The Infinite Monkey Cage - Exploring the Deep
Episode Date: July 30, 2022Brian Cox and Robin Ince are joined by comedian and musician Tim Minchin and oceanographers Diva Amon and Jon Copley to uncover what mysteries still lie at the bottom of our oceans. It is often said ...that we know more about the surface of the Moon then we do about our own ocean floor, but is that really true? What have modern-day explorers such as Diva and Jon discovered during their many expeditions to the deepest points of our oceans, and can they persuade Tim to join them on their next voyage? From extraordinary life forms with incredible survival strategies, to the gruesome sex life of the angler fish, the panel discuss some of the greatest discoveries of the last few years, and what questions they still hope to answer.Executive Producer: Alexandra Feachem
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Welcome to the Infinite Monkey Cage. I'm Professor Brian Cox, CBE FRS.
And I'm Robin Ince, Bag of Gymnastic Award, Level 4, can't do backward rolls.
CVEFRS.
And I'm Robin Ince, Bag of Gymnastic Award, Level 4, Can't Do Backward Rolls.
It will come as no surprise to regular listeners of the show that perhaps the most frequent scientific discussion
Brian and I have had over the last 13 years
has always been the question, what really is the Loch Ness Monster?
By most frequent discussion, what I mean is I talk about it a lot
and he puts
his headphones on and listens to orchestral manoeuvres in the dark. Very funny.
Now Brian hasn't heard, I genuinely do, I love keeping up with theories about the Loch Ness
Monster. My favourite recent scientific theory about the Loch Ness Monster is that it's actually
the ghost of a dinosaur. That's what you said. Ghosts don't exist. And anyway, is it not more
plausible it'd just be a dinosaur?
I mean, why does it have to be the ghost of a dinosaur?
I know there is a problem with the second law of thermodynamics,
but I think the ghost theory of the Loch Ness Monster is probably the strongest one we've had
since the idea that it was actually the shadow of a pterodactyl from Invergordon.
The deep water has always been a place of mystery.
A place where fevered imaginations, even more tortured than robins,
have long imagined monsters.
In today's show, we're investigating how the exploration of the deep ocean
has changed our understanding of life and the planet as a whole.
We are joined by a panel who've been chosen
because two of them are experts with a great deal of experience
and one of them has hair like a selkie, which is the beautiful being that can transform from seal to human by shedding its skin.
And they are...
Hello, I'm Diva Amen and I'm a deep sea biologist at the University of California at Santa Barbara.
And I think one of the most remarkable things we've discovered in the deep ocean is the sex life of the anglerfish. Hello, I'm John Copley,
and I'm an Associate Professor in Ocean Exploration at the University of Southampton.
And I think the most remarkable thing we've discovered in the deep ocean is the amazing
diversity of environments and habitats it contains. It's just as rich and varied as
the world above the waves. My name's Tim Minchin.
I have no expertise.
And my favourite thing about the deep ocean
is that vampire squid like the one in Octonauts.
Its Latin name is Vampyrotuthus infernalis,
which literally means vampire squid from hell.
And this is our panel.
Can I first of all, by the way, just say thank you to Diva for her answer, because now we will not be talking about the sex life of the anglerfish
for at least 26 minutes to make sure that everyone keeps listening.
That has been happening over the show for quite a while.
Tim, I know you live near water, don't you?
And are you one of those?
Are you an Australian who loves exploring the ocean?
Are you a scuba diver?
No, I'm not a scuba diver because the Lord didn't bless me
with very good ear holes.
I snorkel with my kids a bit.
I live on a rocky bay called Gordon's Bay.
I live right near there.
Not very close, stalkers, just around that area.
And I like, we snorkel, you know,
there's a couple of big blue gropers who live there
and we go looking for them.
And I swim in the ocean,
so I swim from Gordon's Bay to Coogee around the headland,
or at least I did until a week ago when someone got munched
and now we're a bit nervous about it.
Have you, I mean, obviously Brian's got so much wealth that he can get in a little submarine whenever he wants really
um have you ever have you been off with that that chance have you had the the chance to
go deeper into the ocean to go into a small submarine with brian cox yeah
his submarine is one of the few small spaces that brian has not invited me into
is one of the few small spaces that Brian has not invited me into.
LAUGHTER How dare you? None of my spaces are that small.
LAUGHTER
I think, like so many people,
and I really look forward to hearing from Deva and John
about these experiences,
I find the idea of submarines utterly terrifying,
which is, I guess, absurd,
because it's just a plane with water on top of it.
I mean, it's, you know, you're just as screwed
if your plane doesn't work.
But yeah, it scares the crap out of me.
I just want to pay tribute to the professionalism
of Robin's interviewing, where his intro to you, Tim,
was, now you live near water, don't you?
But he does, not everyone lives near water let's make this clear some people live by the seaside
but not everyone lives by the seaside just because some people do. I'd say most people live near water
Robin I'd say that's probably the primary attribute of sapiens or all animals is that
live near water. You're quite right you are always near water because you yourself are predominantly water.
So I should have said,
Tim, you're predominantly made up of water.
Do you like it or do you wish you were drier?
That would be good, I think.
We'll probably stick that question in instead.
Tim, you're really deep.
You could have gone with that.
That's what I would have done.
Yay!
Now you've got it back to radio four level thank you tim
um john one of the things that it's been been talked about on the show in in the past and i
know it's something which sometimes really infuriates uh people involved in areas of
marine biology and exploration which is this idea that we know more about the moon than we do about our oceans. How true is that?
Well, it's not really very accurate because it all comes down to what do we mean by no?
And the source of that often repeated phrase is the fact that, yeah, OK, we've got more
detailed maps of the solid surface of the moon because it's not covered in an ocean,
which blocks radar. So we can't use the same techniques to map the deep ocean floor we have to use sonar and so on
and the maps we've got of the deep ocean floor aren't as detailed but it's not the same as
knowing more about it because the total amount of rock that's ever been collected and analysed
from the moon to understand all of its geology is less than half a ton 500 kilograms whereas of
course we've been exploring the oceans for centuries. We've been collecting samples and specimens. We've been making
measurements, collecting vast volumes of data. We actually know far more about the deep ocean
than these other places in the solar system in terms of what's going on down there.
Sure, there's still lots of really exciting things that we're still discovering. There's
plenty of unknown for us still to explore. But I think what we now know is at least as remarkable as the unknown that remains.
And we don't get other areas of science where people kind of, you know, lead with how much we
don't yet know or understand about something. You don't hear astrophysicists saying, oh, you know,
the really great thing about astrophysics is we've been doing it for centuries. We still have no idea
what 95% of the stuff in the universe actually is. They'll tend to lead with, you know, wow,
look at gravitational waves and exoplanets and the amazing things we've discovered so far. And idea what 95% of the stuff in the universe actually is. They'll tend to lead with, you know, wow, look
at gravitational waves and exoplanets and the amazing things we've discovered so far, and then
the exciting stuff we have yet to understand. And that's also the case with the deep ocean.
It is a difficult place to explore, though, as Tim alluded to, actually. And I know both of you
have been down to the ocean floor. And I wonder, Diva, whether you could give us a sense of
that journey. Because as Tim said, I think it is widely recognized as being as difficult
to go to the deepest parts of the ocean as it is to go into space, if not more difficult.
Yeah, so it's something that's still quite rare. I mean, obviously, it's increasing.
There are more submersibles now than there ever have been. But I mean, the experience
is like
no other, right? Anytime you're going into the ocean, especially the deep ocean, it's so poorly
explored and it's ever changing that you just don't really know what you're going to see often.
And you get in the submersible, you're feeling excited, you're feeling a little bit anxious.
You've got a huge to-do list from everybody on the ship who can't go with you because it can
only fit two or three people. And one of those is usually a pilot and you begin that journey and then you're
just on that journey to the deep sea floor there's just incredible things to see and you're just in
what feels like a whole different world could you give us a sense of the the environment because it
is challenging right very very high pressure cold temperatures and very hot temperatures.
Could you give us a sense of how alien that environment is?
So exactly as you said, Brian, you know, there's crushing pressures,
temperatures hover just above freezing for most of the deep ocean.
It's, of course, extremely dark.
Once you go past about 400 metres, there's no sunlight or very little sunlight.
But yet it is home, as John alluded to in the
beginning you know there is it is home to this just you know amazing collection of life and there
is so much to see down there and so many you know new species new habitats new behaviors those are
things that we're coming across all the time when we're exploring. And yeah, it's just a remarkable place.
John, as Robin said, or joked,
I got the chance to go down in Alvin,
which is, I think you've been in Alvin as well, haven't you?
It's a titanium ball.
If you could describe that technology,
because I did feel as if I was in a spaceship yeah i've not actually been in
alvin i've dived in other human occupied vehicles but i mean the deepest one i've been in was a
japanese sub that's very similar to alvin and it is this hollow titanium ball and it's a couple of
meters across inside um there are three of you in there for you know eight hours plus no um sort of
comfort facilities and very small acrylic portholes
because the whole thing has got to you stay at normal atmospheric pressure we don't run into
any of the problems that scuba divers have with decompression but consequently it has to be
incredibly strong to keep us at normal one atmosphere when it's you know 5 000 meters it's
500 atmospheres outside so a real feat of engineering and of course all the equipment
is crammed inside as well and you do feel like you're in this little capsule and when you arrive it's 500 atmospheres outside so a real feat of engineering and of course all the equipment is
crammed inside as well and you do feel like you're in this little capsule and when you arrive on the
ocean floor and you start picking your way across it you know you you're in this little pool of
light with the lights on the vehicle and there is this vast darkness just spreading out and you
become aware of you know you're in you're a very small being at the bottom of a very large ocean and you almost threw that away there 500 atmospheres pressure i mean
that's a tremendous well it's it's i was going to say it's a tremendously high pressure but it is
it is quite it is an incredibly challenging environment and the question
is always raised i think was raised in my mind How do things live there on the floor of the ocean five kilometres down?
So here's the thing about the deep ocean.
We, you know, have a challenge of pressure because we need to stay in a one atmosphere environment and we've got gas filled lungs inside us and so on.
and so on. But actually, for the animals that live in the deep ocean, the challenge of pressure is not one of mechanically resisting all that pressure like our deep diving subs have to do,
because most of the animals down there, they don't have gas filled lungs or any gas filled
space inside them. Their bodies are made of solid tissues and body fluids, liquids. And those are,
you know, pretty fundamentally incompressible. If you would
take a plastic syringe, stick your thumb over the end with air in it, you can easily squash down
that air by pushing on the plunger. But if you try that with a plastic syringe and you put water in
it, you will not budge that plunger. Water is pretty much incompressible. Fill your plastic
syringe with plasticine. And again, you're not going to budge that thing so the pressure inside the bodies of these animals because they're made of incompressible materials
is actually the same as the pressure outside so they don't have to withstand a massive difference
of pressure across their body walls or anything like that the challenge for life in the deep ocean
is actually really a molecular one and biochemical one. Because, OK, they are exposed inside their bodies.
They have that high pressure.
That causes problems for proteins folding up into the right shapes
that they need to be to work as enzymes.
And deep sea animals have little molecules.
And basically what happens is water gets trapped on the unfolded protein
as it's being put together as a chain.
And deep sea animals have little molecules that we
call chaperones which help to pull the water molecules off the unfolded peptide chains
proteins as they're being built so that they then fold up magically almost into the right shape to
work as enzymes and keep the cells you know living healthily and so on so there is a challenge of
pressure but it's actually it's not the one we tend to think of because it's not
you know these are not organisms like us now um tim you were mentioning at the beginning about
your love the vampire squid which i know came from very deep research into octonauts
which is one of uh we've mentioned it before on this show it's such a great show for introducing
fabulous creatures and and this is what when john starts to explain this idea of forms of life which feels so
counter-instinctual to us i love the see-through stuff i just really love see-through stuff the
glass octopus and crystal jellyfish and where all you can see is eyes and optical nerves and
maybe a bit of a colon or whatever the digestive tract is it's so great and it does feel like what is the stat that
we we think we know some percentage of one percent of the species down there right is that right
diva um the number of species we don't we haven't discovered just by modelling in the deep ocean, really, it sort of means, if you can imagine it, it'll be there.
I mean, obviously, with limitations,
but every time I see a new freaking deep-sea creature,
I just think, nah, but it's really exciting.
I still wouldn't go down in a little metal ball to 500 atmospheres to see it.
I'll just get someone to go down with a camera and send
the photos back up. Can you, by the way,
write a song, please, called I Got Lost Somewhere
Around the Peptide Chain? Because I think that
has a top ten hit
internationally there.
A country lament.
A country lament
with peptide chain in it
is changing Nashville in a way we...
Diva, can I just go back and then we will return to talking about the evolution of creatures in those environments.
But how do you psychologically prepare to go down?
You know, as John was saying, you know, it's very, very, you know, close environment. As he said, there's no kind of comfort there.
Just see if we can persuade him that maybe we can put him in a small titanium ball I mean psychologically that's the less tough
question I think you know you're like it's it's something new it's something exciting you're going
down and you're going to see something most likely that no one has seen before like what an incredible
thing to be part of for me the tougher thing is how do you physically prepare? And that basically means dehydrating myself for, you know, 18 hours before or whatever to avoid the issue of having to go to the bathroom during the nine hours we're in the submersible.
Sorry, I'm beginning to realise now that some of the fabulous things that have been observed are actually not real at all.
They're just seen by dehydrated scientists who are going through a period of insanity.
dehydrated scientist who will have to go through a period of insanity.
Diva, can you describe, as Tim alluded to, you get strange organisms that are really alien to our eyes. Can you describe that process? You drop down from the surface, so you see out of the
porthole, you see fish, I suppose, that we're all used to and then you start seeing as Tim said
these translucent organisms bioluminescent organisms as you go down so can you describe
that drop down to four or five kilometers? Sure and I also wanted to touch on something I think
Tim was saying as well about the species the number of species I mean we think that there
are around 700,000 to a million species in the ocean. And two thirds of those still have not been discovered.
So and a lot of those, of course, and the majority of those are in the deep sea.
So really, there is a huge amount still to find down there and understand.
But in terms of that journey down, I think, you know, there's one of the best parts of that journey is, of course, you're going down, you're seeing light
disappearing, you're seeing colours changing because you're losing the different wavelengths
of light. And before you know it, you're in the darkness. And then you hit this zone in the ocean
between the twilight and the midnight zone. And that is really where you begin to see a lot of these translucent or transparent animals.
You block out all the light.
If you can cup your hands around the porthole
to block out any of the light that's inside the submersible,
you then begin to see what can only be described as
the most incredible firework display you'll ever see in your entire life.
There are greens, there are reds, there are blues, there are flashes, there are pulses, there are rhythmic
displays. I mean really there is just this incredible show of animals
basically being disturbed and freaking out in some way or trying to attract you
and creating their own light and it's just an incredible thing to see.
The light inside the submersible is like running lights and computers and stuff
or is it like the light that opens when the door opens in the car?
Are you like, did someone let the boot open?
I think you can turn them off inside, but yeah, there'll still always be some kind of ambient light behind you.
And John, bioluminescence is a fascinating phenomenon.
What do we know about why animals have evolved that capability?
So animals in the deep ocean are using it for a variety of different purposes.
ability? So animals in the deep ocean are using it for a variety of different purposes. In some cases, communicating with other members of the same species, maybe to attract a mate, whatever
it might be. Of course, there's all that stuff of attracting prey, you know, the lure of the
deep sea anglerfishes and all that kind of thing, or illuminating prey with searchlights when
hunting, evading and confusing predators with bioluminescent displays as well and then in this zone that divas
describe this kind of twilight zone before we get to the full midnight zone where there's still some
very faint downwelling light a lot of the bioluminescence there is used for camouflage
because if you're living in that zone you cast a shadow there's faint light still coming from above
and a lot of the fishes and and squids and so on there have these incredibly sensitive upward
looking eyes they're looking for the shadows
of something to eat.
So it's all about not casting a shadow,
breaking up your silhouette.
And a lot of the animals
in this particular zone in the ocean
produce light displays on their undersides,
which match the light coming down from above
and they kind of just blend into it.
John, you mentioned the anglerfish.
So that really does seem like a natural point
to the audience already so
the sex life they're ready for me to lower the tone of the show completely
it's possible so as we've heard already throughout the show you know there is the deep ocean is is
dark and it's just an absolutely massive place.
So it can be quite difficult to find a mate.
So instead of sporting a luminescent lure like the female does that John was chatting about earlier, you know, male anglerfish have massive eyes and massive nostrils to help them seek out their ladies.
And the ladies can actually be up to 60
times larger than the males, right? I'm just going to be dotting nuggets through this, right, that we
can pick up after. So then when a lucky male does find a female, he becomes so, you know, taken with
her incredible scent and her overwhelming charisma and her incredible looks that he just bites her
and when he bites her it triggers a hormonal reaction that causes his lips to fuse to the
side of her body and then his organs begin dissolving right And his circulatory system fuses with hers. And eventually he becomes nothing more
than a dangling testes on the female side. He basically just gives her sperm whenever she needs
it. And she gives him everything he needs to stay alive and it basically alleviates the problem of having to
find a mate every time the female is ready to reproduce. Tim just put some nice gentle music
underneath that I'll tell you what Tim we've definitely got the b-side for your peptide chain
song the dangling testicles number I think is going to be there but that is I mean that's one
of the things that always finding fascinating the speed of change of
understanding of the possibility of what can evolve now how much in the last 50 years has
again the different possibilities of life changed our understanding of what life itself is
for me that's why it's really exciting to be a biologist working in deep ocean environments
because you know it's not just a
single environment or habitat, which in the past, I think we tended to think, oh, yeah, the deep
ocean is like one place with a set of conditions and so on. No, you know, we've got lots of different
environments. You know, we've got on the ocean floor, we've got everything from muddy abyssal
plains to rocky seamounts to amazing submarine canyons volcanic rifts ocean trenches you know
there's this incredible diversity of of habitats popping up in the deep ocean that we're aware of
and they have their own adaptations to those conditions and patterns of life so what this
means for a biologist is that these are like lots of natural experiments where the conditions are each time set differently in
terms of you know how that ecosystem gets its energy you know what's the nature of the environmental
conditions the temperature the type of the sea floor all that kind of thing and so it's almost
like we're running nature is running lots of experiments and showing us what arises in terms
of amazing adaptations to challenges like d was talking about with the anglerfishes through to you know the patterns of life in space and time you know there are
cycles of life in the deep sea in environments that really surprise us and we're still struggling
to understand so what I think is really exciting about the deep ocean is it broadens our perspective
of what is possible in terms of life if we we only studied systems above the waves and in shallow water,
we just wouldn't have the full range of seeing what nature can do,
how life can survive and not just survive,
but really thrive in terms of adaptations.
I was going to ask Brian where he dived.
It was the Baja, California, so just off the coast of Mexico.
Nice. Yeah.
To the vent systems down there.
And as you said, the thing I found wonderful was the bioluminescence on the way down.
But it was just the richness of color.
The moment you turn those lights on, particularly the yellow mats,
which are coming from those bacteria that have a well deposit
sulfur on the floor as part of their metabolism i found it stunning and the tube worms um do we
have any understanding of you talked about the uh the importance of light down there even though
it's a completely dark environment so therefore the organisms generate their own light does that
tell us
something about the way these these things evolved i mean it would it would seem to me that you if
you evolved purely in the darkness in the depths you wouldn't need eyes for example this is what i
was getting stuck on i'm like if you if you're down below the twilight zone why would anyone
evolve light because they wouldn't have evolved eyes or why would they
evolve eyes because they wouldn't have evolved light i think god put in that hypothesis aside
i love it when he does his catchphrase one of my favorite catchphrases
john yeah so there is still light there's just no. So bioluminescence is still going on
down there for all those reasons other than the camouflage one, so communicating with others
members of the same species. There are some other sources of light in the deep ocean, particularly
hydrothermal vents, that are not biological and very mysterious. So the the vents they actually glow incredibly faintly well actually just slightly
too faint for the human eye to see dark adapted they glow and there's been a lot of debate as to
what this light what's producing this light it's not biological there are some pretty wacky
physical theories to do with minerals precipitating out of that hot mineral rich fluid or indeed
mineral crystals fracturing as they do that so a top tip if you want to explore some of these
crazy ways you can make light if you get yourself a packet of a popular brand of mint and you put
yourself in a darkened room and you snap one of these popular mints in half you will see a flash of light and
it's something called triboluminescence now that it's probably actually the chemical reactions in
the hot vent fluid that produce a very faint glow and we get animals down there living at the vents
that have light sensing organs that are able to perceive that and use that to find their way
around in this kind of maze of of mineral spires gushing scalding potentially scalding water we do make it clear actually just
because we are the bbc that there are other brands of mints apart from popular mints
which mint is it it's one that's renowned for being round yeah it is actually based on the
most important part of the experiment is the popularity of the mint,
so that will change region by region.
It's the popularity, not the structure of the mint.
I haven't actually tried it with other mints.
I mean, there's an experiment.
Let's see, you know, do we get Tribal Illuminescence
across a whole range of supermarket mints?
Beef mints, chicken mints.
Popular forms of mints, chicken mints. Popular forms of mints.
It's late over here, I'm tired, I've had Covid.
This is a lovely theatre because, yeah,
of course, we're recording in the UK in the morning,
but for Tim, it's about 11pm now, isn't it?
That's right.
It's lovely.
Where are your tapers to hypnagogic visions in your head?'m starting to see god in hydrothermal vents well hydrothermal vents
do move in mysterious ways as we've just discovered so your analogy is getting stronger and stronger
that's not the king james the king james version in the beginning there was light or something
yeah no there was the word there was the or something. Yeah. There was the word.
There was the word first, and then the word was God,
and then God said, let there be light,
and then there were hydrothermal vents,
and then there were anglerfish who liked really big lady anglerfish
and then got sucked into their nasty anglerfish trap
and became swinging testicles of nothingness.
That really is a great frank sinatra song
diva we should probably move on because i know we're almost running out which is also to think
about as we're exploring the the ocean floors as well there's a lot of different conversations as
well about the human impact of what we're you know the possibilities of for
instance the exploitation of the ocean floor so so how do we start to measure first of all the
human impact so far from looking at the deep ocean so i think that's something that a lot of people
really think about i mean most people don't really think about the deep sea at all right but also the
fact that it is yes it's out of sight yes Yes, it's out of mind. But actually, it's also under pressure in multiple ways.
And so with this increase in technology that's allowing more people like Brian to go into the deep ocean,
we're also seeing an increase in technology that's allowing us to use more of the deep ocean.
And that is resulting in a lot more impacts.
So often, and John will have similar stories, you know, we will go to a part of the ocean that no one has been before and we will find evidence of us.
And that can be a beer bottle or it can be trawl marks from a fishing net.
But, you know, it's very rare that we would go out to sea on an expedition and not find some kind of human impact that we can see with our eyes.
And those are, of course, like the obvious ones, right?
Like I just said, pollution and fishing impacts and so on.
But then there are all these other impacts that we actually can't really see very easily, like chemical pollution or microplastics.
And so there's that.
But then, of course, there's, for instance, industries
pushing into the deep ocean. We've got deep water oil and gas exploration that's been happening for
a couple of decades now, extraction, I should say. And now we've got new emerging industries
potentially on the horizon as well. We're beginning to think about getting minerals
from the deep sea. And so perhaps in the next few years, there may be deep sea bed mining happening.
from the deep sea. And so perhaps in the next few years, there may be deep sea bed mining happening.
And of course, all of these things are going to cause an impact. And that's particularly worrying because the deep sea, for the most part, is a very slow and stable environment. And that means
that it doesn't really deal well with change and impact. And not only does it not deal well with
change and impact, but for most of the deep
sea, it's still so unexplored and so poorly understood that really we lack that basic
amount of information to be able to weigh what the change is against. And so we're almost like
grappling in the dark with what is happening in the deep sea, even though it is already changing.
But that suggests that, and this is really a question but it seems to me it suggests that there are two ways of
treating the deep sea on the extremes there's a there's like the antarctic for example where we
ring fence it it's almost like a protected area but also there is the i suppose the other end of
the scale as you mentioned it, it's resource rich.
And so therefore there may be a feeling that we could exploit it perhaps in some kind of
sustainable way. So how do you see it? Do you see it as something that should be
absolutely off limits, at least until we understand a great deal more about the environment?
Or are there opportunities there for us to begin to mine minerals, perhaps in
a sustainable and responsible way? So I think there's a lot of benefits that we get from the
deep ocean, both monetary and also things that don't, right? So for instance, the deep sea,
which we haven't really touched on, is really important for things like climate regulation
and has links to fisheries that feed billions of people,
nutrient cycling, it's linked to culture of many different humans around the world. And yet,
there is still so much that we really don't know. And so in terms of that question about balancing
exploitation and use with preservation, it's a challenging one, obviously, for society, but there are ways to
use the deep sea without causing a huge amount of impact. So for instance, we've heard about how
incredible deep sea life is so many times during the show. And those properties, you know, that
uniqueness about deep sea animals, those potentially could be useful to us, they're marine genetic
resources. And so that's one way in which we can get so much from the deep ocean.
Bioinspiration is another one. But then when we think about activities like deep seabed mining,
which is potentially going to take place on an enormous scale in our ocean, and really could be
one of the largest industrial extractions to ever be seen on the planet, there are questions around that,
like very grave questions around that. And again, because of how long the deep sea and life there
takes to recover from these types of activities. John, I wondered in terms of the importance of
education, of knowing, as you said, it is a very, it's a mysterious place to most,
and I know that I've seen, i forget which environmental talk i saw by someone
who once said that the problem is as human beings we will not fight for things that we do not love
so how do we show people the this incredibly intricate and strange world yes the thing is
right now we have an opportunity that we never had before in terms of connecting people with
the deep ocean um for anyone who has an internet connection at least because you can just with a smartphone
you can hook up for free to live feeds from the cameras on deep diving remotely operated vehicles
on expeditions around the world you can tap into camera feeds from cameras watching hydrothermal
vents all the time they send back like 15 minutes every few hours. You can listen
to whale song from a hydrophone 900 meters deep in Monterey Bay. There are 4,000 floats bobbing
about in the ocean monitoring its conditions and health. And again, you can just go online and
click on the measurements they're making. These were all kind of specialist resources that even
10 years ago, only researchers in ocean sciences would have had access to. And now it's there for anyone who wants to dip into it.
It's like a portal to the heart of the ocean.
But we have to make sure that, you know, that that is getting through, that we're connecting to the deep ocean.
Rather, we're seeing its connection to us, as Diva said, and that everyone has access to that.
And that includes, therefore, you know, making sure that everyone has the opportunity to be involved in ocean exploration.
So, Tim, now we've realised it's important that you get involved in ocean exploration.
You've heard the case for it.
Are you now prepared to be put in a titanium ball?
Yeah, stick me in a two metre diameter sphere for eight hours, dehydrated.
Sounds awesome.
So, to try and charm you, Tim, did a couple a couple maybe a year or two ago
I went down with Will Smith in a submersible and he anyone would do that yeah exactly so I mean if
he can do it you definitely can and he certainly was also shitting himself um But, you know, by the end of it,
he thought it was a lovely experience.
So the dehydration worked well,
but he had been eating solids.
That's what we found out there then.
Pre-dive, Carrie.
Before we end, I'm going to make one last heroic attempt
to bring this back on track.
You know, often when we talk about um
space exploration or astrophysics or there are big questions that that and we often ask you know if
if there's an answer to one of the big questions that you could receive in your professional life
or even discover what would it be so i wondered um start with you diva what are
the one or two of the biggest questions left in terms of the the animals down there or the
environment itself so i mean i'm gonna take this from like a very very basic angle and i think
you know the fact that we've seen far less than one percent of the deep ocean to me is still this phenomenal question just just answering
that first question of what is down there like to think that we can ask that about the majority of
our own planet is something i think that really does need unraveling and could there be a big
thing not wishing to go back to robin's awful, which, you know, the Loch Ness Monster and all that drivel that he talked about.
Is it possible that there are large things down there?
We tend to think of species as little microbes
and interesting little things.
Is it possible that there are big things down there
amongst the unknowns?
I mean, how big are we talking?
I don't know.
Giant squid, giant squid level.
Not dinosaurs, actually, or Loch Ness Monsters. I mean't know. Giant squid, giant squid level. Not dinosaurs,
actually. Or, look, there's monsters.
I mean, I'm interested. I think what Brian's
trying to say is, is it possible that there
are ghosts down there? Because it
does seem, you know, it's below the twilight
zone. It does seem highly likely.
Sorry, Rob. That is what you were trying to say, wasn't it?
It's possible that there's goats down there.
Oh, well, goats as well. Spider goats.
There's not going to be goats. Goats are amazing and they go anywhere,
but there's not going to be goats down there, mate.
We're joking about this,
but John and I have actually seen pigs down in the deep sea.
Yes.
This is where the show was meant to get to.
Tell us more about the sea pigs.
No, actually, it wasn't even sea pigs.
We mean land pigs.
I just know this is a lie because you
try and stop a pig from drinking
for 18 hours and they just won't do it.
So very quickly,
basically
the deep sea is a really
food-limited environment. So
what happens is sometimes you get
these really big injections of food in the deep
sea. So it could be a tree that
floats out to sea and sinks or a whale, for instance, that dies and sinks into the deep ocean. And that
really is this, you know, prompts this feeding bonanza on the deep sea floor, because animals
come from far and wide to just gorge on what has arrived. So we were in Kingston, Jamaica,
getting on a ship to go out to the Cayman Trench to look for the world's deepest hydrothermal vents.
getting on a ship to go out to the Cayman Trench to look for the world's deepest hydrothermal vents.
And we decided, hey, why don't we just sink some animals, dead animals, obviously.
And so we went to the butchers in, no, it was Montego Bay, went to the butchers in Montego Bay and just ordered some pigs, some whole pigs.
And we strapped them onto the RV.
They were called Petunia and Princess.
And we left them down on the deep sea floor
to see what would come to eat them.
Always name your dead pigs.
That's an even more...
And Tim, I think we're nearly at an album now.
Going to the butchers on Montego Bay has...
I can hear that one already.
Princess and Petunia.
Terrible.
And we only got one of them back, if I remember right.
We got one of them back and some very interesting species
had colonised the bones and so on.
And this was picked up a few months later
during a Japanese expedition, which was out exploring the same area.
But one of them, something made off with it into the darkness.
So to go back to the question, you know,
could there still be big things out there? Yeah, there could be. So I to go back to the question, you know, could there still be big things out there?
Yeah, there could be.
So I'm just going to add that, you know,
we also sink things like alligators and entire whales, cows.
I mean, yeah, deep sea scientists.
We get bored despite the amazing array of things
we have to study in the deep sea, I guess.
This mixture of your dehydrated hallucinations
at the same time as sinking pigs
is a kind of aquatic version of a Pink Floyd gig.
It's a really intriguing thing to do.
Sinking pigs sounds like the band name, Robin.
That's a good place to end.
I was going to go to the audience questions,
because we asked the audience,
if you could discover one thing hiding in the deep ocean,
what would it be?
And the first answer we got was from Stephen, who said,
it'd be quite nice to discover whatever it is Bono has been looking for
without success since the late 1980s.
That would be lovely for him.
The idea that that song just ends with,
found it, and everyone goes...
You really seem to have destroyed the emotion for that.
And you know what is annoying?
It's where I left it just before we started recording The Joshua Tree.
That is so annoying.
How about this one, then?
This is at my level at the moment, isn't it?
Ian Gwynn, an amazing dairy fish,
cos fins can only get butter.
Ooh.
I don't feel so bad about my earlier puns.
I feel quite...
Yeah.
Gareth.
Gareth said Tim Minchin in a mermaid costume.
Yeah.
I think that's actually from a game of Cluedo he's been playing.
If you could have one half of you be a mermaid,
which bit would it be, Tim?
Would it be the top or the bottom bit?
Would I rather a fishy tail or a fishy top?
Do you want to have the head of a fish, thus removing your career,
but just the ability to walk around bumping into things,
or would you rather be wheeled about but still
singing? I would like the head of
Petunia the pig and the
testicles of an anglerfish
Someone's drawing that right now at home
I can hear the doodles being made
Well thank you very much
to our fantastic panel
Steve Ramon, John Copley and tim minchin
and thank you very much to all our audience at home as well um now next week we're going to find
out how you can go on an adventure to discover the incredible underground connective tissue of fungi if your dog falls into a toilet
that really is the starting point of next week's show it involves a dog falling into a toilet
though we should make it very very clear uh bbc advice again please do not put your dog down the
toilet for the purposes of scientific research because you've heard that just relax with a
popular mint don't get involved
goodbye research because you've heard that. Just relax with a popular mint. Don't get involved.
Goodbye.
Goodbye.
Turned out nice again.
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