebody with hyperfantias said that, for example, if somebody just like mentions skateboarding,
then he gets like an avalanche of vivid memories of every skateboarding experience he's
ever had, being stuck in virtual reality and having like a three.
360 degree video of a thousand skateboarding experience is forced on you. So he's sort of at the mercy
of what people say because his brain is so visual. That feels like two problems, though,
like being able to really visualize something and having too many memories coming in. That seems like
two things. Yeah, exactly. So this is something we're still understanding. It's like it's the brain,
so it's complicated. But it's amazing to me that it's only recently we've even recognized
that this is an issue, that there really is a difference.
And there's this meme that's going around now online.
You've probably seen it, which shows like a person with like a crisp image of an apple in their mind.
And then gradations all the way down to a person with no image at all.
And you should look at that and you should ask yourself like, what do I see in my mind's eye?
And there really has a huge spectrum.
There are people who just cannot visualize stuff in their brains.
And people can have like exceptionally crisp photo quality images in their minds, which might feel weird to you as well.
And I thought about this myself.
And I'm a very visual person.
I can really imagine a crisp apple, not quite photorealistic, but with a lot of detail.
How about you, Kelly?
What kind of images do you see in your mind?
I think I'm somewhere in between.
Definitely not photorealistic, but I can see stuff.
And this is fascinatingly connected to thinking about science, because we talked earlier about how it might be really important to have these visuals in your mind to do science.
But Oliver Sacks did this fascinating experience, which you'd love, Kelly, because it involves self-experimentation.
He had almost no mental imagery.
But then he decided to take heroic quantities of anthetamines.
And while he was doing this, he could see images in his mind.
It activated this part of his brain so he could do it.
But then he could no longer think about abstract stuff.
So it was sort of a trade-off.
So it might be the people who are exceptionally visual can't think as abstractly.
And people who think better abstractly can't think as visually.
And so to the question, like what's crucial for doing physics?
It might be that not being constrained by visual imagery makes you better thinking about complex things like 11-dimensional manifolds that you need to solve string theory, right?
Maybe being unshackled from the reality of our intuition, the dominance of our physical world and its implied limitations makes it easier to think about complex numbers and all sorts of crazy things, which a lot of us find counterintuitive because we don't see them reflected in our reality.
And so I think the answer to the question is that there's a whole spectrum of experience and there's different kinds of physicists.
Like for me, when I think about physics, I think very geometrically.
Even if we're talking about like weird abstract math, I like see it in my mind as shapes like fitting together or not fitting together or clicking or pulling on each other.
Like when I think about quantum fields, it's very visual and geometric.
And I always struggled with equations.
Like I can do the math, obviously.
I know how to manipulate equations, but I don't think in terms of.
equations. I don't look at an equation and understand intuitively. They have to translate it into
sort of geometric concepts in order to understand how the pieces are pulling on each other and how they
interplay with each other. So I think there's probably a whole different spectrum and different
kinds of brains are good at different kinds of things. And I'm glad that we have a diversity of brains
in physics and in biology and in the world. Absolutely. But now you've got me wanting a survey of
different fields and having them do that, that like gradient of photorealistic apple to
like hazy apple and seeing if different kinds of fields have different average scores on that test.
Yeah, right.
It would be fascinating.
Exactly.
But it's good that we have all these different kinds of brains.
I wonder how hereditary it is.
You know, if like if you have Apple pictures as parents, does that mean you can picture apples?
And if not and how random it is.
Anyway, it's amazing the way the world is and the way we image it and how bad we
are at understanding other people's internal experience. And what else are we not understanding
because we're using these clumsy words? Even within our own species. Right. And then you try
to figure out what's happening with another species. And it's amazingly understand anything at all.
Yeah.
Matt and I'm Joel.
We are from the How to Money podcast.
And every week we help you to spend smarter, save more, and make sense of what's going on out there.
If you want 2026 to be the year you finally feel in control of your money,
we're here to give you the tools and advice to help you make it happen.
Listen to How to Money on the IHeart Radio app, Apple Podcasts, or wherever you get your podcasts.
Hi, I'm Dr. Priyanko Wali.
And I'm Hurricane de Bolu.
It's a new year.
And on the podcast's health stuff, we're resetting the way we talk about our health.
which means being honest about what we know, what we don't know, and how messy it can all be.
I like to sleep in late and sleep early.
Is there a chronotype for that or am I just depressed?
We talk to experts who share real experiences and insight.
You just really need to find where it is that you can have an impact in your own life and to start doing that.
We break down the topics you want to know more about.
Sleep, stress, mental health, and how the world around us,
affects our overall health.
We talk about all the ways to keep your body in mind, inside and out, healthy.
We human beings, all we want is connection.
We just want to connect with each other.
Health stuff is about learning, laughing, and feeling a little less alone.
Listen on the IHeart Radio app, Apple Podcasts, or wherever you get your podcasts.
A new year doesn't mean erasing who you were.
It means honoring what you've survived and choosing how you want to grow.
It means giving ourselves permission.
to feel what we've been holding and knowing that it's okay to ask for help.
I'm Mike Dolorotcha, host of Sacred Lessons.
This podcast is a space for men to talk openly about mental health, grief, relationships,
and the patterns we inherit, but don't have to repeat.
Here, we slow down, we listen, we learn how vulnerability becomes strength
and how healing happens in community, not in isolation.
If you're ready to let go of what no longer serves you
and step into the year with clarity, compassion, and purpose,
sacred lessons is your companion on your healing journey.
Listen to Sacred Lessons with Mike Delo Rocha on America's number one podcast network, IHeart.
Follow Sacred Lessons with Mike Delocha and start listening on the free IHeart Radio app today.
Hey there, this is Dr. Jesse Mills, director of the men's clinic at UCLA Health and host of the Mailroom podcast.
Each January guys everywhere make the same resolutions.
Get stronger, work harder, fix, what's broken?
But what if the real work isn't physical at all?
To kick off the new year, I sat down with Dr. Steve Polter,
a psychologist with over 30 years' experience,
helping men unpack shame, anxiety,
and emotional pain they were never taught to name.
In a powerful two-part conversation,
we discuss why men aren't emotionally bulletproof,
why shame hides in plain sight,
and how real strength comes from listening
to yourself and to others.
Guys who are toxic, they're immature, or they've got something they just haven't resolved.
Once that gets resolved, then there comes empathy and compassion.
If you want this to be the year, you stop powering through pain and start understanding what's underneath, listen to the mailroom on the iHeart radio app, Apple Podcasts, or wherever you get your favorite shows.
Okay, we're back and we're answering questions from you, from listeners just like you, who had a moment of curiosity that they couldn't scratch themselves.
And so they wrote to us, and we are here to scratch that itch.
Well, and speaking of scratching, we're going to talk about little mites that live on your face.
Oh, boy.
All right.
So Lunar on Discord had this question for us.
Good morning, Daniel and Kelly.
How are you?
This is Lunar from Discord.
So my question is pretty simple.
Why does a thing like Demodex follicularum actually exist?
I understand nature is strange and life is beautiful, but why do the
things exist? Why do I now know that there are
itty-bitty little mites living on my face and getting jiggie with it all through the night?
It kind of sort of makes me want to bathe in pesticide.
So can someone put my mind at ease and just let me know, let us know, let the people know
that these things aren't causing us any harm and they might just very well be living out their best life.
So what's up with these little face invaders?
Thanks.
You know, I'm a big believer in scientific education and knowing stuff, but wow, I'm not sure I really want to know about all the gross stuff that lives on my face.
Too bad.
Here it comes.
Okay.
So, Demodex is a genus of mites, and mites are related to arachnidin.
So they're related to spiders and ticks, but like they're their own sort of thing.
And they live on our faces.
There are two species that you tend to find on your face.
Demodex follicularum and Demodex Brevis.
Folicularum lives in, like, our smaller hair follicles and, like, your eyelashes and stuff.
And so your hair follicles are like, you know, the holes where the hair shaft sort of goes in there.
They live inside of them.
There are a social species, and they eat skin cells that they find in there.
The other species usually lives near oil glands and stuff in hair follicles also, and they're
eating, like, the greasy stuff that are oil.
glands make. So does that mean that they're really small? They're like smaller than the width of a hair so they can
crawl into these follicles and have a snack? Super tiny. You can't see them. They're less than half a
millimeter. The brevis one is particularly small. So without a microscope, you can't see them. You can't
feel them. But if you have clear visual imagery, now you're thinking about them and you're imagining them
crawling all over your face. Oh, but they save the crawling over your face for nighttime. So right now,
they are in your pores eating their dead skin buffet and their grease buffet.
All you can eat dead skin buffet.
Woo-hoo!
But when you fall asleep, they come out of your pores and your follicles and they mate on your face.
They mate on your face.
They mate on your face.
I guess for some people, that's good news, you know, to eat your own.
I don't know.
There are so many jokes we could make here, but we're not going to because you're already imagining them, so we don't have to.
That's right. That's right. Okay. So we had a listener ask us in the past, how do pinworms know it's nighttime?
How do face mites know it's nighttime? I looked this up. And first of all, it turns out they can detect light. So probably even from inside your hair follicles, they can tell if the lights are on or the lights are off.
So they can just like notice it's getting dark and they're like, ooh, it's time for some romance.
That's right. That's right.
Somebody's turning down the lights, putting on the insect, putting on the algae.
That's right.
I'll be really trying.
I'll stop.
We are keeping that, Matt.
That's gold.
Oh, no.
All right.
Okay, so it could be the light, but they also, and this is sort of interesting, a couple episodes back, many episodes back now, maybe.
We talked about circadian rhythms, and we talked about how circadian rhythms are this, like, interplay between proteins that are made by your genes, and some of them are made more at night.
some of them are made more during the day,
and they help you keep these 24-hour cycles.
Somebody looked, a group of researchers looked at the genome of Demodex
that live on our face,
and they're missing a lot of the genes that you'd need
to make the proteins that make circadian clocks.
And so they think that actually the mites are sort of bathed
in the melatonin that we make.
And so instead of trying to do their own circadian clocks,
they're like, oh, the human is oozing melatonin.
Time for them to go to bed.
for me to get it on. And so they don't need to do it on their own. Anyway, that's just a
hypothesis. But there are other parasites that sort of cue into what host hormones are doing and
use that information for their own purposes. So they don't have their own internal clock,
but they have all these external triggers that tell them like when it's out green time.
Exactly. Exactly.
Can't get enough of your face baby.
Oh, gosh. All right. That's enough. That's enough. Okay. So,
So where do your mites come from?
This is an interesting question.
So actually, most people by the time they're adults have mites.
And a lot of kids have mites too.
And so somebody did a study to try to figure out.
So imagine that you have a family living together.
You have two moms and two kids.
The two kids, if they were breastfed by one of the moms,
they are much more likely to have her mites than the mites from the other mom.
Because another place where you find these mites is on nipples.
And so the mites probably like jump off the nipples and onto your face.
And so you get your face mites from your mom.
Wow.
And if you were to look at the other mom in that couple, her face mites probably are more like her mom's face mites.
Does that all make sense?
Amazing.
Yes, exactly.
Something else you can thank your mom for.
And are these bad in any way or are they good or are they just totally neutral?
Yeah, good question.
So other species have Demodex mites too.
of them can be sort of parasite-like, but it looks like our mites are usually not a problem.
And maybe they're sort of evolving in a trajectory away from parasitism.
But for most of us, we've got these mites on our face.
We'll never notice it.
But if you end up being immunocompromised, sometimes you will start having problems with
these mites.
If you're immunocompromised, it seems like they're able to reproduce even more.
And if you have rosatia, they can make your skin feel even more uncomfortable.
They don't cause the rosacea, but if you already have like a, you know, problem with your skin getting irritated, having a bunch of mites on your face is probably not going to help anything.
They also contribute to what I think is called.
Here's another opportunity for me to mispronounce something.
Love it.
Blufferitis?
Have you heard of blephoritis, Daniel?
Never heard of it.
Or maybe it's not pronounced that way, but it doesn't ring a bell.
Okay, it's probably not pronounced that way.
But so it's essentially like you get this like crusty stuff on.
your eyelids and they think that the mites living in your eyelashes could be contributing to that.
And this tends to particularly be a problem in elderly folks. And so, you know, this also could
maybe be an immunocompromise sort of situation contributing to it. But for most of us,
the mites aren't bad. It's amazing. You can have this whole ecosystem living on your face
and snacking on your skin and not really hurting you at all. They're just like friendly neighbors.
Yeah.
How do they benefit? Do they like help clean stuff up? Like all this dead skin, would it be bad?
if you didn't have somebody munching on it?
No, I don't think so.
I didn't come across anything saying that the mites are helpful.
And, you know, especially these days where we've got like soaps to wash our face,
we've got ways to exfoliate.
I don't think we really, they're not really contributing to the like cleanliness of our faces.
And you see similar things happening in dogs.
So dog species have their own Demodex mites.
And sometimes you'll get bald patches on puppies because their immune systems aren't good yet.
They're just developing.
And those bald patches will be area.
where the mites are sort of getting out of control.
But if you just wait long enough in a lot of cases, it'll clear up because the puppy's
immune system will mature and they'll get those mite populations back under control.
And that patch will sort of grow back in again.
Wow.
But Daniel, I bet you are wondering, does Demodex poop?
I was wondering if we could complete the DKEU bingo and have either poop or cannibalism.
So which way are we going?
We're going poop.
I didn't find any evidence that they eat each other.
And so, for a long time, the going knowledge was that Demodex doesn't poop.
They store up all of the waste that they make.
They only live about three weeks.
And so actually, if you live to be about 73 years old and your Demodex each live three weeks,
you're probably host to something like 1,200 generations of mites throughout your life, which is just crazy.
I have an input, output question.
They have inputs.
Yeah.
They have no outputs.
Are they just getting bigger and bigger and bigger?
Or what's going on?
Well, so the idea was, you know, three weeks is not a long time.
They just, they store it.
They do get a little bit bigger.
And then when they die, they just kind of like, you know, release everything.
So they just, like, die in a big poopy corpse in your face.
Yeah, that's right.
That's right.
But actually, some very good sleuthing in 2022 with some great photos found an anus.
Yay.
This is why you fund basic science people.
I want to use very powerful telescopes to look for tiny anuses.
Well, tiny anuses have been found.
They also found a tiny penis on their head.
So that's where the males have their weeners.
So anyway, all kinds of important information.
But we haven't actually answered the listener's question yet, which is...
Oh, yeah, I've lost track.
What was the question again?
Why?
Why would you have this horrible thing?
And I actually, I feel like it's obvious.
Like we are a super abundant species.
We are very close to our offspring.
You know, sometimes they sleep next to us.
We breastfeed them.
It is very easy to imagine transmitting this, you know, parasite or symbiont.
If it's not bad for us, like this critter from one organism to another, we are a super
abundant species.
And, you know, they're so tiny that we don't even know they're there.
So we're not attacking them or anything like that.
that. I mean, it seems to me like we are a great ecosystem for a little critter like this. And so,
you know. So you're why not, basically. Yeah, that's right. Yeah. Evolution fills any niche that it can
find that it's got a path to. And our faces were one of those paths. And is there like a whole
ecosystem there? Are there predators that gobble these things? Or do they live a predator-free
lifestyle? I don't know. That's a good question. Because they sound delicious.
Sure. I feel like they probably have parasites also that infect them or something.
Right. Exactly. Maybe they have face mites. Maybe they do have face mites.
It's face mites all the way down, isn't it? Oh my gosh. We figured it out. Yeah. So I didn't find any stories about them having parasites or predators, but I would love to know. And, you know, we are probably their biggest problem when we wash and exfoliate our faces. But they hang in there inside our pores.
Well, we have brought you up to speed to the forefront of human knowledge on face mites.
Let's check in with our listener and see if we have scratched the lunar's itch.
All right.
Hey, thank you very much for that.
Excellent answer, Kelly.
And I greatly appreciate knowing that these little creatures are just simply getting by.
It's still a little bit weird to know that they get up some interesting nocturnal activity.
At least someone's having fun.
And thank you very much, Daniel.
I will never listen to Barry White the same way again
without having a certain mental image of little mites
and their heads having fun on my face.
Thanks a lot, guys.
I appreciate it.
Keep up to good works.
You guys rock.
Thank you so much, everybody, for your questions.
We appreciate them so much.
There are so many topics that I would love to have the time to dig into.
And when you ask about them, I get to.
I appreciate you all so much.
We do. We love hearing from you. I love opening my email in the morning and seeing all the incredible diversity of curiosity and questions and wondering and joy. We love hearing from you that makes this podcast a conversation between us and you, not just between me and Kelly. So thanks everyone for joining in.
Thank you. Until next time.
Daniel and Kelly's Extraordinary Universe is produced by IHeart Radio. We would love to hear from you.
We really would. We want to know what questions you have about this extraordinary.
extraordinary universe. We want to know your thoughts on recent shows, suggestions for future shows.
If you contact us, we will get back to you. We really mean it. We answer every message.
Email us at Questions at Danielandkelly.org. Or you can find us on social media. We have accounts
on X, Instagram, Blue Sky, and on all of those platforms, you can find us at D and K Universe.
Don't be shy. Write to us.
Hey, it's Joel and Matt from How to Money.
If your New Year's resolution is to finally get your finances in shape, we've got your back.
Prices, they're still high and the economy is all over the place.
But 2026 is the year for you to get intentional and make real progress.
That's right.
Yeah, each week we break down what's happening with your money, the most important issues to focus on, and the small moves that make a big difference.
Kick off the year with confidence.
Listen to How to Money on the IHeart Radio app, Apple Podcast.
or wherever you get your podcasts.
Hi, Kyle.
Could you draw up a quick document
with the basic business plan?
Just one page as a Google Doc
and send me the link.
Thanks.
Hey, just finished drawing up
that quick one page business plan for you.
Here's the link.
But there was no link.
There was no business plan.
I hadn't programmed Kyle
to be able to do that yet.
I'm Evan Ratliff here with a story
of entrepreneurship in the AI age.
Listen as I attempt to build a real startup
run by fake people.
Check out the second season of my podcast,
Shell Game.
on the IHeart Radio app or wherever you get your podcasts.
Hey, everyone, it's Ed Helms.
And I'm Cal Penn, and we are the hosts of Earsay,
the Audible and IHeart Audio Book Club.
This week on the podcast, I am talking to film and TV critic,
radio and podcast host and Harry Potter superfan,
Rihanna Dillon, to discuss Audible's full cast adaptation
of Harry Potter and The Sorcerer's Stone.
What moments in this audiobook,
capture the feeling of the magical world best for you or just stood out the most.
I always loved reading about the Quiddish matches.
And I think the audio really gets it because it just plunges you right into the stands.
You have the crowd sounds like all around you.
It is surround sound, especially if you're listening in headphones.
Listen to Earsay, the Audible and IHeart Audio Book Club on the IHeart Radio app or wherever you get your podcasts.
A man with Down syndrome tries the impossible, the grand slam in turkey hunting.
Four 53 hits, we're legal shooting light.
And he gives us this one last gesture.
And he pitches off.
And when he pitches off, he flies right into the gun barrel.
I said to the cameraman, do you have it?
He said, shoot him.
I said, Justin, shoot.
You can download this episode and others from Lines and Tines with Spencer Graves
on the IHeart Radio app, Apple Podcast, or wherever you.
to get your podcasts.
This is an IHeart podcast.
Guaranteed human.