Daniel and Kelly’s Extraordinary Universe - Listener Questions #13
Episode Date: July 3, 2025Daniel and Kelly talk about warty comb jellies, white holes, and humpback whale navigation.See omnystudio.com/listener for privacy information....
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What on earth is a warty comb jelly?
And why does it sound like it's probably very smelly?
If the sun were replaced with a white hole, would it be very bright or dark as coal?
How do whales navigate the seas, magnetics, gravity, or mysteries of chemistry?
Whatever question keeps you up at night, Daniel and Kelly's answer will make it all right.
Welcome to another listener's questions episode on Daniel and Kelly's Extraordinary Universe.
Hi, I'm Daniel.
I'm a particle physicist, and I've never been tempted to eat a warty comb jelly.
Hello, I'm Kelly Weiner-Smith.
I also have never been tempted to eat a warty comb jelly,
but I feel like the existence of the name warty-combe jelly
reveals that biologists have a much more fun time of naming things than physicists do.
What is your favorite species name?
name, Daniel.
Wait, I can't get over warty combed jelly, and I'm not going to let it slide that you're
somehow congratulating yourself for this name.
This name is a mess.
I'm like, is it a wart?
Is it a comb?
Is it a kind of jelly?
Is it a jelly made of warts?
Can I comb my hair with it?
What is going on with this name?
It sounds like just three random words.
It sounds like a password recommended by XKCD.
All right.
Well, so one, I think you must lack imagination because I imagine a jellyfish.
that is sort of warty with some, like, comby projections.
I think they did a great job.
I don't know.
I've heard this thing is also described as a C. Walnut.
So I'm not sure anything in our vocabulary can really capture the weirdness of this creature.
Maybe biology has gone beyond naming.
You know, it has two different life stages, and C. Walnut describes one of the stages very well,
and warty comb jelly describes the other very well.
So maybe if you just knew a little more natural history, you'd follow along.
So it needs five words, and it's nice.
name, not just three. It's that fabulous. It's pretty fabulous. But I think my favorite species
or my favorite common name for a species is the humped trash line weaver. It's a spider
that has like sort of a humpy shape, but also it puts trash in the middle of its web. And I don't
remember why. Should have looked that up before the show. But it's got a line of trash and it's got a hump and
It's a humped trash line orb weaver, and I love them.
They live on my farm in Virginia, and they are permanent residents.
Well, there's a well-known spider that I think could use a better name,
and I once heard an episode of This American Life,
where they were speculating about a better name for the Black Widow Spider.
And my favorite suggestion is not family-friendly.
It has to do with the fact that until we had running water,
most of the bites were on guys using outhouses because of little swinging bits
that the spiders bit onto.
Well, so I was reading the Journal of Parasetology, and there were men who were purposefully letting themselves get bit by black widows to try to get a handle on how bad the bites are.
And the story starts with how he was like doing experiments on rodents and ends with how many days he was stuck in the hospital after he did it to himself.
But the doctor treating him said, yeah, I've seen someone else with a black widow bite.
And it was in the same location, but alcohol was involved.
And so I have since found myself wondering if men is like, oh, it's because of the outhouse.
I just, uh, but it was really just other, other shenanigans.
Well, there are so many wonderful questions to ask about that story and where people get bitten by black widows and other things about the universe.
And today we're going to be celebrating those kinds of questions because we're here today, not to talk about the things that we wonder about the universe, but the things that you wonder about the universe.
Our podcast is a conversation between us and you, and we want to hear from you.
We want to know what you want to explain about this extraordinary universe.
So let's go ahead and jump into our first question about the Wardy Combe Jelly.
Hi, Kelly.
Hi, Daniel.
Wanted to see if you could discuss the Wardy Cone Jelly.
Thanks.
Well, I was excited about this question because, honestly, I've never heard of the
Wardy Come Jelly.
And it turns out it has a number of really fascinating features.
Well, first of all, what do you think inspired this question? Is it just the craziness of the name, or is it some incredible biological magic that's happening in this critter?
If I had to guess, I would guess that this listener sent us the question because this species has a transient anus.
Another pair of words I never thought would go together.
Biology is amazing.
And I'm hoping that that means exactly what I think it means.
Uh, yeah, probably. So let's back up and let's clarify the appearance and the diet of this thing. And so we're going to do the inputs. And when we get to the outputs, we'll talk about the transient anus. So, all right, the warty comb jelly. It, you know, if you imagine it, it has sort of like a jellyfish shape. Okay. But it has two different stages of its life. When it's small, it's called a cydipid. And at this point, it looks like it's clear, but it has sort of a walnut shape with two long feathery tentacles that kind of.
come out from the back.
So why isn't it called a wardicome jelly fish instead of a wartycombe jelly?
Because when I hear wordycomb jelly, I think of a pot of jam.
It was probably not named with you in mind.
And why not is the real question.
Well, you know, I think jelly.
So jellyfish might be slightly distantly related.
There's probably a lot of diversity in jelly-like things out there.
These are some very ancient creatures.
And also, you know, jellyfish is sort of confusing because they're not really fish.
And so maybe someone was like, let's drop the fish because these aren't really fish.
And also it's pretty good on toast.
I wouldn't suggest eating these.
Although I think they're mostly water.
And I don't think they could sting you.
So maybe it would be fine.
Why not?
But as they transition to adults, they lose those long feathery tentacles.
And instead they grow these lobes.
So I kind of imagine like a glass paperweight, but with like ribbons coming off of the sides kind of.
So it has these lobes and the lobes have these like iridescent spills.
spots on them that attract little, like, tiny fish so that they can eat them.
This sounds really cute.
No, it is really cute.
You should look up a photo.
It's cute, and it has beautiful iridescent colors.
I can imagine having it as a pet.
And I've seen it at some aquarium.
As a pet.
Because, again, the name Warwick-com jelly doesn't conjure up cute images in my mind.
But your description was beautiful.
Well, thank you.
I mean, biologists have a sense of humor.
And that's what you need to know.
And so when they're young, they use those face.
feathery tentacles to capture very tiny creatures living in the water column.
As they get older and they get into the lobeate stage where they have those lobes,
I agree, this is not a very pretty name for the stage, when they have those like ribbons coming off the side.
Then they're eating things like eggs and tiny fish and crustaceans.
So they start eating bigger things.
So they have a transition.
So does this mean they're up near the surface where they can eat those things or do they go much deeper?
They're swimming around the surface and they can move throughout the water column.
So you can find them at different depths.
They also will eat each other.
So like for the Daniel and Kelly checklist, we've hit cannibalism.
So this species has a lot of things that you and I love.
So next we're, or at least that I love.
So next we're going to talk about poop.
That's point two for DKEU.
I hope we get to aliens eventually.
I was going to say aliens are white chocolate.
That's where we got to get this conversation to.
So tell us about how these things spend their time on the potty.
Okay.
So as they eat and they accumulate,
waste, their gut expands. And as it expands and kind of balloons out, at some point, it
touches the outside of the body. And as it touches the outside of the body, it fuses and
an anus is formed. So, like, the gut and the outside of the body are only, like, one cell
thick. And so they fuse, form a hole through which waste is expelled. And this happens, like,
every 10 minutes to every hour, depending on how big they are. And then once the waste has been
expelled, the gut starts shrinking and it pulls away from the outside of the body and that hole
is completely covered up. It goes away. It totally fuses. And the anus disappears. What? I know.
And it's thought that this is an intermediate stage between the permanent anuses, so many of us know
and love, and this early stage of the anus. And maybe we should put a warning at the beginning of the show.
But you could talk about butts with kids, right? Yeah. And we could just pretend that permanent anus is the
name of a punk band we both enjoy. That's right. That's right. Yeah, from the 90s.
I love their second album. Oh, my God. So good. Are you saying that this is a transition stage
sort of evolutionarily? Like, that there are some critters that didn't have an anus, and then there
were critters with a temporary anus, and then there are critters with a permanent anus?
So I'm imagining the PhD student who will one day have the job of working on the phylogenetic
tree, studying the evolution of anus. But I did find a paper that was hypothesizing that this is a
step in the evolution of the anus that early on when you've got very primitive species, they
have this transient anus that kind of comes and goes. But as you move down the evolutionary tree,
we sort of settle on a better method because why recreate the wheel every 10 minutes if you don't
have to do that? So anyway, yes, this could have been a step in the evolutionary path that brought
us to where we are today. And does that allow us to extrapolate into the future? Like if you go
from non to temporary to permanent, what's beyond that?
Double, triple, extra permanent, I can't even imagine.
I don't know, man.
We might need, like, AI and artificial tech to give us, you know, additional new ones.
I know sometimes you have to move them around following surgeries and stuff, but I can't
imagine that we're going to end up with too many more of them.
I feel like we've maybe hit the fitness peak on anises and we're good where we are.
So I just heard a talk by Brian Mallow, the science comedian, who actually lives near you.
And he was telling me that there's a critter that lives on our face that doesn't have an anus.
It's called a face mite.
And it like walks around your face chomping on stuff.
It doesn't have an anus.
And eventually just explodes all over your face.
And I was like, wow, that's so many gross details in one story.
That is a lot of gross details in one story.
I do feel like there's life stages of insects and stuff where they don't have an anus.
They just kind of accumulated.
and then when they move to the next stage or when they transition to a different body plan,
they leave the feces behind.
I got to say, it's convenient to be able to, you know, remove your waist as you need without,
yeah, without too much trouble.
Well, what are the disadvantages of this?
Of needing to recreate an an anus every 10 minutes?
Didn't imagine I'd get to ask that today.
But here we are.
Yeah.
But here we are.
I don't know.
I mean, I have not seen reports.
on, for example, how often it fails.
Needing to create a new sphincter over and over and over again seems less efficient than
just having one that works when you need it.
And so I imagine the downside is that it's a fail point if it needs to be created so
regularly and it's better to just, I can't say I've thought too hard about this.
All right.
Well, then I'm going to connect this to the last dot and ask you an alien anus question,
Which is, if we're landing on an alien planet, do you expect that aliens are going to have a permanent anus or will they have a transient one?
What do you think?
Are there permanent anuses all over the universe, is my question, Kelly?
I would say, you know, it depends.
You can never know for sure.
But if I had to guess, I would put my money on, yes, it seems like a very convenient feature.
And, you know, maybe they would have.
I'm going to say yes.
What do you think, Daniel?
I agree with you.
I think the universe is probably filled with butts.
Good.
All right.
Well, I'm guessing that's what the listener wanted us to talk about.
But this species is well known for two other things.
One, it lives on the East Coast of the U.S.,
and it's been introduced in Europe into like the Caspian Sea,
the Black Sea, the Baltic Sea, and it's caused a lot of problems there.
Part of why it causes a lot of problems is because when it is in the water,
it's consuming a lot of crustaceans and eggs and tiny fish
and so it's been a problem for the native fish
because it's eating the baby stages of the native fish
and it's eating the food that those baby stages of the native fish eat.
So it's competing.
That's not so nice.
Not so nice.
So people have been trying to get rid of them.
But the other thing that they're well known for
is a result that was just published last year, 2024.
It is one of the few species we know of
that is able to turn back the clock
and transition back to an earlier life stage.
So let me give you some detail
So we talked about how it has that
Cidipid stage where it's a walnut
with feathery tentacles
And then it has a low bait stage
Where it's a paperweight with some ribbons
And if you've got it in the lobeate stage
And you starve it
Or give it a lobectomy
Where you remove one of the lobes
Which is not very nice
Oh no
Essentially if you stress it out
It's able to essentially go back in time
And it absorbs the rest of its lobes
and it goes back to the sidipid stage.
So it goes from having those ribbons.
It absorbs those ribbons.
It goes back to looking like a walnut with feathery appendages.
So it can like go back in time and reverse its development, which not a lot of species can do.
We don't know that that like extends its lifespan.
But if they go back in time and then they grow back, they can grow back that other lobe.
So it would be like if you lost an arm and you can be like, nope, not cool.
You like absorb a bunch of body parts.
go back to just being like a ball of cells
and then you sort of go through the development again
and now you've got both arms or something like that.
Well, maybe there is a great advantage to having transient bits
is that you can generate bits at will.
And so if you lose one, boom, you can regrow an arm.
Or like, hey, I could use a second head today.
Let me grow another one.
Yeah, I don't know that they grow like twice as many of the ribbons.
They usually come back with the same number of ribbons.
But another thought for the benefit of this reverse development
is that if you're going around and you're trying to eat baby fish
and there's like just no baby fish,
it's not the right time of year
and you're starting to starve.
When you go back to that tentacle phase,
you can now access a lot of the much smaller food stuff.
And so it could be a way to, like,
open up the kinds of foods that you're able to eat
at a time when the foods that you are really well shaped to eat
are no longer available.
So they've got this interesting reverse development
that we don't understand very well.
Fascinating.
Well, that is all I have to say on the wordy comb jelly.
Wait, there's a last question which we teased in the intro.
Do you think the warty comb jelly is very smelly?
Oh, no.
No, it's mostly water.
I'm guessing it does.
I don't think it smells bad, but I agree.
It's got a kind of stinky name.
What do you think?
I think probably if you put it on toast and left it, it would smell pretty bad, as basically everything from the sea does.
I mean, I think just about any organism, if you let it die and you left it on your toast for a while, you're going to regret that decision.
Well, that's just fermentation, and sometimes fermentation is delicious.
You know, you get marmite or whatever, or cheese, and sometimes it's not.
Yeah, well, you know, our conversation went from transient anus to stinky cheese,
and let's see what the listener has to say.
Hi, Kelly.
Hi, Daniel.
Thanks for talking about the wordy comb jelly.
Maybe one day we'll all be able to regrow our parts inside and out or even flip them around.
Thanks.
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This season, we're going even deeper
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with raw and honest conversations
with some of your favorite Latin artists and celebrities.
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No, I didn't audition.
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We're back from talking about the transient holes in Wardycombe jellies
to talking about a very different kind of hypothetical cosmic hole.
I'm Sammy. I'm 10. And I want to know what would happen if the sun was replaced with a white hole.
All right. I love this question. And I love that young people are thinking about the universe and asking questions.
And thanks to all the parents out there who listen to the podcast.
with their kids.
So, Daniel, what are white holes and do they come and go depending on how recently
you've consumed a meal?
You know, when we started this episode, I was like, well, there are no connections
between these topics, but now I'm seeing them more and more.
Yes, maybe aliens with transient anuses are you going to use cosmic white holes to come
and visit us and tell us about it and learn all about our permanent ones.
We can hope, but hopefully they don't eat us.
Or I guess that wouldn't be cannibalism, so I'm not really connecting the dots there.
But anyway.
Yeah, so Sam is asking a great question.
Basically, he's wondering, what does a white hole look like and could it serve as an alternate
sun, et cetera?
So let's talk about what a white hole is.
Number one, a white hole is a hypothetical thing.
We don't know that white holes exist in the universe.
And we're not even really clear on what a white hole is.
You know, like a black hole, we have a very crisp concept for what it is.
It's a prediction of general relativity.
We talk about it.
we understand about it, we can calculate about, everybody agrees what a black hole is. A white hole, and we'll get into what it is exactly, is there sort of a fuzzy set of concepts that are closely related. And so if you read about white holes and you listen to this episode and you might think, oh, that's not what I heard. And then you go read another article and you're like, that's not what I understood to be a white hole. That's because there is nothing that it is to be a white hole. There's like a set of ideas that people are still sort of developing that all go by the same name, which can be confusing.
sort of like our study of the anus. You've got multiple stages. We're not really sure how to define it. But all right, go on.
Yeah, yeah. So most commonly, a white hole is thought as something like the opposite of a black hole. So a black hole is a region in space, an event horizon which nothing can escape, right? Remember that gravity is the bending of space time in the presence of mass and energy. So the earth bends the space around it, which affects the way things move around it. And if you have enough mass and enough energy, you bend space so much that you change its shape so that nothing can escape. It's not that black holes have intense gravity to
pull on things, even light. It's just that the shape of space is such that nothing can escape.
Space only points in one direction past the event horizon towards the center. So no matter how fast
you go or how you wiggle or struggle, you're always going towards the center. That's the black
hole, a region of space where nothing can escape because of the shape of space itself.
Okay. So if I were to just guess a white hole, so you'd imagine it would be exactly the opposite.
So is everything running to escape from a white hole?
Nothing can, you get pushed away from it if you get too close?
A white hole is a region of space that nothing can enter.
So things can escape it, but nothing can enter it.
And the opposite of a black hole.
Black hole, things can enter, but nothing can escape.
A white hole is a place where nothing can enter, but things can escape.
And how is that made?
Yeah, and that's a different question, right?
Like, what is it and could it exist?
It's a different question from how do you make it.
That's an important subtlety, right?
Like, for example, a wormhole, which we'll talk about in a minute,
is something which can exist in general relativity and a white hole can exist in general relativity.
But that doesn't mean that there are any, or that we know how to go from a universe without one
to a universe with one.
It's like the difference between saying, oh, I know how to eat a souffle.
I know suflas exist.
And I know how to make a souffle from ingredients, right?
It's hard to make a souffle.
Yes, exactly.
The recipe is a challenge.
So those are actually two different questions, right?
Is it possible for them to exist in the universe?
And is there a series of actions you can take to create one?
Two different questions.
Are we going to answer either?
We have no idea about the second one.
We are going to talk about the first one, right?
Okay.
Like, can general relativity accommodate this?
What does it even mean?
What are we talking about here?
And so the first concept of a white hole, and I think the most generally discussed one,
is a sort of mathematical extension of space time.
Roger Penrose is famous for thinking about black holes and the structure of space time,
and he came up with a cute little diagram to draw the whole universe in like a little square
where infinities are like squeezed down into the corners so you can draw things nicely.
And they're called Penrose diagrams. You can Google them and see them.
They're a little hard to wrap your mind around, and we're not going to try to explain them today.
But these diagrams do inspire the concept of white holes because if you look at the diagram,
the whole universe is like a diamond and black holes are.
on one side, and you can ask, hmm, what could be on the other side? And so it's just sort of like,
hey, let's ask questions about this diagram, and is it possible? There's something there we hadn't
considered the way you might be like, oh, there are positive numbers. Could there be negative
numbers? Oh, there are particles? Could there be antiparticles? It's just like this search for
symmetry in the universe and wondering. And then people realized, well, there's really nothing
preventing that. Like, in principle, you could have a region of space that nothing could enter,
but things could escape from.
And the way to think about it in terms of these Penrose diagrams
is just some region of space where you can get messages from,
but you could never reach.
And that seems really weird,
but I have two sort of ways to think about it for you.
Number one is to just reverse the black hole.
Like, if you think about black holes,
not as a big blob of stuff pulling in on you really, really hard with its gravity,
but literally a rearrangement of space,
so that space only points in so that no matter what you do,
you are moving towards the sense.
center. Remember that black holes and gravity are all about the shape of space itself, not forces
on stuff within space. Now just reverse that. Imagine a point in space where space points
outwards. And the only way you can go is out. There is no in, right? There's only motion
outwards. So if you accept that black holes are space pointed in, then white holes are just
space pointed out. So for white holes, nothing can get in, but stuff can come out.
Where is the stuff that comes out coming from?
Great question.
Did the gut get filled for the white hole?
Great question.
And in general, general relativity has no answer to that, right?
It doesn't predict anything that could come out.
It could be that nothing comes out.
It could be that green eggs and ham comes out, right?
General relativity is no idea what could come out in general.
However, there are some theories that connect white holes and black holes via a wormhole.
And say, for example, if you have a black hole where things go in and then you have like basically a tube that connects it to a white hole, things come out the white hole after they've gone in the black hole.
And so in that sense, a black hole and a white hole are two ends of a one directional wormhole transit.
And so things come out the white hole that fell in the black hole, but you can't go the other direction.
Right.
So I'm tempted to ask how many anuses that means the universe has.
Of course, Sammy.
Well, that would be one, right?
because you can think about your digestive system as a tube, right?
There's an in and it out.
And usually one direction.
But there's more than one black hole in the universe, right?
So there's more than one anus.
Yeah, that's true.
And we don't think that all black holes are connected to white holes, right?
Some of them just eat stuff.
There's no anus there at all.
It just gets bigger and bigger and maybe eventually explodes like a face mite on your face.
I don't know.
Love these connections.
Yeah.
So that's sort of the concept of white holes.
Another way to think about white holes that's maybe easier to grapple with,
is try to imagine a region of the universe
where you can get messages from,
but you could never send messages to.
And that seems contradictory.
Like, how could you do that?
But actually, that exists in our universe already.
It's our cosmic horizon.
Like, there are galaxies out there that sent us photons,
but they are now past our cosmic horizon
because of the expansion of the universe.
If we shot a photon at them, it would never reach them.
So there's a whole region of the universe
where photons have escaped.
They've come from there,
but they can't go to there.
So I'm not saying that everything outside the observable universe is a white hole,
but it's just sort of a way for you to get a handle on what are we talking about.
Okay, so I've absorbed a lot of information and my brain is a box and it's overflown
and some has started to fall out.
So I think you've already said this.
But just to confirm, white holes are not anything that's really supported by physics theory.
It's more of a thought experiment that arose out of a way that we decided to portray the way
the universe could look, but that could have just been a result of our artistic way of trying
to explain things. It could be, yes. It could also be that we're exploring the true nature of the
universe and discovering it in our minds before we discover it in the universe the same way we did
with black holes. People thought exactly the same thing about black holes before we found them.
They were like, well, that's cute, but it's just a mathematical oddity. I'm sure that doesn't
actually exist out there in the universe. That would be bonkers. And then, of course, we found them.
And so sometimes mathematically exploring the corners of our minds can reveal the true nature of the universe, which is amazing and philosophically deep and incredible and really kind of as close as you get to a spiritual moment, I think, in cosmology.
Yeah.
Yeah, I'll give you that.
That's incredible.
So everything you said is true, but I think the implication that therefore is probably not really out there, I think, is a question mark.
All right.
So can you remind me, what was Sammy's question in particular?
So Sammy was like, if you replace the sun with a white hole, what would it look like?
Oh.
And before we get to that, we had to consider one more idea about white holes, because white holes, again, a broad topic.
So we talked about white holes is sort of like inverse black holes, region of space time that you can escape and not enter, or maybe the back end of a wormhole.
But there's one more version, which is the quantum version of a white hole.
What's that?
And this suggests that there are no black holes, actually, that the things we see out there in the universe that look like black hole,
black holes are actually just slowly collapsing stars because in regions of very high mass,
time slows down, right? We talked about time dilation many times. And so perhaps what's happening
is stars are collapsing, but time is slowed down so much that it looks like a black hole. It's just a very,
very slowly collapsing star. And there are folks out there like Carlo Rovelli who thinks that it's
not actually going to collapse all the way to a singularity. Quantum mechanics will somehow
prevent that from happening, push it back and invert it. And eventually a black hole sort of bounce back and turn into something which emits all of its mass. So this is Carlo Rovelli's concept of a white hole.
Ah, okay. Yeah. All right. Very cool. And so we've talked about three different ways to get white holes or three different ways of thinking about it. Does each one of them give a different answer to Sammy's question?
Yeah, absolutely. It does. So, you know, if white holes are just some region of space that you can't escape and you replace the sun with a white hole, then like maybe nothing would come out, right? There's no prediction for anything to come out. It just depends on what happened to be in that region of space in the deep, deep past before it formed, right? And so probably nothing. If the white hole that we put in the center of our solar system is the back end of a wormhole, then what comes out depends on what's going in that black hole. If there are aliens,
out there and they're treating that black hole
is like a cosmic dumpster.
They're like making really dangerous elements
in their crazy experiments
and they're dumping it in a black hole
for their safety.
You know, we're going to be the cosmic dumping
yard of some alien physicists,
which could be amazing.
Like, wow, you could see some cool stuff
come out of that white hole.
Serves us right, too, though.
Or it could be really bright, you know,
like what if that black hole eats a star or something?
Like an enormous amount of radiation
could come out of it.
Thanks.
Or it could be just like weird alien leftovers.
Who knows?
I would eat weird alien leftovers.
Give it a shot.
If I had to choose between weird alien leftovers and wardicom jelly on toast, I'm not sure what I would choose.
Yeah, it would be a tough decision.
So what about Carlo Rivelli's vision of a white hole?
Yeah.
So if white holes are actually slowly collapsing black holes that then reverse, then you're going to get something with
an enormous amount of radiation. It's going to be very, very bright. And one of the
inspirations for white hole research is that there are things in the universe that are very bright
that we don't understand. Things like gamma ray bursts, these very short-lived, incredibly bright
waves of gamma rays, very high energy photons. Nothing in the universe we know about can make
them, and yet we see them. And people wonder like, oh, maybe those are white holes. People also
talk about, you know, the Big Bang, maybe being the result of a white hole in the early
universe because people like thinking about cyclical universes, like the whole universe turns into a
singularity and then bounces back into a big white hole.
Anyway, Sammy, the answer is, we don't know if white holes are real, and if they are,
it depends on which flavor of white hole you get.
Do you think that Sammy wanted to know what would happen to Earth if the sun was replaced
by a white hole, or what would it be like if the sun was replaced by a white hole?
I think in all of these situations, Earth is toast.
Earth is not in a great shape in any of these situations, yeah.
And in many cases, the white hole has mass also.
So you could continue to orbit it while you're getting fried with alien cosmic junk.
Thumbs down.
All right.
What do you think, Sammy?
I prefer if the sun was not replaced with a white hole.
Although that that end of a wormhole idea does sound pretty cool.
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There's a lot of people battling some of the very same things you're battling.
And there is help out there.
The Good Stuff Podcast, Season 2, takes a deep look into One Tribe Foundation,
a nonprofit fighting suicide in the veteran community.
September's National Suicide Prevention,
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I got blown up on a React mission. I ended up having amputation below the knee of my right leg and
a traumatic brain injury because I landed on my head. Welcome to Season 2 of the Good Stuff.
Listen to the Good Stuff podcast on the iHeartRadio app, Apple Podcasts, or wherever you get your podcasts.
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Listen to America's Crime Lab on the IHeart Radio app, Apple Podcasts, or wherever you get your podcasts.
All right. Our last question comes from Rhonda and is about humpback whales.
Hey, Daniel and Kelly. It's Rhonda, and I live in North Alabama. I was recently scrolling through the internet.
and saw a whale of a tale about how whales migrate.
They were saying that whales migrate because the bacteria in the bumps in their back align with magnetic north.
I was just wondering if you might be able to clarify that a little bit.
Let me know if it's true.
Huge fan of the show.
Love you guys.
And thank you so much for feeding my curiosity.
Whoa.
This is a great question, Rhonda.
I was super excited to have the opportunity to dig into navigation for humpback.
whales. A little bit of background. There are humpback whales at both of the poles. They tend to
feed in polar regions. And for example, Antarctica has loads of this crustacean called krill that they
eat. And you find it in really high densities there. So they go to the polar regions to feed. And then when
it comes time to have babies, they head up to the tropics where the water is warmer and shallower.
We think maybe those are better baby nursery conditions. So they head up there to breed. And then when
the babies are old enough, they head back down to the cold areas where their food is found
in high abundances. So this is similar to how birds migrate, but it's just much more massive
and underwater. Yes, exactly. And I mean, incredibly long distances. Imagine going from,
you know, Antarctica to the tropics. Like, that's a huge distance. And they often make very straight
line paths. And so it's been for a long time a question, how do they remember, you know, when they're
very young when they make this journey for the first time, how do they remember where they've gone
and how they go back to the same place, and how do they go there without, like, you know, I get lost when I go to the grocery store sometimes.
Like, how do they not get lost?
It is a super fascinating question.
I heard that these whales move in a straight line relative to the earth rather than relative to the water, right, which requires some kind of navigation.
Because, you know, no matter what the currents are, they find a way to follow the path, which suggests that maybe they know where they are on the earth, which is amazing.
It's crazy.
But let me just take a step back to talk about why it's.
so hard to answer this question in humpback whales. So if you were asking this question in
pigeons, for example, you could take a pigeon from one place and if you thought that maybe they
were paying attention to some queue in the northern hemisphere, you could transport them to
the southern hemisphere and then see how they changed their behavior. If they thought they were
paying attention to magnetic fields, you could like, I don't know, stick a giant magnet on their
back that confused them and then look to see do they get lost. If you thought they were looking for
visual cues, you could
put them in a giant arena
and move the cues around and see how that
messed things up. And then you could do
other things like, you know, could put blindfolds
on them if you think that they're just
responding to magnetic fields
or something. But with humpback
whales, they're endangered
or at least they're threatened. I can't remember what their status
is right now. But you can't do any of
those things to them. You can't
move them to the other hemisphere.
You can't poke their eyes out. You shouldn't
poke their eyes out. You can't
do the kinds of manipulative experiments that you'd need to really try to nail this stuff down.
So the best that we can do at the moment is we can look at old records for where humpback whales were
killed in the era where whaling was popular. And now that we have technology for tracking animals,
you can put trackers on them and you can follow their movements over time. And then you can
collect data on how their movements are correlated to things that you think might be important for
navigation. So we basically have to wait for natural experiments, like if the magnetic
poles flip, or if the currents change, or if the visual conditions change, we can look
to see how it affects the whales, but we can't induce those changes ourselves. Right. And
unfortunately, humans are doing some of those experiments now. So one of the things we think
they queue into is water temperatures or following certain currents or certain salinities. And as
global climate change is happening, that's impacting water temperatures and that's impacting where
currents go. And I guess the good news is that for humpback whales, these changes are relevant
to their smaller movements. So it's relevant to where their food sources are as their food
sources, for example, maybe track certain water temperatures. But even as all of this stuff is
changing, they are still taking pretty straight line paths up to their breeding ground, which
suggests that that's not the main cue that they're using. So even as this changes, they're still
getting to where they need to go. So one of the leading hypotheses is that,
the Earth's magnetic fields are being used by these giant whales to try to figure out where
they're going to go. And Daniel, I should tell you that while I was writing this outline, I just
assumed that you would be able to explain these to us. And I didn't give you the heads up or
research it ahead of time. Was I right? You actually were right. I'm really fascinated by this.
And there's folks in my department here at UC Irvine, biophysicists who study this question of how
birds migrate, for example, which is a very similar question. And one of the leading hypothesis
has to do with quantum mechanics, actually. There's like a protein inside bird's eyeballs,
which has two different states, and it flips back and forth between these two states,
and the rate at which it flips depends on the magnetic field. So this is a thing which actually
does happen. And so in principle is a mechanism by which an animal could sense a magnetic field,
because, like, we don't think humpback whales or Canadian geese are, like, building little compasses and strapping them to their bodies as cute as that would be.
They need some sort of biological mechanism.
What we don't know is if that's really the mechanism.
You know, this is, like, something inside their body that's happening.
We don't know if it's connected to their sensory organs or somehow to their brain to allow them to somehow, like, see or experience these fields or actually even use them in their navigation.
There's a newer hypothesis that there are bacteria that also respond to magnetic fields, and they sort of align themselves with magnetic north.
And the idea here is that you'd have these bacteria, and then the animals would have some way of sensing what the bacteria are doing.
And this is what the listener was referring to.
But actually, what I had imagined you would explain was why does Earth have magnetic fields in the first place?
Yeah, oh, that's awesome.
It's a little bit of a mystery.
I mean, we know that magnetic fields are generated by charges in motion, right?
Like, give an electron, it just generates an electric field.
You move the electron, you give it a velocity.
You get a magnetic field, which is already kind of mind-bending because it means that, like,
whether the electron has a magnetic field around it is frame-dependent.
You know, like, I'm holding an electron.
I see it has an electric field.
You whiz by me in a car.
You see that electron having a magnetic field.
So we disagree about whether there's a magnetic field there, which is crazy.
Yeah.
That's a whole fascinating story about the development of special relativity.
But anyway, charges in motion generate magnetic fields.
There are no magnetic charges in the universe that we know about that can just generate a
magnetic field while sitting there.
So most of the magnetic fields are generated either by like electrons spinning.
That quantum version of motion can generate a little magnetic field.
Or you have the electron itself is like flowing in a current.
And so what's flowing underneath our feet when there's lots of rock and metal in motion underneath
our feet.
And we think that that motion is probably generating the magnetic field.
But we don't totally understand it.
The magnetic field is weird and not reliable.
The poles flip and flip in an irregular way, like sometimes every 50,000 years,
sometimes once a million years, the poles are always migrating a little bit.
And sometimes they're like, you know, north and south will flip, which is weird.
Meanwhile, like in the sun, it's super regular.
Every 11 years, the sun flips its magnetic field.
And this has to do with like currents of plasma going through the sun.
Again, not totally understood.
So roughly we think it's flowing currents within the earth, but there's lots of detail
questions we don't know the answers to.
All right.
Well, so the idea here is that either through the bacteria that live with the whales or different
senses that there are organs that they have in their body that have not yet been identified,
they're able to sense these magnetic fields and follow them from one place to another.
And there's some good evidence that this has happened.
For example, whales tend to get stranded more often.
in during solar storms.
And what they think is happening here is that when there's a solar storm, it's messing with
the whale's ability to sense the Earth's magnetic fields.
So it's not that it's messing with the Earth's magnetic fields.
It's just sort of giving the wrong information to whatever the whale is using to figure
out where the magnetic fields are.
And so whales are more likely to get stranded.
Essentially, the idea here is that they're not able to read the Earth's magnetic lines
anymore.
And so they end up in places where they're not supposed to be.
So that's really interesting, and it sort of suggests that whales are using the magnetic field
or that something else about these solar storms might be affecting their senses.
Do we know anything about the history of whale migration as the magnetic fields shift?
I did find a paper that tracked humpback whales over a 15-year period, and during that period,
there were pretty significant shifts in the magnetic fields.
And even in years where there were shifts, the whales were going on the same paths in essentially a straight line.
So these shifts didn't seem to move them, of course, which suggests that it's not just the electric field.
Maybe it's the electric field plus some other things that they're using to correct themselves.
But it does make it look like this is not the whole story.
Could they be using just visual cues?
Like, hey, turn left at this canyon and then go around this underwater mountain because they just have like amazing memories?
They could.
They could have amazing memories.
They also often travel with other individuals.
So, you know, like sometimes when I think I'm lost, I'll never ask that because that would just make it worse.
but like if I'm in the car with a friend, I'll be like, you know, oh, do you remember Chase Bank being on that side of us last time or should it be on the other side? Are we going the wrong way? And so, you know, whales traveling with friends might use each other. And additionally, whale calls can be heard over very great distances. And so it could be that they can, you know, hear that like Frank is way up ahead and they're just following the noises that Frank makes or Fran. And so it could be a combination of noticing landmarks.
you know, sharing information with each other
and then listening to the sounds of the seas
to get to where they're going.
Is there any chance that they're like
popping up to the surface
and opening their eyeballs
and like using the stars to navigate?
There have been some folks
who have proposed that.
They think it's more likely
that they might be using cues from the sun
than cues from the stars.
We don't know that whale vision
would allow them to see the stars
with the level of detail
that you would need to navigate by it.
And so there are folks
who are interested in that question,
but I'd say at the moment
that's a pretty hotly debated topic in the field, and there's not a clear consensus.
Although I do absolutely love the idea of the humpback whales navigating by the stars.
That's beautiful.
That would be gorgeous.
Well, what if they're just really good at dead reckoning?
You know, what if they don't need navigational cues?
They're just like, I know I swim in this direction for 45 minutes, and then I turn and I swim in that direction.
It's hard to conceive of.
I mean, imagine, like, driving to your friend's house, like, a cross-country with your eyes closed, right?
Just like knowing when to turn.
be crazy. But hey, maybe whales are just good at that. Yeah, I mean, this could be an example where
my personal experience limits my ability to imagine an answer. It is hard for me to imagine that,
but, you know, they've got giant brains. Maybe they're putting some of that giant mass
to, like, incredible processing abilities to navigate incredible distances.
All right. So what's the answer then to the listener's question? I would say the answer is we don't
completely know. It probably has something to do with landmarks, something to do with sharing information.
They might be using the magnetic fields to some extent.
They're paying attention to currents and temperature,
but even when those chains, it's not throwing them off course.
So it's probably a, what we would call, like, multimodal signals.
Like, they're probably taking lots of different kinds of information and integrating it.
But at the end of the day, we can't do the sort of manipulative experiments.
We'd need to lock it in.
So we're just going to have to keep waiting to see what sort of experiments nature throws at us
so that we can collect data as we go.
Amazing.
Oh, and I forgot.
There was one other cue that has been getting a lot of attention in the papers that I read, and that's gravity as a sort of landmark.
And so I think the idea here is that there are like mountain ridges that are made of dense materials.
And so they, you know, pull on these giant whales a little bit more.
And so you can use these as sort of cues as you move around their environment because these don't change much.
You know, those mountains, if they're there one year, they're probably going to be there 100 years from now.
And so there's some thought that those are cues that are being used.
What do you think as a, I mean, I know we don't know what particle makes gravity, but does this make sense?
It makes sense, sort of, from a physics point of view.
I mean, we all feel gravity, and gravity mostly points down, but gravity would only point straight down if the Earth was a perfect sphere.
If you're standing next to like a huge blob of stuff, then you're going to feel its gravity also, and so the net gravity is going to point like a little bit to the side.
And so if there are like dense deposits of iron under the ocean floor or something and whales are super sensitive to the direction of gravity to have some like internal biological pendulum, then in principle they could detect those.
And I guess in principle you could use that to navigate.
To me, I'm not sure how much of a navigation of help it is because it doesn't provide you like longitude latitude information the way the stars do, right?
It just tells you that you're near a landmark.
To me, it seems like about as useful as eyeballs, not as useful as celestial navigation.
Well, but if you can't see the stars, then, you know, that doesn't help so much.
We don't know that the whales can see the stars.
Does it matter that they are so, like, many orders of magnitude bigger than we are?
Does that make it easier for them to detect differences in gravity along the Earth's surface?
You definitely have a larger force on larger masses, right?
But of course, they also have larger mass, so it is the same acceleration, which they sense in their
stomachs probably. So, like, maybe they're sensing shifts in how their stomachs move or something.
I mean, and what I mean by, like, as good as eyeballs is that, you know, if you could see underwater features,
like, oh, there's a mountain underwater or there's this cliff underwater, that seems to me as good as
this gravitational stuff. It's not like it tells you where you are on the planet. It's still
local information in that way.
But yeah, baby whales are doing that.
And that would give a whole different meaning to like, I've got this gut feeling, you know.
The mountain is actually pulling your gut to the right.
And you're like, we should go right.
I mean, you're joking, but your gut is an accelerometer, right?
That's why on a roller coaster, you know, you feel like you're leaving your stomach behind
or it's in your mouth or something.
It's for exactly that reason.
You are measuring a change in the local acceleration away from the normal Earth's gravity.
And so, for example, if you walked by some super dense deposit of material, you would feel the same way.
You would feel a force pulling in a weird direction.
And, yeah, it'd be a gut feeling.
Yeah, well, usually it pass out on roller coasters before I get that feeling.
So, but maybe if I was slowly walking along the ocean floor, I'd be able to sense it better.
But all right, so I think the summary point here is that we don't really have it all figured out yet.
It's probably more than one thing.
They're probably integrating cues from a variety of different sources.
But one way or another, they make these amazing migrations.
Mm-hmm.
Well, you might be wondering, how is Daniel going to connect this question of whales back to the aliens and their anuses?
I'm dying to know.
It's a lot easier than you might imagine.
Any fan of Star Trek news that in Star Trek 4, the aliens were interested in the humpback whales because it turns out they're the smartest critters on Earth.
And so maybe aliens will come to Earth to talk to whales, not just about their navigation, but, you know, to get advice about whether or, you know,
not, they should promote their transient anuses to permanent ones. Oh my gosh. I am so proud of the
way you tied it all together. It's only missing cannibalism and a dig on white chocolate. Bravo.
You know, we try to end these episodes about inspiring humanity. And I'm not sure that accomplished
that, but I did find some connective tissue. I'm impressed. And on that note, let's see if
Ron does impressed. Wow. Thank you so much, Daniel and Kelly, for digging into the question about
humpback whales and how they migrate. I found it was really fascinating.
and I've never heard some of those theories before.
I really can't wait until the aliens get here
to interpret the answer for us too.
Thank you again.
All right, well, we had a lot of fun
talking about jelly and white holes and whales
and tying it all together in surprising ways.
And we also had fun because we're answering your questions
and we'd like to think that we're scratching your curiosity itch
because there's so many incredible things to be curious about in this universe.
So please share your curiosity with you.
With us and with the other listeners, write to us to questions at danielandkelly.org.
We can't wait to hear from you.
Daniel and Kelly's Extraordinary Universe is produced by IHeartRadio.
We would love to hear from you.
We really would.
We want to know what questions you have about this extraordinary universe.
We want to know your thoughts on recent shows, suggestions for future shows.
If you contact us, we will.
we'll get back to you. We really mean it. We answer every message. Email us at
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Don't be shy. Write to us.
Hi, it's Jemma's Begg, host of the Psychology of Your 20s. This September at the
Psychology of Your 20s, we're breaking down the very interesting ways psychology applies to
real life, like why we crave external validation. I find it so interesting that we are so quick to
believe others' judgments of us and not our own judgment of ourselves. So according to this study,
not being liked actually creates similar pain levels as real life physical pain.
Learn more about the psychology of everyday life and of course, your 20s, this September,
listen to the psychology of your 20s on the IHeart Radio app, Apple Podcasts, or wherever you get your
podcasts. Do we really need another podcast with a condescending finance brof trying to tell us how to
spend our own money. No thank you. Instead, check out Brown Ambition. Each week, I, your host,
Mandy Money, gives you real talk, real advice with a heavy dose of I-feel uses, like on Fridays
when I take your questions for the BAQA. Whether you're trying to invest for your future,
navigate a toxic workplace, I got you. Listen to Brown Ambition on the IHeart Radio app,
Apple Podcast, or wherever you get your podcast.
Hi, it's Honey German, and I'm back with season two of my podcast.
Grasias, come again.
We got you when it comes to the latest in music and entertainment
with interviews with some of your favorite Latin artists and celebrities.
You didn't have to audition?
No, I didn't audition.
I haven't auditioned in like over 25 years.
Oh, wow.
That's a real G-talk right there.
Oh, yeah.
We'll talk about all that's viral and trending
with a little bit of cheesement and a whole lot of laughs.
And of course, the great bevras you've come to expect.
Listen to the new season of Dacias Come Again on the IHeart Radio app,
Apple Podcast, or wherever you've been.
Get Your Podcasts.
Every case that is a cold case that has DNA.
Right now in a backlog will be identified in our lifetime.
On the new podcast, America's Crime Lab, every case has a story to tell.
And the DNA holds the truth.
He never thought he was going to get caught.
And I just looked at my computer screen.
I was just like, ah, gotcha.
This technology's already solving so many cases.
Listen to America's Crime Lab on the IHeart Radio.
app, Apple Podcasts, or wherever you get your podcasts.
This is an IHeart podcast.