Something You Should Know - How Your Refrigerator Changed Your Life & Why Are There Volcanoes?
Episode Date: June 24, 2024In an argument there are usually two things going on that make it so difficult. Listen as I begin this episode by explaining what those two important things are and how to fix them so you can then mov...e forward and resolve the argument. Source: Jim Ferrell author of The Anatomy of Peace (https://amzn.to/4erYLUP). Everyday you open and close your fridge a million times without giving it much thought. Yet, your refrigerator is part of a technology that has completely changed our lives. The concept of refrigerating food is only about 150 years old, but it is impossible to imagine life today without it. Listen as I speak with Nicola Twilley about this. She is a writer, frequent contributor to The New Yorker, host of the podcdcast Gastropod (https://gastropod.com/category/podcasts/) and author of the book: Frostbite: How Refrigeration Changed Our Food, Our Planet, and Ourselves (https://amzn.to/3VuXNP0) . She reveals the good and bad consequences of refrigeration. And there are plenty of both. Why are there volcanoes? That molten hot lava that comes to the surface when a volcano erupts came from somewhere but most of us don’t really understand where or how or why. Do volcanoes have a purpose? While they are destructive, could they also be helpful – even necessary? Why do volcanoes erupt? Why do they go dormant? To understand all of this and why you might even owe your existence on earth to volcanoes, listen to my guest Tamsin Mather. She is a professor of earth sciences at the University of Oxford and author of the book Adventures in Volcanoland: What Volcanoes Tell Us About the World and Ourselves (https://amzn.to/3xk4DyI). For many women, carrying a purse is a necessity. And because they go everywhere and carry everything, purses can get pretty gross. Yet they are seldom cleaned. Listen as I explain the problem this creates which is not just a “yuck factor” issue, it can be a real health concern. https://finderskeypurse.com/blogs/finderskeypurse-com-blog/how-dirty-is-your-purse-plus-how-to-keep-it-clean PLEASE SUPPORT OUR SPONSORS! Indeed is offering SYSK listeners a $75 Sponsored Job Credit to get your jobs more visibility at https://Indeed.com/SOMETHING Go to https://Shopify.com/sysk now to grow your business - no matter what stage you're in! eBay Motors has 122 million parts for your #1 ride-or-die, to make sure it stays running smoothly. Keep your ride alive at https://eBayMotors.com We really like The Jordan Harbinger Show! Check out https://jordanharbinger.com/start OR search for it on Apple Podcasts, Spotify or wherever you listen! Learn more about your ad choices. Visit megaphone.fm/adchoices
Transcript
Discussion (0)
The search for truth never ends.
Introducing June's Journey, a hidden object mobile game with a captivating story.
Connect with friends, explore the roaring 20s, and enjoy thrilling activities and challenges
while supporting environmental causes.
After seven years, the adventure continues with our immersive travels feature.
Explore distant cultures and engage in exciting experiences.
There's always something new to discover.
Are you ready?
Download June's Journey now on Android or iOS.
Today on Something You Should Know,
how to stop an argument before things get out of hand.
Then, refrigeration.
It's revolutionized how we all eat,
but it scared people in the beginning.
People were seriously against it at first.
They were afraid of it.
People thought this was zombie food, undead, and they didn't trust it.
And quite right, because they no longer knew how to know whether it was fresh or not.
Also, there's something in every woman's purse that probably needs attention.
And volcanoes.
You know what they are, but you may not know a lot about them.
They're really fascinating.
One of the things that fascinates me about volcanoes is we would not be here, I don't think, as a species if it was not for volcanoes.
The gases coming out of volcanoes help to maintain our atmosphere over geological time.
All this today on Something You Should Know.
This winter, take a trip to Tampa on Porter Airlines.
Enjoy the warm Tampa Bay temperatures and warm Porter hospitality on your way there.
All Porter fares include beer, wine, and snacks, and free fast
streaming Wi-Fi on planes with no middle seats. And your Tampa Bay vacation includes good times,
relaxation, and great Gulf Coast weather. Visit flyporter.com and actually enjoy economy.
Something you should know. Fascinating intel, the world's top experts and practical advice you can
use in your life today something you should know with mike carothers hi there welcome i want to
start this episode by offering up some really good advice that will make you better at resolving
any conflict and it comes from a gentleman named Jim
Farrell, who wrote a book called The Anatomy of Peace. You see, in any conflict, you've got a
couple of things going on that make it difficult. Number one, no one in a conflict thinks they're
wrong. So trying to convince someone they are wrong, while that may feel like the right thing
to do, rarely moves the conversation towards a resolution. In fact, it often makes things worse.
Number two, the natural tendency in a conflict is to ask at some point, so how do we fix this?
The problem with that question is that you're trying to fix something that has already gone wrong.
It's already broken.
That's not always possible or even desirable.
A better question might be, what can we do to help things go right?
That steers the conversation towards a more permanent solution.
Understanding these two concepts and putting them into action can make anyone better at resolving conflict.
And that is something you should know.
There is this invention, this technology, that you interact with every day.
You probably don't give it much thought,
yet it has really changed the world significantly,
more than you probably realize.
And that invention is refrigeration.
Artificial cold.
And yes, having a refrigerator in your kitchen is wonderful,
but like with any technology, there are problems too.
Here to help you understand how your refrigerator changed your life is Nicola Twilley.
She is a writer, frequent contributor to The New Yorker,
host of the podcast Gastropod, and author of the book Frostbite,
How Refrigeration Changed Our Food, Our Planet, and Ourselves.
Hi, Nicola. Welcome to Something You Should Know.
Thank you for having me.
So let's start with just a real quick history lesson here.
When did refrigeration become a thing for people?
Well, so humans have noticed that cold kept food good since humans noticed things.
There are examples of Paleolithic people using ice pits to keep their mammoth fresh.
The trick was no one could make cold until really recently. And so
people didn't see cold as a very useful way to preserve food because natural cold was so
unreliable and it's not available everywhere and it's only available in the winter. So you just
didn't rely on it. You used it. People used ice to make ice cream in summer or to make wine slushies. It
was a treat, but they didn't rely on it for, you know, shipping meat across the country.
When a scientist, a guy at the University of Edinburgh first figured out how to make
artificial cold, it was seen as a party trick. No one knew what to do with it.
And it's actually really, really very recent, 150 years only,
that we've actually sort of used cold commercially
to ship food around the world.
Isn't that amazing that it's only 150 years old
and yet it is just part of everybody's life every day in this country. And what about freezing? Are refrigeration and freezing all part of the same development of technology, or are they two parallel paths of two different things? That's a good question. They are obviously similar. In both cases, you're reducing the temperature.
And so basically by taking energy out, you're slowing things down.
The way refrigeration works, the way cold works is it slows things down.
So the bacteria that would be metabolizing and reproducing and turning your food bad,
they're just growing more slowly.
Everything happens more slowly in the cold.
And so that's true of both.
But freezing goes a step further by locking up the water.
And without water, then all of those processes that would lead to decomposition
just basically stop.
So they're parallel, but with a slight tweak.
The same people working on it, or did they show up in different spots and then
sort of get merged together in the refrigerator freezer?
Oh, yes. Good question. Very different people working on it, actually. So at first,
refrigeration came first, just lowering the temperature. And it was actually an Australian printer who was the first to come up with a working refrigeration machine and sell it.
And the place he sold it to was actually a brewery, one in London and one in Australia.
Beer brewers, lager beer brewers were the pioneers in refrigeration because it's very hard to make lager beer.
The yeast doesn't like being too warm.
In the summer, you really need refrigeration.
So they were the ones who said, hey, this new technology works for us.
So that was happening in the mid-1800s.
Freezing was a whole different set of problems because the thing about locking up that
water is it forms ice crystals. And those ice crystals can damage cell walls. Everyone's
experienced this. Try and freeze a strawberry. It's very hard to do. It's sort of mushy when it
comes out. That's the effect of those ice crystals breaking down the cell walls.
And it took Clarence Bird's eye to figure out that if you froze things super quickly,
you could get around a lot of that breakdown and keep the texture relatively intact.
So yeah, they operated separately. And for a long time, people didn't have freezers. And then for a
long time, they didn't have combined fridge freezers.
And so although they work roughly in the same way, they only kind of met in our kitchens relatively recently post-war.
Isn't that interesting that the two things happened differently?
And Clarence Birdseye, I mean, he's kind of a legend.
And his name is still on, I think, a lot of frozen food. And he was kind of the big pioneer in freezing food the way you just described that made it work.
He was, but you know what he did?
He froze a load of food, and then he realized, oh, wait, I have no way to distribute this. Stores have no way to sell it, and customers have no way to store it at home. So that's one of the interesting things about this
whole technological development too, is that everything has to come along at once. If you
don't have anywhere to keep your frozen fish stick at home, then there's no point having a fish stick.
Well, right. Well, you know, it's also kind of like, you know, who's going to buy
the first telephone? There's no one to call. Exactly. Somebody has to go first. Somebody has
to be. And then it kind of stumbles along until it finally clicks. And then we're all now you get
to the stage where we're all locked into this. And it seems completely weird to imagine even living without a fridge or a freezer.
So I have heard that a lot of the food we buy at the store that's, you know, fresh produce actually sits in refrigeration for weeks, months, maybe years before it gets to the store.
Is that possible?
It is indeed possible. If you go to the store
in June or July and you buy an American apple, it's probably coming up on its first birthday.
And the reason for that is really simple. Apple harvest starts in late August and runs
maybe through November. So think about it. That apple has to be getting on a bit if
you're buying it in the store in June. I just, most people don't think about it, but produce
has seasons, yet we can buy it all year round. And apples are one of the most interesting,
actually. They were really one of the first pieces of produce to be successfully refrigerated in this way. And the life extension technology we
use for apples is, well, to mix my metaphors, bananas, because it relies on not just making
them cold and slowing down their death that way. And by the way, the apple is still breathing
all the way up until you eat it. The apple is still breathing and burning through its own internal resources. And the trick is sitting in very, very reduced oxygen levels in the most sophisticated warehouses.
It's actually controlling the oxygen levels itself.
It's a dynamic system that adjusts to how fast the apples are breathing in and out and controls the levels with it.
And they just sit there in the dark in these oxygen-starved,
cold environments, breathing very, very, very, very slowly. And then you buy them 9, 10, 11 months
later. See, I've always thought that the reason you could buy apples in the springtime was because
probably somewhere else in the world they grow apples in the springtime
and they grow it so you know it's like so it's five o'clock somewhere like it's harvest season
somewhere and so that that's where the produce comes from well that's also true i mean so if you
you can buy an american apple in the stores right now, and it will have been stored under refrigeration since last harvest season.
It's also harvest season somewhere right now.
And guess how those apples are getting to you?
In a refrigerated shipping container.
So either way, it's refrigerated.
Our topic is refrigeration, artificial cold, and how it has changed your life.
My guest is Nicola Twilley, author of the book Frostbite,
How Refrigeration Changed Our Food, Our Planet, and Ourselves.
Mama, look at me.
Vroom, vroom.
I'm going really fast.
I just got my license.
Can I borrow the car, please, Mom?
Kids go from 0 to 18 in no time.
You'll be relieved they have 24-7 roadside assistance with intact insurance.
Mom, can we go to
Nana's house tomorrow? I want to go to Jack's
place today. I'll just take the car. Don't wait
up, okay? Kids go from 0 to
18 in no time, don't they? At
Intact Insurance, we insure your car so
you can enjoy the ride. Visit intact.ca
or talk to your broker. Conditions apply.
Take back your
free time with PC Express Online grocery delivery and pickup.
Score in-store promos, PC Optimum points, and more free time.
And still get groceries.
Shop now at pcexpress.ca.
So, Nicola, when refrigeration first came out, I'm wondering,
did people think, you know, it was evil or that there was something
wrong with the food and that, you know, we were all going to die if we ate refrigerated food?
This is the part I found actually the most surprising, along with how recent refrigeration is,
is that people were seriously against it at first. They were afraid of it. And if you think about it, it makes sense.
Before, if you saw a fresh chicken, you knew it had to have been slaughtered a day ago or that day.
Now here was this new technology where the chicken could look fresh, but it could have been slaughtered a year ago, 10 years ago.
I mean,
what is and people thought this was zombie food undead, and they didn't trust it. And quite right,
because they no longer knew how to know whether it was fresh or not. You know, fresh used to mean
something. And if your food was older than a day or two, you had to have preserved it in some way
that would have changed its physical appearance.
You had to have dried it, smoked it, canned it, done something that would let people know how old it was.
And suddenly the fridge comes along was agitating for that.
And so they ran a big PR campaign.
Refrigerated food is safe.
And they held these banquets. The first one was in Chicago,
where everything on the menu had been refrigerated. And you know, today, you'll go to a restaurant
and you'll see, oh, this is grown by this farmer at this place. On that menu at the cold storage
banquet in Chicago, it said, this chicken has been stored for six months at Booth's Cold Storage, you know, 53rd West 22nd Street.
It listed the cold storage warehouses.
And it was a giant PR attempt to try to prove to Americans that refrigerated food was safe.
Must have worked.
Slowly but surely.
I mean, even after that first meal, there was a headline in the Journal of the American Medical Association the next day.
This means nothing.
You know, what happened, honestly, was a woman called Holly Pennington made refrigeration scientific.
She did the research.
She was hired by the federal government to figure out how food could be refrigerated safely, what temperature things had to be stored at for
how long to be safe. And she was an absolute pioneer. She was hired at a time when women
weren't hired into the civil service and especially not as a scientist. So she was a total rock star.
And she is the woman who basically got Americans to trust refrigeration wouldn't kill them.
And it doesn't seem like it kills anybody.
It doesn't, but does it do them a lot of good?
This is the question I sort of tackled when I looked at, you know,
has refrigeration been good for our health?
And it's a harder question to answer than you would think.
People straight off the
bat are like, of course, now we can have fruits in winter. How can it be bad for us? Well, it turns
out that, for example, those fruits are much lower in nutrients, vitamins and minerals and
phytonutrients than they were in our grandparents' day, in part because of the breeding for shelf life to be able to be
refrigerated. So there's that. There's also the fact that we can buy a lot of fruit and vegetables,
but we don't necessarily eat them. There's also the fact that, you know, when refrigeration was
introduced, everyone was like, oh, this is terrific. We can eat more red meat and be strong.
Well, our ideas of what is healthy to eat have changed.
Another thing that is increasingly emerging is that our gut microbes, the little microbes
that live in our gut and outnumber us by trillions to one, they have a huge impact
on everything from our health and our
immune system to our mental health. And they are profoundly altered by refrigeration because prior
to refrigeration, we consume much more fermented food. So fermented food full of beneficial microbes
that our gut microbes like that end up having a huge effect on our health.
So yeah, pros and cons.
On the other hand, salt consumption reduced when refrigeration was introduced,
and that's been a huge benefit for public health.
So it's a harder question to answer than you think.
Well, one of the things, one of my pet peeves is, you know, food waste.
I hate that so much food gets wasted.
And so you would think,
well, refrigeration prevents that. But I've always thought that people buy more food than they
probably should because they think it'll stay in the refrigerator and then it sits in the back and
goes bad and then it gets thrown away anyway. You've totally nailed it. That is exactly it.
So one of the reasons people thought refrigeration would be a great blessing at first
is because so much food was lost getting from farms into the city to feed people.
A third of all food was thrown away, and people thought this was just an unbearable waste.
And it was.
Refrigeration did stop that.
The problem is that we now throw away a third of the food we buy. So that waste has just sort of transferred where it happens. It doesn't happen
on the way to us. It happens once we bought it and we just let it pile up in our oversized fridges.
And the fridge, it's like a, I mean, food waste researchers described it to me as a clean, cold waste bin.
Because you put stuff in there, it seems like it's going to be good.
Then your plans change and you think, well, it's in the fridge. It's fine. I'll have it tomorrow.
Oh, wait, now it's the end of the week. Now it's the end of the next week.
It's gone bad. I'll throw it away.
People don't even know what's in their
fridge. Your crisper drawer gets so full that you can't see what's in there. People also don't know
what freshness is anymore. And they have to look at a sell by date rather than trusting their nose
or giving it a quick squeeze. And so that also contributes to waste because they'll throw things
out that are perfectly good. So a lot of and those are all directly connected to refrigeration and to the size of U.S.
refrigerators and this sort of artificial abundance mindset that they encourage.
So what did people do? Because there is some food like milk, butter, things that seemingly,
well, no, butter doesn't have to be refrigerated.
People just do. We don't actually put our butter in the, I mean, we always have some out because
it doesn't have to be refrigerated. Yeah. And you can spread it that way, right? Right, exactly.
But milk does, or it'll, I mean, it'll go bad faster if it doesn't. It'll go bad pretty fast
if it's not in the refrigerator. So what did people do before that? They made buttermilk. They made yogurt.
They turned their perishable products into non-perishable ones.
It just so happened that those were different.
They had benefits.
I mean, I love, there's a famous quote,
cheese is milk's bid for immortality.
I mean, cheese is a great thing.
I personally think cheese is a bit of an improvement on milk. So many of humanity's most delicious foods come out of trying to turn something that's
very perishable into something that has a little more legs on it. You know, I hadn't really thought
about this, but if you look at pictures of older refrigerators, like from the 40s and 50s,
even the 60s, they were a lot smaller.
And today we have these big refrigerators, and when you have a big fridge,
you feel compelled to fill it up.
And you fill it up with food, you can't possibly eat all of it before it goes bad.
U.S. refrigerators are the largest in the world by far and away.
You know, they're the nearest equivalent even in Europe are two-thirds the size
and most of the world is dealing with something half the size. And that's before you get to the
huge percentage of American households that actually have a second fridge in their garage,
or even a third. There's a lot of fridge space to be filled. And no one wants an empty fridge that feels
like you don't have enough. So anxiety provoking. But yeah, you're absolutely right. And I think,
you know, fridge designers have tried to solve this. They've tried to give us smart fridges
that will tell us what's in there. Really, we would waste a lot less if we had smaller fridges and shopped more frequently in, you know, walkable cities.
That's possible, but we haven't chosen that route.
Are there any advances in or on the drawing boards that, or is, you just make it cold.
You take your box and you make it cold, and that's the beginning and end of
refrigeration. I love this question. Preserving food is one of the primary concerns if you're
a human. It's up there with, you know, reproduction and surviving, you know, attacks from other
animals. This is, you know, keeping food good so that you can continue to eat it is one of our primary evolutionary drives.
And yet, when refrigeration was introduced, most people thought it wasn't going to be the winning solution.
There were a lot of people who thought maybe, you know, some kind of coatings or fumigation.
There were a whole range of technologies being developed in the 1700s that looked more promising
than refrigeration. And frankly, that research is now happening as we understand the downsides of
refrigeration, especially in terms of climate. People are picking that back up. And you know,
you want your beer cold, you want your ice cream frozen, but your produce
doesn't actually need to be cold.
It just needs to be fresh.
So if you can achieve that with a coating, which a company in Santa Barbara is working
on, they have a coating that will keep food produce as fresh, just with that coating at
room temperature as refrigeration would do.
You can get four weeks with a bell pepper sitting on the countertop at room temperature as refrigeration would do. You can get four weeks with a bell pepper sitting on the countertop at room temperature
using their coating, which is entirely made out of food molecules.
Now people are working on that.
It might be that we don't need refrigeration for all of our food.
We'll still want a cold beer, but maybe our produce doesn't have to be refrigerated,
and that would be incredible. Well, it's really, this whole story is really interesting in a couple
of ways. One, that it is so new that refrigeration is only 150 years old. And secondly, it just,
it affects our lives in so many ways, and yet it's still somewhat invisible.
We don't think about it much, but man, imagine life without refrigeration.
I've been talking to Nicola Twilley.
She is a writer, frequent contributor to The New Yorker, and author of the book Frostbite,
How Refrigeration Changed Our Food, Our Planet, and Ourselves.
And there's a link to that book in the show notes. Thank you
for coming on today, Nicola. Thanks, Mike. It's been great.
At Wealthsimple, we're built for whatever you're building. Built for Jane, who wants to break into
the housing market. We're built for Ted, who's obsessed with what's happening in the global
markets. And built for Celine, who just wants to retire and explore the world's flea markets.
So take a moment and think about what you're building for.
We've got the financial tools to help make it happen.
Wealthsimple. Built for possibilities.
Visit wealthsimple.com slash possibilities.
This is an ad for better help.
Welcome to the world.
Please read your personal owner's manual thoroughly.
In it, you'll find simple instructions for how to interact with your fellow human beings
and how to find happiness and peace of mind.
Thank you, and have a nice life.
Unfortunately, life doesn't come with an owner's manual.
That's why there's BetterHelp Online Therapy.
Connect with a credentialed therapist by phone, video, or online chat.
Visit BetterHelp.com to learn more.
That's BetterHelp.com.
Like you, I imagine.
I know what a volcano is.
I've seen them on TV and in the movies.
I know that smoke and lava comes out when they erupt.
And that's about all I know that smoke and lava comes out when they erupt. And that's about all I know.
And yet, according to people who do know more, volcanoes are fascinating.
They're all over the world, and we should probably know a little more about them.
Here to reveal the amazing world of volcanoes is Tamsyn Mather.
She is a professor of earth sciences at the University of Oxford
and author of the book, Adventures in Volcano Land,
What Volcanoes Tell Us About the World and Ourselves.
Hi, Tamsen. Welcome to Something You Should Know.
Hi, it's great to be here.
So first, I guess we need to understand what a volcano is.
So what is a volcano?
So volcanoes are places on our planet where molten rock that we call magma when it's inside the planet and lava when it gets to the surface comes to the surface.
And volcanoes are the structures that are built.
So we often refer to volcanoes.
They look like mountains, but they can actually also be big depressions in the ground as well.
So think about big craters or big calderas like Yellowstone or Santorini in Greece.
So my image of a volcano, and I think for most people, is it's a mountain.
It's a mountain with smoke and lava coming out like Mount St. Helens.
Do volcanoes create that mountain or do volcanoes use a mountain that already exists to erupt?
You know, which is the chicken and which is the egg?
Yes. So in the case of Mount St. Helens, it's what we call a strata volcano.
It's been made up of layers of lava and ash and other volcanic products that have been erupted.
So, yes, in the case of Mount St. Helens and many other volcanoes, the mountains have been built by the volcanic activity.
What causes a volcano to basically at some point they all stop doing what they're doing?
Why do they stop?
That's an excellent question. It's not something we fully understand. So in some cases,
we do have a really good understanding. So Hawaii, for example, is fed by a hot spot
underneath the volcanoes. So again, it's down in the in the Earth's mantle. And as the rigid
Pacific plate rides over that hotspot,
it actually takes the volcanoes away from that source of magma.
So Kilauea and Mauna Loa are the active volcanoes at the moment.
But as you go over to the west along the Hawaiian chain,
the volcanoes become extinct.
And that's because they've actually moved away
from the source of the molten rock that fed them. Ever since I was a child, my theory or my
understanding of what volcanoes are, and I think a lot of people grow up thinking this, is that,
somewhere in the center of the earth is this fire, that the earth has got fire in the middle of it and the volcano is
that fire coming up how accurate how accurate is my childhood theory well that turns out not to be
quite correct but uh but actually uh in a funny way it's's where we started, where the science started.
So hundreds of years ago, people thought basically that's what volcanoes were.
They thought that that was where Earth's internal fires found their way to the surface, very much like your idea there.
People had these ideas of the bigs of chimneys for Earth's in a fire.
And then even when Christianity took a hold, people thought of them as being gateways to hell even.
There's incredible stories of the conquistadors erecting crosses
over Messiah volcano in Nicaragua to guard the escape of evil spirits
from its mouth.
But since the modern era of science,
we've been able to understand much
more about our planet's internal structure. And using seismic waves, which are basically the
vibrations that we feel coming through the earth when there are big earthquakes, for example,
we can record those and we can learn a lot more about the internal structure of the earth.
And what we find is that most of the Earth is solid
rather than having any pockets of melt that stay there all the time.
The very inside of the Earth, there's a liquid outer core,
but the mantle, which is the bulk of the Earth,
this is about 65% of Earth's mass,
is actually most of the time solid.
And it's only in these very special circumstances where it melts
and you get magmas generated that feed volcanoes.
So my theory, at least I share my theory with a lot of other people,
at least centuries ago, they believed what I believe.
Yes, absolutely. You're doing well, just a few centuries out of date.
That's okay. And then we move to science class, and I remember in science class
that for there to be fire, you need oxygen. If this is going on underneath the surface of the
earth where there is no oxygen, how can there be fire? Exactly. So this is not far in the same way as as a bonfire or a fire that we might have in
you know the in the great at christmas time or something like that um this nothing is burning
with volcanic heat the the rock is is red hot when it comes up to the surface so many of the
things that we refer to as uh as fire in a volcanic sense actually aren't
aren't fire at all nothing is burning there's nothing you can put out things just cool down
so it's a it's a very different type of process how good is science at predicting
volcano eruptions we're getting better and better, but it's still really, really challenging.
So we have lots of well-monitored volcanoes. You get a lot of really useful data. So seismic data,
which is the very small tremors and very small earthquakes that you get when magma or gas move
in the Earth's crust, gives us lots of really useful information.
And then the changing shape of volcanoes is also really important for us.
So just an example, in 1980, before the Mount St. Helens eruption,
it kind of blistered up like a boil on the side of the volcano.
And then there was a small earthquake and it was from that that that uh swelling that the
the eruption initiated so we can pull all these different strands together in order to make a
prediction that a volcano is very likely to erupt but it's it's only it's only generally a forecast
it's a bit like weather we can't be sure and the other challenge that we have is that we might be
able to say it looks like it's going to erupt in the next month.
But actually saying it's going to erupt in two days time, which is a really helpful piece of information if you want to evacuate a big city, is that it's is going to erupt. Can you predict with any kind of certainty how much it's going to erupt, how big an eruption it's going to be?
That's another big challenge.
And often we go back and study its past behavior in order to try and understand its future behavior. And sometimes we can use things like how much it's deformed,
how much it's swollen up,
to give us some clues about how much magma has arrived in the system.
Are volcanoes monitored actively?
Are there people over there going,
let's keep our eye on this one every day?
Well, in some places, yes.
So the USGS do a great job monitoring the US volcanoes. And they have a lot of resources
and a lot of expertise, people monitoring that. In some parts of the world where there are fewer
resources, volcanoes are not as well monitored. And in some places, they're very remote from
populations. So again, maybe it's a little less important to keep them well monitored at all.
But a really powerful tool we have now actually are satellites.
So we can use satellite remote sensing, basically satellites that send radar beams down to the surface to map the shape of the surface.
We can actually use these types of satellite to monitor volcanoes globally without needing
there to be infrastructure on the ground. Have you ever seen one?
An erupting volcano? Yeah. Yes, absolutely.
It's one of, well, I think one of the most
astonishing, awe-striking things that you can experience
as a human. and maybe a little
frightening a little bit i think i think it's important that one is a little bit frightened i
mean these are enormously powerful forces and they need the you need to show them due respect
yeah i guess it depends on how far away you are as you're observing it. And the type of eruption as well.
And so when a volcano erupts, and when I imagine the images of Mount St. Helens,
in addition to the lava, which is very dramatic,
there's also a huge amount of smoke or whatever that is.
And how dangerous is that?
Is that a real concern?
Yes. So the gases that come out are a cocktail of different components. So there's a lot of steam
in the gases, a lot of water. And that doesn't tend to cause so many problems. There's a lot
of water vapor in our atmosphere anyway. We see it every day as clouds. But there's also a lot of water vapor in our atmosphere anyway we see it every day as clouds but there's also
a lot of sulfur dioxide which is a acidic gas and other acidic gases like hydrogen chloride
and hydrogen fluoride so in the local facility in places like Hawaii where you have gas coming
out of these volcanoes all the time you can get quite substantial drops in air quality
and acid rain problems, damage to vegetation.
Can volcanoes ever be so big and the eruption so big
that they alter the climate in some way,
that they change something?
Or is it dramatic?
Yes, but it's temporary and things eventually go back to normal
well this is a this is a really fascinating question so volcanoes actually alter our
climate and environment in a huge number of different ways but just to give you an example
if we have a really big eruption which punches up material up into the upper atmosphere so the
layer of the
atmosphere known as the stratosphere which you might know about because it's where the ozone
layer is which is obviously very important to our existence um if it punches up into that layer
basically the sulfur dioxide can can oxidize to fill to form a haze a kind of veil of aerosol
that can make the atmosphere really hazy high up and that
can reflect some of the sunlight back off into space and actually cool the planet lower down
so a really good example of this was in 1815 there was an enormous eruption of Mount Tembora
in Indonesia and this altered global climate patterns really profoundly. So the year
1816 was known in Europe and North America as the year without a summer. We had things like snow in
New England in June. We had crop failures. We had famine in various parts of the world. People were
forced to eat their cats rather tragically in Switzerland.
There were riots in France.
There was a great push of migration from New England to the western states in the U.S.
And that was all caused by the volcano changing the global weather patterns.
Wow.
I never knew that.
That's fascinating.
I never heard that before.
That's pretty big. That's big news.
Yes. One of the really interesting things was at the time, people didn't connect these phenomenon up.
Yeah, I imagine not.
It's only subsequently that we've really learned this.
Right, yeah. I would imagine the science wouldn't have been available to say, well, the reason for that is this, and this is why it's happening. And people must have been very confused and wondered, well, what's going on, you know,
the end of the earth? Yeah. Yeah. So really, the eruption that people really became aware of was
in 1883, which is the Krakatau eruption, again, in Indonesia. And this was this did not have
such a profound effect on global climate,
but because we had the undersea telegraph cables in place,
news could travel around our planet much more quickly.
So people were aware of this eruption within hours of it happening
and started looking for phenomenon, looking for changes,
so looking for amazing sunsets, which they saw, and evidence of
the pressure wave traveling around the planet in terms of barometers and things like that.
So actually, it was the communications technology at the time really changed the way that we
experience and understand volcanoes. Once a volcano has erupted, is there always the potential that it can erupt again,
or are you able to identify some volcanoes, these are dead, and we'll never hear from them again?
So some volcanoes, the tectonic plates have rearranged themselves
and they've been moved away from the source of their magma. Other volcanoes do seem to have gone dead just because they haven't erupted for a very
long time.
And often we can't exactly work out why.
It's just that the focus of the way that the magma finds its way to the surface seems to
have shifted.
So we can definitely make, again, a very good forecast a very good sort of a very
good prediction that that volcano is unlikely to erupt again but the uh these are unpredictable
mountains so they often have the last words and sometimes they still can take people by surprise
is there any sense of the last volcano that erupted for the first time like this was the first time this
mountain spewed out that stuff or do most volcanoes that we see for the last i don't know a couple
hundred years they've erupted before oh there's plenty of examples of new volcanoes so in some
ways the uh the activity that's going on in Iceland at the moment on the
Rækjanes peninsula, these are new fissures that are opening up all the time. We don't really have
a central volcano there. These are more like fissures that open up and spew forth lava flows.
But another famous example is the Parakutin volcano, which was basically sprung up one otherwise normal day
in a farmer's field in Mexico. Do volcanoes ever erupt or does volcanic activity ever occur in
places where it wasn't expected? Or do you pretty much know where it's going to happen, generally speaking?
Generally, they come up in places that we expect volcanism.
So in areas that have had other volcanoes going off in the past
or other similar types of fissure eruptions in the past,
they don't normally come up in completely unexpected zones
away from other volcanic activity.
When lava flows out of a volcano, how hot is it? How hot can it get?
So the basaltic lavas that come out of volcanoes like Kilauea in Hawaii
or the volcanism on Iceland are getting on for about 1,800 degrees Fahrenheit.
Is there anything about volcanoes that you've seen in the research that would surprise people?
One of the things that fascinates me about volcanoes is we would not be here,
I don't think, as a species if it was not for volcanoes.
How so?
Although we think of volcanoes probably most often as forces for destruction,
they've also been really important forces in terms of building our planet's continents,
which we're obviously a land-based mammal, so really important. The gases coming out of
volcanoes help to maintain our atmosphere over geological time. So they've kept us within certain bounds of temperature by
our atmosphere, helping for that and protected us. The atmosphere protects us from lots of external
forces. And then there's even some thinking that volcanic lightning or the hot vents on the ocean
floor might have been some of the first places that the molecules for life were put together that laid the foundation for all of life on this planet.
And I think that's incredible.
Well, that puts the subject in perspective that we might not be here if it weren't for volcanoes.
I've been speaking with Tamsin Mather.
She's a professor of earth sciences at the University of Oxford. And the name of her book is Adventures in Volcano Land. What volcanoes tell us about the world and ourselves. And there's a link to that book in the show notes. Thanks, Tamsyn. What a great topic. Thank you.
Thanks, Mike. It's been really fun. Here's a question for you.
If you carry a purse, and the question is, when was the last time you washed it?
Those things are crawling with germs.
A test conducted by a hygiene solutions company found that leather handbags are the worst offenders
because their porous texture provides the perfect growing
condition for bacteria inside there. And the handles on your purse, they're probably the
dirtiest feature of all. There's enough bacteria on the handles to cause a real health concern.
The outside bottom of the bag is pretty bad too. I mean, when we think about it,
your purse sits on all kinds of
unsanitary surfaces and then ends up resting on your desk or the kitchen counter, and it's just
kind of gross. So it might be a good idea to figure out the best way to give that thing a wash.
And that is something you should know. The next time you're in a conversation and the subject of
podcasts come
up, I hope you remember to recommend this one. People like recommendations and, well, and we
like new listeners. I'm Mike Carruthers. Thanks for listening today to Something You Should Know.
Welcome to the small town of Chinook, where faith runs deep and secrets run deeper. In this new
thriller, religion and crime collide when a gruesome murder rocks the isolated Montana community.
Everyone is quick to point their fingers
at a drug-addicted teenager,
but local deputy Ruth Vogel isn't convinced.
She suspects connections to a powerful religious group.
Enter federal agent V.B. Loro,
who has been investigating a local church
for possible criminal activity.
The pair form an unlikely partnership to catch the killer,
unearthing secrets that leave Ruth torn between her duty to the law,
her religious convictions, and her very own family.
But something more sinister than murder is afoot,
and someone is watching Ruth.
Chinook, starring Kelly Marie Tran and Sanaa Lathan.
Listen to Chinook wherever you get your podcasts.
Hi, I'm Jennifer, a founder of the Go Kid Go Network.
At Go Kid Go, putting kids first is at the heart of every show that we produce.
That's why we're so excited to introduce a brand new show to our network
called The Search for the Silver Lining,
a fantasy adventure series about a spirited young girl named Isla who time travels to the mythical land of Camelot.
Look for The Search for the Silver Lining on Spotify, Apple, or wherever you get your podcasts.