StarTalk Radio - Climate Science! With NASA's Gavin Schmidt
Episode Date: April 19, 2021How do we fix climate change? In this episode, Neil deGrasse Tyson and comic co-host Chuck Nice sit down with Sr. Advisor on Climate Science at NASA, Gavin Schmidt, for the Youth Climate Summit to ans...wer questions about climate change. NOTE: StarTalk+ Patrons can listen to this entire episode commercial-free here: https://www.startalkradio.net/show/climate-summit-live-with-gavin-schmidt/ Thanks to our Patrons Jason Johst, Ava Spurr, Andrew Kodama, Ben Daumler, Ds Tillbrook, Dmitry Kucher, Daniel Hamburger, Jason Jones, Bryan Hurley, Javier Rodriguez for supporting us this week. Image Credit: William Putman/NASA Goddard Space Flight Center Subscribe to SiriusXM Podcasts+ on Apple Podcasts to listen to new episodes ad-free and a whole week early.
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Discussion (0)
Welcome to StarTalk, your place in the universe where science and pop culture collide.
StarTalk begins right now.
This is StarTalk Cosmic Queries Edition, special live at the Broward County Youth Climate Summit, the third annual.
So delighted to be a part of that.
I've got with me my co-host, Chuck. Nice, Chuck.
Hey, Neil.
So obviously, while I know a little bit about climate,
I don't know anything near who we've got here as guests.
Yeah.
A very important addition to this, because for Cosmic Queries,
we want to make sure we have the right expertise at the right time,
at the right place, which is now.
I've got Gavin Schmidt. Gavin, welcome back to StarTalk.
Hi, Neil. Chuck, nice to be back.
Hey, Gavin.
Excellent. And you recently became, in addition to being director of the Goddard Institute for
Space Studies, which is a NASA satellite office in Manhattan. Many people don't know about that
one. They know about Kennedy Space Center in
Houston, but we've got a little pocket
of NASA in New York City, and you're there
as our neighbor, so good to know that.
But you're also elevated, or
it's just a promotion, I guess,
to Senior Advisor on
Climate to NASA.
So it's nice to know that such a position
exists. Well, it does now.
Yes. It does. It does now. And it's not good know that such a position exists. Well, it does now, yes.
It does now.
And it's not good enough just to research on climate.
This stuff has to get communicated.
And if you're an advisor to NASA,
and NASA is a hugely public entity in our lives,
not only domestically, but in the world,
you've got a really key place there.
And let me just lead off.
Before we get to the questions that I know Chuck has collected, because that's the DNA of this format, is questions from you, from the public,
coming back to get answered in our StarTalkian way. But let me just ask you, Gavin, should we not be surprised that this Youth Climate Summit is being organized in Florida
and not Colorado or one of the mountain states?
If you could tell us what special relationship Florida has with climate change.
Well, you know, Florida is ground zero for the impacts of things like sea level rise,
coastal flooding, greater intensity of hurricanes.
And so, you know, we're seeing changes
in the temperature of the sea around Florida.
We're seeing changes in the storm climate
and we're seeing sea level rise.
And that puts Florida very much at ground zero
for the really acute impacts of climate change that's happening now,
not least the things that may be happening in the future.
You know, I remember seeing, was it not last year, but perhaps the year before,
there was a satellite photo of hurricanes all lined up, ready to slam into Florida.
It was like, OK, your turn. it was like okay your turn it was like
they were lining up at the deli right and i i just have no memory of seeing such um such persistence
of assault yeah 2020 was a very bad year for hurricanes a very very active uh atlantic season
2005 was was uh was a really big year too um. And that's not what you expect every year,
thankfully. But we are seeing trends in Caribbean hurricanes. Those are being more frequent. They're
more intense when they arise. We're seeing increases in Cat 345 hurricanes. And we think
that that's being fueled by the warmer temperatures in the tropical
Atlantic and places. So yeah, so that was very sobering. Chuck, did you hear he's on a first
name basis with the hurricane level? Yes. Cat 5. Yes, exactly. One last thing before we run over
to Chuck and get some questions that have been pre-collected.
Last year, 2020, I heard there was like Hurricane Alpha,
and I thought to myself, Alpha?
Did we run out of letters of the alphabet to name these words?
We're starting to use the Greek alphabet?
So what's up with that?
I didn't know that was in the rules and regulations.
That's exactly right.
Yeah, so the National Weather Service has a list of pre-approved names, and they have it for, I think, out for another
five years. It's not every letter of the alphabet, but I think it's 23 names. That might not be quite
right. But once you've run out of those, then you start doing these Greek alphabets, alpha, beta,
these Greek alphabets, alpha, beta, gamma, delta, epsilon.
I mean, and so when you're seeing Hurricane Alpha,
you know it's been a bad season.
Wow. Yeah.
And now why only 23 of the letters?
I mean, what names did they omit that are just so awful?
So there's never been a Hurricane Xavier?
So no X's.
No X's. There's no X's.
I'm looking forward to Hurricane Yvonne.
You need to modernize the name.
Yeah, exactly.
They do modernize the names.
I mean, so it used to be all very Anglo names,
you know, Arthur and Charlie.
And now they're also taking names from a broader cultural background.
So...
See, but is that a good or a bad thing?
In a way, it's a good thing because it means that we're recognizing that there's cultural diversity.
But in a way, it's a bad thing because you're being named after a hurricane.
Yeah.
It's like, you know, I don't want to...
I don't...
You know, in a way, it's like,
oh, it's kind of...
Right.
Smatters the seaboard.
Hurricane Roshaniqua.
Like, you know.
And then what if it's like
the worst hurricane ever
and it's like a black name?
You know what I mean?
Just like, oh, of course,
Hurricane LeDamien
gotta be the worst hurricane ever.
Like...
All right. So, Chuck, let's do Like... All right.
So, Chuck, let's do this.
All right.
Let's just jump into it.
What do you have for us?
Of course, all these questions come from the students of Broward County.
And I think let's start with Aiden M.
And let me see here.
Aiden.
Oh, my goodness.
Tradewinds.
Do you have Aiden's grade?
He is in grade five at Tradewinds Elementary.
And he says this.
It's a great question.
Who first noticed global warming?
Which is a great question because people may think it's a relatively new phenomenon.
So the answer to that actually goes back a long time.
There was a guy called Callender, interestingly enough, in the 1930s,
who was the first person to put together a time series of temperatures.
And with his knowledge of what happens in the atmosphere
and the important role of carbon dioxide,
he had hypothesized that he should be able to see a trend.
And he was working in the kind of mid-30s, so kind of 1938, I think.
And he put together this data set, which was pretty sparse,
but it was enough to see that indeed the temperatures had changed
from the beginning of the 20th century, so about 1900 through to 1930.
And he said, yes, oh, look, it seems to be getting warmer.
And this is something that we expect to happen
because the physics of this had been worked out in the Victorian era, in the 19th century.
And people knew that we were burning a lot of coal,
we were burning a lot of oil,
and we were expecting things to happen,
and happen they did.
But yeah, no, it was in the 1930s
that people started to notice what was going on.
And then we ignored it for another 30 years.
But yeah, 1930s.
And that's working out great right
how's that working out for you
it's like 1930s we find out that we are
indeed warming the planet and we go
eh we'll get to it
at some point
but I want to drive my car
right
wow
forget about the earth I want to drive my car
but of course if there is no, you can't drive your car.
So people got to work out the causes and effects of your desires there.
All right, Chuck, what else you got for me?
All right, let's keep moving.
And let's go to Camilla B., who is at sixth grade in Indian Ridge Middle School.
Hello, Camilla.
grade in Indian Ridge Middle School. Hello, Camilla. And Camilla asked this,
how fast are glaciers and icebergs melting?
Camilla has a sense of urgency. She's like, look, I need to know what is going down.
Because I'm here in Florida and I need to know if i should move so uh yeah i mean you've heard the phrase right glacially slow right to mean something really
moving so slowly that you can't even see what's going on well glacially slow does not mean what
it used to mean right so glaciers are moving i haven fact, I haven't heard that term used in that way in at least 10 years.
It's moving at a glacial pace.
No one says that anymore.
Yeah.
That's amazing.
Because we know deep down we are moving those puppies and melting them down.
Okay, go on.
I'm sorry to interrupt it.
No, no, that's fine.
I mean, you're right.
Nobody says glacially slow anymore because the glaciers are really moving quite fast.
right nobody says glacially slow anymore because the glaciers are really moving quite fast uh what what we do uh at nasa is that we can keep track of how much water and ice there is on on greenland
or in antarctica and we have we have these records that they're measuring the gravity of the planet
and uh and when the ice melts then the gravity goes down a little bit and we can we can track
that from space which is pretty impressive, quite frankly.
Wait, wait, just to be clear, Gavin,
we know the gravity of Earth as a collective body.
When you say NASA's measuring gravity,
you mean they're measuring the difference in gravity
from one part of Earth's surface to the other.
Isn't that what you're talking about?
Yeah, and over time as well.
So more mass is in one place than another,
it's going to have slightly extra gravity there rather than here.
That's right.
So there's more gravity above a mountain than there is over the ocean.
And there's more gravity above a big ice sheet than over a little ice sheet.
And so as the ice sheets shrink, then the gravity goes down a little bit
and you can calculate how much mass has disappeared from the ice
and has gone into the ocean. And so we keep track of that. And we can measure, for instance, the loss of mass
from Greenland. It's about 250 gigatons of water every year is leaving Greenland. And it's about
150 gigatons of water every year that's leaving Antarctica,
mostly from the Antarctic Peninsula and West Antarctica,
which is the bit which is, if you go all the way down through South America
to the bit that sticks out, that's the peninsula.
And then the bit just to the side of that is West Antarctica.
So most of the mass... So giga is
billions.
Giga is 10 to the 9.
Wow. Billion tons.
Yes.
250 billion tons.
That's right. Every year.
Every year.
Wow. That's a lot
of water. And that
water is... So that's of water. And that water is...
So that's fresh water going into salt water?
Yeah.
That can't be good, right?
So that's fresh water from the land that's going into the ocean,
and it raises sea level.
It does get spread out mostly evenly around the ocean.
And that's adding about a millimeter per year in global sea level.
And the total amount of sea level is made up of that,
plus changes in mountain glaciers.
They're melting quite quickly.
And then the warming of the ocean itself is also causing the sea level to rise.
So the sea level rise right now is about just over three millimeters a year,
which doesn't sound like a lot,
rise right now is about just over three millimeters a year, which doesn't sound like a lot, but it's been about a foot around Florida in the last 60 to 100 years, I'd say.
And what I try to tell people is, if you fill a glass completely with water and then add three 100% of what you added spills.
Yep.
Just let's understand that.
And also, there's another issue here, right, where if you're adding fresh water at large rates to salt water,
that changes the sort of the circulation patterns
and the sea level mix that previously relied and evolved
on what was a stable salt
mixture. Is that correct? Right. So the changes in freshwater, so freshwater is lighter than
saltwater. So it tends to sit on the top, at least to start with, before it gets mixed down.
That changes how easy it is for heat to get into the ocean, for carbon to get into the ocean.
it is for heat to get into the ocean, for carbon to get into the ocean. And so one of the things that we've seen in the oceans as things have warmed up and we've got this extra fresh water
is that it's becoming harder to get things down into the ocean. And that's heat and carbon. And
so that's actually adding to the temperatures in the atmosphere. It's adding to the carbon in the
atmosphere. And so it's actually, that's not a good news. That's not good news either.
Man, man, okay.
Wow.
All right, Chuck, keep them coming, Chuck.
Yeah, this is just going to get more and more depressing.
I'm sorry.
No, you better have something positive to say at the end of this.
Oh, yeah, that's right.
Otherwise, the last time we're inviting you on something like this.
So let's go to uh let's go to maya e and maya e is in grade five at trade
wins hi maya and she says what can we do as kids to slow down the global warming process so here's
something that's a little more encouraging and you got to remember that you're not just a kid, right?
You are a son or a daughter.
You are a classmate.
You are an advocate.
You are a consumer.
But you're all of these things.
And one of the most impressive things that's happened
over the last couple of years related to climate
is the outpouring of activity and concern from youth climate leaders
like Greta Thunberg and Alex Villasenor in the US,
who have kind of taken this and really pushed it.
They pushed it to, you know, the top tables, to the UN,
to government decision makers,
and made it very, very clear that it's not okay just to sit around and not do anything.
It's not okay to know that this is a crisis and not act in a commensurate way.
And there's been an enormous amount of truly authentic concerns about your authentic, you know, concerns about your future.
I mean, speaking to the youth, I mean, not so much my future, but your future. You know,
this is going to be the issue of your entire lives. It's not going to go away next year. It's
not going to go away in 10 years time. It's going to be a very, very real issue for all of that
time. And your role as somebody, as people who can get the grown-ups
and the decision makers to act in your interest is really very important. So yes, I mean, you can
encourage, you know, local recycling. You can encourage renewable energy. You can encourage
your school to have, you know, a zeroaste cafeteria. All of these things are good and positive steps.
What you're saying, Gavin, is that even if someone in middle school
does not have power of title
or power of any other sort of high-ranking official,
you have the power, you have social and cultural power. Because if you're
12 years old and you write a letter to the editor of the local paper that you're concerned, I bet
they're going to publish it. And so you can have influence beyond title. Because if the 10-year-olds
start worrying about how the adults are messing up the environment, that's something to take notice of.
And so, oh yeah.
It makes the adults feel bad.
And you know what?
Kids should make adults feel bad because
they have something to feel bad about.
Start guilting your parents, kids.
Start guilting your parents.
Mom, Dad, you don't love me.
You don't love me.
Look at what you're doing. Look at what you're doing to the planet, Mom. Dad, you don't love me. You don't love me. Look at what you're doing. Look at what you're doing to the planet, Mom, Dad.
You don't love me.
You guys suck.
You suck.
Grown-ups suck.
Grown-ups suck.
No, that'd be less productive, I think.
By the way, Chuck has three kids.
What are the ages of your kids, Chuck?
I have a 20-year-old, and then I have a 14-year-old,
and then I have a 7-year-old because I'm an idiot.
No.
No, I have...
And I do have three children, and I try my...
So you get all three different perspectives there at those different ages.
It's great to see because, believe it or not,
the 20-year-old is concerned about climate, but not as much as the 14-year-old.
And the 7-year-old is a full-blown activist.
So, you know, when I see these questions from middle schoolers, I think it's fantastic that they are already keyed in on this as a true issue of concern.
So it's fantastic.
I'm Joel Cherico, and I make pottery.
You can see my pottery on my website, CosmicMugs.com. Cosmic
Mugs, art that lets you taste the universe every day. And I support StarTalk on Patreon.
This is StarTalk with Neil deGrasse Tyson.
Welcome back to StarTalk.
This episode is from a virtual live stream Cosmic Queries with the Broward County Youth Climate Summit in Florida.
And we've been talking about the science of climate change
with my co-host Chuck Nice
and our special guest climatologist Gavin Schmidt.
And we've been answering questions from the students themselves
about the future of this climate crisis in which we find ourselves.
So let's get right back to it.
All right, Chuck, keep it coming.
All right, let's keep going now.
If you've just joined us, probably you should have been there from the beginning,
but if you just joined us, we're at the Broward County Youth Climate Summit,
third annual.
And we're talking to Floridians about climate. And we've got with me Gavin Schmidt, Senior Advisor to NASA on climate and Director of the Goddard Institute for Space Studies.
I didn't say it at the beginning, but Goddard, it's abbreviated GIS.
And GIS specializes in many things,
but especially climate on planets, what the atmosphere is doing,
what the environment around, you know, solar heating,
cooling within the atmospheres, turbulence, all of this.
So Earth as just another planet can give you a cosmic perspective
on the things that can go wrong in a planetary atmosphere.
Right.
Right?
So, Gavin, tell me two planets where stuff really went wrong in the past.
So that's an easy one.
So you've got Venus and you've got Mars.
So Venus...
One is to our left and the other is to our right.
They're adjacent to us, okay?
Yeah, and so Venus may well have been
the first habitable planet in the solar system.
And for a long time, for about a billion years,
may have been able to maintain water at the surface.
But as the sun got brighter over time,
and it's still getting a little bit brighter,
the oceans evaporated, the hydrogen was lost,
and it's turned into a hellhole where lead will melt on the surface.
Gavin, I did the calculation.
Yes, it can melt lead, fine.
But you could cook a 16-inch pepperoni pizza
on your windowsill in three seconds.
So that's an advantage.
You see, there's a silver lining to this high-temperature place.
Exactly.
Except that your charred remains will have a delicious meal.
Okay.
You'd be vaporized too, but ignoring that complication,
it would be an awesome pizza oven.
That's all I'm saying.
But like I said, it might have been the first habitable place
in the solar system for about a billion years.
So something bad happened on Venus.
Something bad.
Something bad happened on Venus.
All right, now how about Mars?
Now Mars, now we see evidence for water on Mars.
And so we think that at some point Mars, a little bit more recently than Venus, was habitable.
There was sufficient water on the surface to have running water.
And so we're trying to work out what combination of atmospheric composition
could have led to that.
But that is long in the past.
You know, and now, obviously, Mars is extremely dry.
It's lost whatever.
I mean, it still has some atmosphere,
but it lost a lot of its atmosphere.
It lost a lot of its water.
And now it does not have very much of a greenhouse effect
and is very cold and has pretty sunsets.
And you would be hard-pressed to cook a pepperoni pizza
at any time right now on Mars.
Okay, so Mars doesn't have any running water anymore,
but it once did, but it has pretty sunsets.
So Chuck, those are the two reasons,
one to go to Venus and one to go to Mars.
There you go.
Get a pretty sunset.
Yes.
That's right.
You know, no air, but God, the views.
The views are beautiful.
The views are gorgeous. Can't breathe, but God, the views. The views are beautiful. The views are gorgeous.
Can't breathe, but enjoy those views.
All right.
Okay, here we go.
Let's keep them coming.
I love this question from Sierra E.
And Sierra E is in the ninth grade at Coral Springs High School.
And Sierra is not playing around.
She wants to know this. What kind of jobs are there for people interested in climate and climate
studies? Sierra, I don't, let me just say, Sierra, I'm already proud of you, okay?
You're not only looking to solve the existential crisis that faces all of mankind,
but you're like, how do I make some money off of this?
I love you, Sierra.
That's the way to think.
So there's some great opportunities.
So the kinds of tech jobs that are going to be important
are things like smart grid technology, storage technology, renewables,
all of those things that are going to be growing enormously.
Energy storage.
Energy storage, yeah.
When you say storage, energy storage.
And then you've got the adaptation part of it.
You know, how do you help cities and agriculture plan for the changes to come?
You know, there's a lot of social science issues there.
There's a lot of politics involved there.
But without those people, like all the technology in the world
doesn't help us, right?
Things need to be deployed.
Things need to be used.
You know, what is it?
How is that change going to happen?
And the people that are making that change
or helping enable that change,
they're going to be the most important people around.
And those aren't necessarily STEM jobs.
They could be public service. They could be urban planning. to be the most important people around. And those aren't necessarily STEM jobs that, you know,
they could be public service, they could be urban planning, they could be, you know, people who are
interested in sewage and septic tanks and like dealing with the legacy of what we've built now
and the infrastructure that's in peril right now and how to make it resilient and how to deal with the problems that are going to come.
Yeah, Gavin, that's a brilliant, brilliant answer there.
And I had not fully grokked how interdisciplinary
climate science in our society would be.
Because, right, you said you need the scientist,
you're among them.
You need the policy people, you're among them.
But a cool
invention that pulls us off of fossil fuels into other forms of energy, that would be industry.
But then you still have to deploy it. So you get the politics. I love it. Everybody can get a piece
of that pie. It's a problem that affects every single area of our lives, which means that if you
think of it in terms of systems change, then
whatever you do in life,
if you relate it to climate, there is
an application.
And by the way, I
have not fully grokked
the word grokked.
What the hell was that?
It's a geek word,
and I forgot what its origin is.
Robert Heinlein.
But if you look it up, it comes from science fiction.
It's spelled G-R-O-K.
G-R-O-K.
And it has to do with wrapping your head around an issue or a problem
and coming to terms with it within yourself.
I hate it.
Possibly then being able to do something about it.
Am I good there?
Did I get that right, Gavin?
I think so.
I'm trying to remember the book in which it first appeared.
It might have been The Moon is a Harsh Mistress,
but I forget the details.
But it was very big in the 1960s and 70s.
Well, there you go, kids.
For the youth among us, that's where it comes from.
This is when you know that you're in the secret astrophysics club,
when you can actually use the word grok
and then know its frickin' origins.
You're seeing the secret geek speak
that these scientists have with one another.
Okay.
I'm sorry. Someone look that up up which book did it come from live long and prosper right thank you for bringing it back down to my level thank you
all right let's move on to sean d who has a very sobering question. He's at grade six at Margate
Middle School.
And Sean D. wants to know this.
What do you fear
will happen
in the future
if we take no action?
All right.
So there goes Gavin.
Give us the apocalyptic scenarios.
I'll start off. I'llocalyptic scenarios. I'll start off.
I'll start off.
I'll start off and I'll hand off to you.
The Broward County Youth Climate Summit in 20 years will be held underwater.
Yeah, that's not funny.
Okay, I'm sorry.
What was funny was you say, hey, that's not funny.
That was funny. you say, hey, that's not funny. That was funny.
Okay, go on.
I mean, if we don't rise to this moment,
then the sea will rise to this moment.
Oh, wow.
You know, if we don't get our heads around this.
There's a bumper sticker.
I'm telling you right now, that's a T-shirt.
That's a T-shirt.
That's a T-shirt, a bumper sticker, a meme.
Yeah.
Okay.
All right.
Wait, wait.
Say that again so we can get a meme done.
Yeah.
Yeah, exactly.
I'm going to get a screenshot.
Okay.
Go.
Say it again.
If we don't rise to this moment, the seas will rise to this moment.
Wow.
Boom.
That's beautiful.
Mic drop. Boom. We're done moment. Wow. Boom. That's beautiful. Mic drop.
We're done here.
No, but, you know, this is a serious question.
I mean, like, the worst-case scenarios that we've plotted out,
you know, if we go, if we don't do anything,
we just burn all of the fossil fuels that we can.
We burn all of the coal, all of the oil, the methane hydrates,
the tar sands, the oil shales, all of the rest fuels that we can, we burn all of the coal, all of the oil, the methane hydrates, the tar sands, the oil shales, all the rest of it, we could have an impact on this planet that
has not been seen in tens of millions of years, maybe even longer. The Anthropocene, the period that we are now creating, would be so far out of the normal bounds of climate variability
that, quite frankly, we don't even know what kind of a planet that would be.
We're talking about something more recent, like the last Ice Age,
which was only 20,000 years ago, and that was caused by,
you know, wobbles in the Earth's orbit. That was about eight to nine degrees Fahrenheit cooler
than today, right? The worst case scenarios, if we just don't do anything and burn everything that
we can find, that's about eight to nine degrees Fahrenheit warmer than where we are now, right?
And the last ice age, think about that.
Massive ice sheets across the whole of North America,
mammoths and a very, very different planet.
And then kind of like flip that and say,
well, what kind of planet would it be if it was that much warmer?
And we don't know.
We don't know what kind of planet that would be.
It would be one that we and our current society would be in trouble.
We have so much stuff next to the coast.
We have so many expectations.
Our agriculture, where we grow things, how we grow things,
depends on the climate where we are.
If things shift such a degree, then all of those anticipations,
all of those expectations are worthless.
Wait, Gavin, you said we have so much stuff near the coast.
You're talking about cities.
Yeah, I mean, New York and harbors.
And, you know, our world is a connected world.
You know, we move things around.
Miami.
Miami.
But Shanghai and Calcutta and Bombay, Mumbai, you know,
Shenzhen, London, Paris, all of these places are actually very close to the coasts. And, you know, and if you think that, you know, our heritage, such as it is,
should be worth preserving, then, you know,
not doing anything about climate change is not the way to maintain that.
So now, as we talk about the loss of these coastal cities,
is there a way to target climate change
so that we could just take out a few places
that perhaps that we don't want around anymore?
I'm joking, Gavin.
That's a joke.
Did you see his face, Neil?
If he had a sign that said joke on it,
then I would know.
All right.
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welcome back to star talk this episode is from a virtual live stream Cosmic Queries with the Broward County
Youth Climate Summit. That's Broward County, Florida. We've been talking about the science
of climate change. I've got my co-host Chuck Nice and our special guest, climatologist Gavin Schmidt.
And we've been answering questions from the students themselves about the future of the climate crisis.
So let's get back to it.
All right, so let's go to Natalia P.
She's in 11th grade over at West Broward High School.
And she's looking at this from a policy standpoint.
from a policy standpoint,
what are some laws that could be enacted in order to slow down climate change?
So is there anything that we can do
that we should ask our governments to do
to take us out of this?
Yeah, so I'm part of the government,
so I have to be a little bit careful here.
So, you know, I can give my personal opinion.
Obviously, you know, NASA doesn't really have much of an impact on laws and policy directly.
But, you know, my personal view is that, you know, there are laws that exist that are pushing us in the right direction.
Things like renewable standards for electricity.
Things like renewable standards for electricity.
Things like encouraging electric vehicles over internal combustion vehicles.
A price on carbon is something that nudges everything in the right direction so that you actually pay for the pollution that you put into the atmosphere.
These things are difficult to enact. And, you know, and there's a lot of politics behind what
actually does get enacted. But even like, even things that you think might be trivial, like
building codes, you know, you can do a lot with improving building codes so that they take account of not just the climate changes that you've had,
but the climate changes that we're going to have.
We can make rules that make buildings use less energy
and made with more resilient structures.
I mean, so we can both legislate to improve resilience
and to reduce energy wastage.
So, you know, laws on standards for refrigerators.
You know, I mean, the fact that we've had more efficient refrigerators for the last 50 years
has saved an enormous number of power stations from ever being built, right?
So efficiency gains can be helped,
like the CAFE standards,
where they're looking at the miles per gallon
of the vehicle fleet.
All of those things are pushing us in the right direction.
Okay.
All right.
That's hopeful.
That is hopeful.
Good stuff.
We like that.
All right, let's...
Alessandra.
Oh, by the way, so West Broward High School?
Yeah.
So go Bobcats.
Oh, right on.
Right, okay.
Okay.
Why I know that, I don't know, but go Bobcats.
All right, go ahead.
Alessandra M. is a fifth grader at Trey Wins Elementary School.
And she's got a good question about what does global warming have to do with severe
weather events like storms and heat waves, droughts and hurricanes?
So I love that because, Gavin, I mean, think about it.
If you're just thinking, all right, it's one degree warmer in the world.
The temperature fluctuates so much more than that between day and night.
How could one degree matter to anything else that's going on on this planet?
What's up with that?
So really that's a question of how things change on average
and how that gets translated into things that we think of more as weather.
And that's a great question.
But first, tell us the difference between weather and climate.
Just spend a minute.
So weather, I mean, you know, it's what's happening today.
It's what's happening next week.
It's changeable.
It's kind of chaotic.
And climate is really the average of all of that, you know, averaged over many years and
looking at the statistics over many years. And there isn't, it's not totally obvious how these
things connect. But we now have a large enough climate change signal
that we're starting to see how those things connect.
So let me give you some of the pathways by which these connections happen.
So as the planet gets warmer, it's warmed more than a degree Celsius.
So it's almost two degrees Fahrenheit at this point in the last 100 years or
so, the amount of water vapor in the atmosphere increases, right? So it turns out that you
increase the water vapor by about 10% with that amount of temperature change, right? So there's
now 10% more water in the air than there used to be. And if you think about storms, and if you
think about rain systems,
what you're doing there
is you're gathering up
a lot of quite moist air,
you're pushing it up,
and then it all rains out.
And if there's more water in the air,
more water vapor in the air,
when you squeeze it all together
and you push it up,
it comes out,
and it comes out more and stronger.
And so what we've seen over the last few decades—
By the way, that's just what Floridians want.
They want more humid air.
Well, I mean, so it is getting more humid.
I mean, you can track that in the weather statistics in Miami as well.
But, yeah, so you have more humid air and you have more intense rainfall. And you can see that happening not just associated with big storm events like hurricanes,
but you can see it more generally when you have a front coming through,
you know, kind of from the Pacific side to the Atlantic side.
You can see that the statistics of rain are pushing us towards more intense rainfall.
And we discussed it earlier, you know,
the temperatures themselves in the ocean
are leading to more intense storms in the Atlantic
because the heat of the water is really the fuel that drives the hurricanes.
And so we're seeing more intense hurricanes
happening because of those temperatures as well.
Wait, Gavin, if it's one degree on average,
that means in some places it'll be much more than that.
Right, so the places that are warming the most
actually are in the high latitudes.
In the Arctic, it's warmed three, four,
some places five degrees Celsius.
Just where we need it. Yeah, no, some places five degrees Celsius. Just where we need it.
Yeah, no, not really.
But we're seeing quite clear warming in the tropical Atlantic.
That's one of the places where most of the hurricanes start off.
And so that's kind of juicing them up a little bit.
And obviously, if the temperatures are warming
and weather is that kind of noise on top of that, you know, if the temperatures are warming and, you know,
weather is that kind of noise on top of that, you're going to see more heat waves, you know,
more days over 90 degrees, more days over 100 degrees. And you can see that happening,
you know, all around the world, you know, from Australia through to the US, to Europe, to Japan,
to Asia. You know, we had, you know, massive heat waves in Japan, to Asia. You know, we had massive heat waves in Siberia last summer.
You know, Siberia, not a warm place,
but they had like 100 degrees above the Arctic Circle.
That's not usual, right?
In fact, it may even be unique.
A new vacation spot.
A new vacation spot, Siberia.
Well, lots of beachfront property there.
Hot Siberia. Well, wefront property there. Hot Siberia.
Well, we only have a few minutes left.
Let's see if we can get a few squeezed in there.
And Gavin, this is going to be a lightning round.
So real quick, give me your best soundbite answer.
Go, Chuck.
This is for, well, we're going to switch gears here
because this is from Carlos B.
And Tyler B.,
I don't know if they're related,
Pines Middle School and Pioneer Middle School,
respectively,
grades seven and six.
All right.
What got you interested in being an astrophysicist,
planetary scientist,
author,
and science communicator?
That's for both of you.
Thanks for asking about being a comedian there,
Tyler. I mean,
Carlos. Appreciate that, Carlos. And then Tyler B says, what inspired you to do what you do? So
what got you interested in the specific work that you do? And what made you go to science in the
first place? I don't know how soundbiteable this is,
so we're probably going to have to end on these questions. So Gavin, why don't you go?
For me, I started with mathematics and it was the joy of just like kind of solving things and
solving puzzles. And then I got into things that actually meant things to people. And I
realized that you could solve problems
that people would appreciate and that they would care about.
And the more that I've done and the more that people care
and the more I'm able to talk to people about these things,
the more excited and the more interested I got
in the science that I was doing.
So you got good feedback on your ambitions.
Yeah, that's very important there.
Because not everyone, if you like math and then you have a peer group that says you like math,
ew, what do you, you know, that could turn a lot of people off if they still want to sort of hang out with the cool kids.
And by the way, if that happens to you, anyone listening, they're just jealous that you're good at math.
Don't fall for it.
Chuck, is it true that when you were a kid,
if you were cracking up in class,
the teacher says,
if you keep this up,
you'll only amount to being a comedian?
Absolutely, yeah.
I've had that said to me.
What do you think?
You are a comedian?
I'm like, yeah. I've had that said to me, like, what do you think? You are a comedian? I'm like, hmm.
So for me, my profile is well known, I think, because I've written about it and spoken about it.
I was nine years old and a first trip to my local planetarium, the Hayden Planetarium.
And in fact, when I sign off this show, my tagline is,
keep looking up, that was a famous tagline of who was called the star hustler from the Miami
Planetarium for many, many years. And he was the head of the planetarium. And he had a show on a
short bit on PBS, giving sort of that week's night sky.
And what was his name?
Jack, I remembered in a minute.
And so he signed off.
But he died several years back.
And I say somebody's got to carry that forward.
So I carry his legacy.
Whenever I sign off, I say keep looking up.
So planetariums can be a tremendous force of influence on people's interest in looking up.
But also astrophysics, just the universe in general, is a gateway science.
It's a gateway science because if you're interested in that, then you find out, oh, my gosh, there's biology there.
There's engineering that makes the satellites.
There's physics.
There's chemistry. And so you come for the universe and
you stay for the whole rest of that smorgasbord of science. And I looked up at the night sky in
the planetarium and I said, oh my gosh, the limitless discovery that awaits us is what
attracted me. And to communicate science, I agree with Gavin here. If you tell somebody something and they like it and they want more, that's kind of, that's reinforcing.
And then you find something else to tell them that's really cool and interesting about your field.
And as Carl Sagan once said, when you're in love, you want to tell the world.
So I think we got to call it quits there.
Oh, my gosh.
This was fun.
And this is our Cosmic Queries format.
And I'm delighted that we got asked
by the Broward County School System
to bring our Cosmic Queries format
into your universe.
Because that's what we do
and it's what we love to do.
And Gavin, always great to have you on StarTalk.
Always a pleasure.
Thank you very much.
Okay, and we got to make sure
that the President of the United States
will have your ear with the head of NASA.
And so if stuff doesn't go right,
we'll blame you, okay?
That's fair.
That's fair.
That's fair.
That's totally fair.
And Chuck, it's always good to have you.
Thanks for bringing us a force of levity
into this world,
because sometimes we need it,
otherwise we'll just cry.
It's always a pleasure. I'm just saying. And let me end by declaring that I don't know in the
history of the world if there's ever been a community of adults who, upon looking at the
next generation, said, I can't wait till you all take over to fix this stuff. Take a look at what
adults have said about the next generation for the past 4,000 years. And
we've always worried about what the next generation would be and do. But maybe for the first time,
the opposite is the case. So y'all hurry up, get older, and gain the power we need to fix this
world. Save us, children! I'm Neil deGrasse Tyson, your personal astrophysicist,
as always bidding you
to keep looking up.