-
I'm a meteorologist by degree,
-
I have a bachelors,
masters and PhD in physical meteorology,
-
so I'm a meteorologist, card carrying.
-
And so with that comes
four questions, always.
-
This is one prediction
I will always get right.
-
(Laughter)
-
And those questions are,
-
"Marshall, what channel are you on?"
-
"Doctor Shepherd, what's the weather
going to be tomorrow?"
-
And oh, I love this one:
-
"My daughter is getting married
next September, it's an outdoor wedding.
-
Is it going to rain?"
-
(Laughter)
-
Not kidding, I get those
and I don't know the answer to that,
-
the science isn't there.
-
But the one I get a lot these days is,
-
"Doctor Shepherd, do you believe
in climate change?"
-
"Do you believe in global warming?"
-
Now, I have to gather myself
every time I get that question.
-
Because it's an ill-posed question,
-
science isn't a belief system.
-
My son, he's 10,
he believes in the tooth fairy.
-
And he needs to get over that,
because I'm losing dollars fast.
-
(Laughter)
-
But he believes in the tooth fairy.
-
But consider this.
-
Bank of America building,
there in Atlanta.
-
You never hear anyone say,
-
"Do you believe, if you go
to the top of that building
-
and throw a ball off, it's going to fall?"
-
You never hear that,
because gravity is a thing.
-
So why don't we hear the question,
-
"Do you believe in gravity?"
-
But of course we hear the question,
-
"Do you believe in global warming?"
-
Well, consider these facts.
-
The American Association
for the Advancement of Science, AAAS,
-
one of the leading
organizations in science,
-
queried scientists and the public
on different science topics.
-
Here are some of them:
-
genetically modified food,
animal research, human evolution.
-
And look at what the scientists
say about those,
-
the people that actually
study those topics, in red,
-
versus the gray, what the public thinks.
-
How did we get there?
-
How did we get there?
-
That scientists and public
are so far apart on these science issues.
-
Well, I'll come a little bit
closer to home for me,
-
climate change.
-
Eighty-seven percent of scientists
-
believe that humans are contributing
to climate change.
-
But only 50 percent of the public?
-
How did we get there?
-
So it begs the question,
-
what shapes perceptions about science?
-
It's an interesting question,
-
and one that I've been
thinking about quite a bit.
-
I think that one thing that shapes
perceptions in the public about science
-
is belief systems and biases.
-
Belief systems and biases.
-
Go with me for a moment.
-
Because I want to talk about
three elements of that:
-
confirmation bias, Dunning-Kruger effect
-
and cognitive dissonance.
-
Now, these sound like big, fancy,
academic terms, and they are.
-
But when I describe them,
you're going to be like, "Oh!
-
I recognize that, I even know
somebody that does that."
-
Confirmation bias.
-
Finding evidence that supports
what we already believe.
-
Now, we're probably all
a little bit guilty of that at times.
-
Take a look at this.
-
I'm on Twitter.
-
And often when it snows,
-
I'll get this tweet back to me.
-
(Laughter)
-
"Hey, Doctor Shepherd, I have 20 inches
of Global Warming in my yard,
-
what are you guys
talking about climate change?"
-
I get that tweet a lot, actually.
-
It's a cute tweet,
it makes me chuckle as well.
-
But it's oh, so fundamentally
scientifically flawed.
-
Because it illustrates
-
that the person tweeting
doesn't understand
-
the difference between
weather and climate.
-
I often say, weather is your mood
-
and climate is your personality.
-
Think about that.
-
Weather is your mood,
climate is your personality.
-
Your mood today doesn't necessarily
tell me anything about your personality.
-
Nor does a cold day tell me anything
about climate change,
-
or a hot day, for that matter.
-
Dunning-Kruger.
-
Two scholars from Cornell
came up with the Dunning-Kruger effect.
-
If you go look up
the peer review paper for this,
-
you will see all kinds
of fancy terminology:
-
it's an illusory superiority complex,
thinking we know things.
-
In other words, people think
they know more than they do.
-
Or they underestimate
what they don't know.
-
And then there's cognitive dissonance.
-
Cognitive dissonance is interesting.
-
We just recently had Groundhog Day, right?
-
Now, there's no better definition
of cognitive dissonance
-
than intelligent people asking me
if a rodent's forecast is accurate.
-
(Laughter)
-
But I get that, all of the time.
-
(Laughter)
-
But I also hear
about the Farmer's Almanac.
-
We grew up on the Farmer's Almanac,
people are familiar with it.
-
The problem is, it's only
about 37 percent accurate,
-
according to studies
at Penn State University.
-
But we're in an era of science
-
where we actually
can forecast the weather.
-
And believe it or not, and I know
some of you are like, "Yeah, right,"
-
we're about 90 percent accurate, or more,
with weather forecast.
-
You just tend to remember
the occasional miss, you do.
-
So confirmation bias,
Dunning-Kruger and cognitive dissonance.
-
I think those shape biases and perceptions
that people have about science.
-
But then, there's literacy
and misinformation
-
that keep us boxed in, as well.
-
During the hurricane season of 2017
-
media outlets had to
actually assign reporters
-
to dismiss fake information
about the weather forecast.
-
That's the era that we're in.
-
I deal with this all the time
in social media.
-
Someone will tweet a forecast --
-
that's a forecast for hurricane Irma,
but here's the problem:
-
it didn't come from the Hurricane Center.
-
But people were tweeting
and sharing this, it went viral.
-
It didn't come from the National
Hurricane Center at all.
-
So I spent 12 years of my career at NASA
-
before coming to
the University of Georgia,
-
and I chair their Earth Science
Advisory Committee,
-
I was just up there last week in DC.
-
And I saw some really interesting things.
-
Here's a NASA model
and science data from satellite
-
showing the 2017 hurricane season.
-
You see hurricane Harvey there?
-
Look at all the dust coming off of Africa.
-
Look at the wildfires up in northwest US
and in western Canada.
-
There comes hurricane Irma.
-
This is fascinating to me.
-
But admittedly, I'm a weather geek.
-
But more importantly, it illustrates
that we have the technology
-
to not only observe the weather
and climate system,
-
but predict it.
-
There's scientific understanding,
-
so there's no need for some
of those perceptions and biases
-
that we've been talking about.
-
We have knowledge.
-
But think about this...
-
This is Houston, Texas,
after hurricane Harvey.
-
Now, I write a contribution
for "Forbes" magazine periodically
-
and I wrote an article a week before
hurricane Harvey made landfall, saying,
-
"There's probably going to be
40 to 50 inches of rainfall."
-
I wrote that a week before it happened.
-
But yet, when you talk
to people in Houston,
-
people are saying, "We had no idea
it was going to be this bad."
-
I'm just...
-
(Sigh)
-
A week before.
-
But --
-
I know, it's amusing, but the reality is,
-
we all struggle with perceiving something
outside of our experience level.
-
People in Houston
get rain all of the time,
-
they flood all of the time.
-
But they've never experienced that.
-
Houston gets about 34 inches of rainfall
for the entire year.
-
They got 50 inches in three days.
-
That's an anomaly event,
that's outside of the normal.
-
So belief systems and biases,
literacy and misinformation.
-
How do we step out of the boxes
that are cornering our perceptions?
-
Well we don't even have to go to Houston,
we can come very close to home.
-
(Laughter)
-
Remember "snowpocalypse?"
-
(Laughter)
-
"Snowmageddon?"
-
Snowzilla?
-
Whatever you want to call it?
-
All two inches of it.
-
(Laughter)
-
Two inches of snow
shut the city of Atlanta down.
-
(Laughter)
-
But the reality is,
we were in a winter storm watch,
-
we went to a winter weather advisory,
-
and a lot of people perceived that
as being a downgrade,
-
"Oh, it's not going to be as bad."
-
When in fact, the perception
was that it was not going to be as bad,
-
but it was actually an upgrade.
-
Things were getting worse
as the models were coming in.
-
So that's an example of how
we get boxed in by our perceptions.
-
So, the question becomes,
-
how do we expand our radius?
-
Area of a circle is "pi r squared".
-
We increase the radius,
we increase the area.
-
How do we expand our radius
of understanding about science?
-
Here are my thoughts.
-
You take inventory of your own biases.
-
And I'm challenging you all to do that.
-
Take an inventory of your own biases.
-
Where do they come from?
-
Your upbringing, your political
perspective, your faith,
-
what shapes your own biases?
-
Then evaluate your sources --
-
where do you get
your information on science?
-
What do you read, what do you listen to,
-
to consume your information on science?
-
And then it's important to speak out.
-
Talk about how you evaluated your biases
and evaluated your sources.
-
I want you to listen to this
little 40-second clip
-
from one of the top
TV meteorologists in the US, Greg Fishel,
-
in the Raleigh, Duram area.
-
He's revered in that region.
-
But he was a climate skeptic.
-
Listen to what he says about speaking out.
-
(Video) Greg Fishel: Mistake I was making
and didn't realize until very recently,
-
was that I was only
looking for information
-
to support what I already thought,
-
and was not interested
in listening to anything contrary.
-
And so I woke up one morning
-
and there was this question in my mind,
-
"Greg, are you engaging
in confirmation bias?
-
Are you only looking for information
to support what you already think?"
-
If I was honest with myself,
and I tried to be,
-
I admitted that was going on.
-
And so the more I talked to scientists,
-
and read peer-reviewed literature
-
and tried to conduct myself the way
I've been taught to conduct myself
-
at Penn State when I was a student,
-
it became very difficult for me
to make the argument
-
that we weren't at least
having some effect,
-
maybe there was still a doubt
as to how much,
-
but to say "nothing" was not
a responsible thing for me to do
-
as a scientist or a person.
-
Greg Fishel just talked
about expanding his radius
-
of understanding of science.
-
And when we expand our radius,
-
it's not about making a better future,
-
but it's about preserving
life as we know it.
-
So as we think about expanding
our own radius in understanding science,
-
it's critical for Athens, Georgia,
for Atlanta, Georgia,
-
for the state of Georgia,
and for the world.
-
So expand your radius.
-
Thank you.
-
(Applause)
closed TED
