TED Talks Daily - The tipping points of climate change — and where we stand | Johan Rockström
Episode Date: August 14, 2024We're nearly halfway through the 2020s, dubbed the most decisive decade for action on climate change. Where exactly do things stand? Climate impact scholar Johan Rockström offers the most up...-to-date scientific assessment of the state of the planet and explains what must be done to preserve Earth's resilience to human pressure.
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where we bring you new ideas to spark your curiosity every day.
I'm your host, Elise Hu.
Just last month, we experienced the hottest day ever on Earth,
the latest point in a warming trend
that scientists have been sounding the alarm on for
years. Brace yourselves, because climate impact scholar Johan Rockström's talk lays out how these
hotter and hotter days fit into a larger pattern of climate change and its costs. But he's still
optimistic about the situation and explains why after the break.
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And now, our TED Talk of the day.
We Earth system scientists and climate scientists
are getting seriously nervous.
The planet is changing faster than we have expected.
We are, despite years of raising the alarm,
now seeing that the planet is actually in a situation
where we've underestimated risks.
Abrupt changes are occurring in a way
that is way beyond the realistic expectations in science.
Fifteen years back, I introduced the planetary boundary framework,
the scientific framework with the nine Earth system processes
that determines the stability, the resilience
and the life support on planet Earth.
Ten years back, the world signed the Paris Climate Agreement.
Almost five years back, we entered the decisive decade
where our choices will determine the future
for all generations on planet Earth.
Where are we on this journey halfway into this decade?
I will give you a scientific state-of-the-planet report,
the most objective assessment that science can
give today. And it starts here. We've reached 1.2 degrees Celsius of global mean surface temperature
rise, the warmest temperature on Earth over the past 100,000 years. We have just scratched on 1.5
degrees Celsius as an annual mean in 2023. But what worries us most is this. We are starting to see an acceleration of warming
over the past 50 years. 0.18 degrees Celsius per decade from 1970 to 2010, but then from 2014
onwards, it abruptly jumps up to 0.26 per decade. And if we follow this path, we will crash through
two degrees Celsius within 20 years and hit three degrees Celsius by the year 2100,
a disastrous outcome caused by us humans.
But it's not only carbon dioxide.
Any parameter that matters for human well-being in our economies
looks the same.
Linear change up until the 1950s,
we go into the Great Acceleration,
and this is what we're seeing across overconsumption of freshwater,
the sixth-max distinction of species,
over-eutrophying our freshwater systems with nitrogen and phosphorus,
all of it undermining the stability of the planet.
As if this was not enough,
we are seeing that this is now causing impacts
across the entire economy.
We're seeing bigger and bigger invoices being sent by the Earth system
onto societies across the entire world
in droughts, floods, heat waves, disease patterns,
human-reinforced storms
scientifically attributed to human-caused climate change.
40 degrees Celsius of life-threatening heat across all continents occurring in 2023.
52 degrees Celsius hitting the over 1,000 who lost their lives at the Hajj pilgrimage in June in Mecca.
Three times higher climate change risks now attributed to our cause of climate
change. 2023, up to 12,000 deaths, 200 billion US dollars of cost, just in the US, up to 100
billion US dollars. This is seriously causing economic costs. We have scientifically in the past
shown that this could cost a few percent of global GDP
of the climate impacts caused by us.
I can tell you that the latest scientific assessment
is an 18 percent loss of GDP by 2050,
if we now follow the current path.
This is equivalent to 38 trillion US dollars of loss per year in 2050.
It's starting to hurt,
both in human social costs and in economic costs.
And this is happening at 1.2 degrees Celsius
of low mean surface temperature rise,
and we're following a pathway that takes us to 2.7 degrees Celsius
in only 70 years.
And we've had a 10,000-year period
where our civilizations have developed, where we've had
an enormous privilege of a planet at 14 degrees Celsius plus minus 0.5 degrees Celsius. That's the
Holocene since we left the last ice age. And if you look three million years back, we never exceeded
two degrees Celsius. That's the warmest temperature on Earth during the entire quaternary. The coldest point,
minus five degrees Celsius, ice age. I call this the corridor of life. Is it surprising
that we scientists are getting really, really nervous? But it's more. It's so much more than
this. The first issue is buffering capacity.
The second is the risk of crossing tipping points.
And both are moving in the wrong direction.
Buffering capacity is the Earth system's ability
to dampen shocks and stress.
Like, for example, soaking up greenhouse gases
in intact nature on land and in the ocean.
And so far, Mother Earth has been so forgiving.
Fifty-three percent of the carbon dioxide from fossil fuel burning
and land system change
have been soaked up by intact nature on land and in the ocean.
The problem is, we have more and more scientific evidence
of cracks in this system.
Let's start on land.
Land absorbs 31 percent of the carbon dioxide from our greenhouse
gas emissions. We have more and more scientific evidence across so much research that the boreal
forest in Canada or the temperate mixed forest in Germany and Russia are starting to lose their
carbon uptake capacity. Did you know that the latest science showed that the part of the Amazon rainforest, planet Earth's richest biome on terrestrial land, has already tipped over and
is no longer a carbon sink? It is today a carbon source. It's no longer helping us. But as if that
was not enough, what really worries us today is the ocean. The ocean absorbs 90% of the heat caused by human-induced climate change.
This is well understood, but what really worries us is the latest data on sea surface temperature
across the ocean. From 1980 until today, how gradually the ocean surface just gets warmer
and warmer. It's actually warming all the way down to 2,000 meters depth. This is well understood
in science. It's a deep concern. It's well represented in the climate models. We understand it. Then
suddenly in 2023, something happens. Temperatures just go completely off the charts. 0.4 degrees
Celsius outside of the warmest temperature in previous years. What's happening? We admittedly
must be honest here. We do not know.
El Niño is certainly partly to blame, but cannot explain at all.
2024, it just continues.
What is happening?
We do not know, but the candidate number one
is the energy imbalance caused by us humans.
In one year alone,
the heat equivalent to 300 times global electricity use
is absorbed in the Earth's system.
An ocean that is starting to lose resilience?
An ocean that is at risk of releasing heat to the atmosphere
and self-amplifying warming?
We do not know, but one thing is for certain,
the ocean is sounding the alarm.
Reasons for concern?
Yes.
And now back to the episode. We are now at a point where we are forced to ask the following question. Are we at risk of pushing the planet out of the basin of attraction, the stability of the planet where
we've been since we left the last ice age, the extraordinarily stable Holocene state. And if we
push ourselves outside, drifting away unstoppably towards a hothouse earth where we get self-amplified
warming and losing life support on earth. What could take us there? Well, we know it. It is if
we cross tipping points.
Big systems like the Green and Ice Sheet,
the overturning of heat in the North Atlantic,
the coral reef systems, the Amazon rainforest,
are tipping element systems.
Push them too far, and they will flip over
from a desired state that helps us
to a state that will self-amplify in the wrong direction,
going from cooling and dampening to self-amplifying and warming.
A rainforest tips over to a savanna state.
Now, we have now mapped the 16 tipping element systems
with a now scientifically cataloged, regulated climate system.
These 16, the five in the ground zero on planet Earth in the Arctic,
are connected via cascades through the ocean,
particularly via the AMOC,
the Atlantic Overturning of Heat in the Ocean,
all the way down to Antarctica.
These are big biophysical systems that we all depend on,
global commons for the stability of the planet.
The question is, at what temperatures are they at risk of tipping
from helping us to becoming self-amplifying foes?
Well, for the first time,
we have an attempt to answer that question.
The following.
Five of these 16 are likely to cross their tipping points
already at 1.5 degrees Celsius.
The Greenland ice sheet, the West Antarctic ice sheet,
abrupt thawing of permafrost,
losing all tropical coral reef systems, and collapse of the West Antarctic ice sheet, abrupt thawing of permafrost, losing all tropical coral reef systems
and collapse of the barren sea ice.
Just the two ice sheets hold 10-meter sea-level rise,
which would be unstoppable on the long term.
Now, sure, there's scientific uncertainty here,
but there's one red thread in science for humanity,
in the scientific message, and it's this.
The more we understand of the Earth system,
the higher is the risk.
And here is the proof.
Five IPCC assessments,
the Intergovernmental Panel on Climate Change,
30 years of scientific advancements.
30 years back, the risk was put at 5 degrees Celsius of tipping,
and coming down to current state of science,
the risk is set at 1.5 to 2 degrees Celsius.
We are in the midst of a danger zone today.
But it can be even worse than that.
Let's go to the Amazon basin.
Again, the richest terrestrial ecosystem on land.
Climate science estimates the risk of the Amazon rainforest
tipping over irreversibly to a savanna
at 3 to 5 degrees of global mean surface temperature rise.
A really high temperature.
You know, unlikely even to be met over the next 70 years.
But if we lose forest cover,
the risk is that the system can tip already at 1.5 to 2 degrees Celsius
if we lose more than 20 to 25 percent of forest cover.
So that's a very dangerous combination.
Where are we today?
We are at 1.2 degrees Celsius,
global mean surface temperature rise,
and 17 percent of deforestation.
We are very close to a tipping point
in the Amazon rainforest.
Very close.
What shall we do to avoid these unmanageable outcomes?
Well, the IPCC is clear on the pathway. What shall we do to avoid these unmanageable outcomes?
Well, the IPCC is clear on the pathway.
To stay under 1.5 degrees Celsius, to avoid crossing tipping points,
we need to operate, to navigate within the global carbon budget
that gives us a chance of holding 1.5.
What remains for us is only 200 billion tons of carbon dioxide that we can continue emitting,
to have a 50 percent chance of holding 1.5.
We emit today 40 billion tons of carbon dioxide per year,
giving us five years at current rate of emission
before we've consumed the budget.
We are seriously running out of time.
And the pathway for a safe landing is also well studied and understood.
Bend the curve of emissions immediately
and follow a path where we reduce emissions by at least 7 percent per year
for a safe landing and a net-zero world economy by 2050.
But it's more than that.
We also know that even if we succeed with this,
we have already loaded the atmosphere with so much greenhouse gases,
with so much climate forcing,
that we inevitably face a period of overshoot. we have already loaded the atmosphere with so much greenhouse gases, with so much climate forcing,
that we inevitably face a period of overshoot.
We must now be prepared for a very likely breaching
of the 1.5 degrees Celsius planetary boundary on climate
somewhere between 2030 and 2035,
in five to 10 years' time,
and then have at best a 30, 40-year period of overshoot before we can come back to 1.5 by the end of this century. We would exceed, with 0.1 to 0.3 degrees Celsius,
the 1.5 limit, meaning up to 1.8 degrees Celsius. What does this tell us? Well, I can tell you there are two main messages. Message one, buckle up.
We know for certain, 100% certainty,
that this means more droughts, more floods, more heat waves,
more human-reinforced storms, more disease
during one generation's time.
2023, the warmest year on record,
will be looked back upon as a mild year.
Message two.
Why would the planet come back to 1.5 after overshoot?
Well, the answer is very simple.
The health of the planet must be kept intact.
We must continue having a planet
that can absorb 50% of the carbon dioxide.
We must have a planet that crosses no tipping point.
We must have a planet that remains healthy
and keeping heat intact in the ocean.
That is why we need planetary boundaries.
The planetary boundary framework that defines the nine Earth system processes
that regulate the stability and resilience of the entire planet.
Climate, biodiversity, nitrogen, phosphorus,
land, freshwater, air pollutants and chemicals.
That is the challenge.
To summarize that,
there is no 1.5 degrees Celsius delivery on the Paris Agreement
by only phasing out fossil fuels.
We also need to come back into the safe operating space
of the nature-based biodiversity,
all the planetary boundaries of nature.
This means that science is clear.
The window is rapidly closing.
But there is still some light in the window.
We actually have evidence that we've reached a pivotal point,
not only in terms of risk,
but also in terms of opportunity to transform the world
towards a safe and just future for humanity.
Linear change is no longer an option.
The only option is exponential change.
We know that the only currency that matters is speed and scale.
We also need to become stewards of the entire planet.
We need to now recognize from local to global level
that we're all so intertwined that we must govern the entire planet.
I know that is very daunting, but what choice do we have
when on the line is the future of our children on planet Earth?
And we have the solutions.
We know that solving the planet crisis is not utopia.
It's not fantasy. We have
the solutions for a secure, stable future for humanity. What are those transformations? Well,
we know them. It's a rapid transition away from fossil fuels. It is a transition towards circular
business models. It is transitioning towards healthy diets from sustainable food systems.
And it's not only halting loss of nature, it's also scaling the regeneration and restoration of marine systems,
soils, forests, and wetlands. We have solutions for all of these. Just take green energy, which
today is cheaper than fossil fuel-based energy. It's our choice that we're facing today. Now, I was nervous already in 2020 when we entered
this decisive decade and had to cut global emissions by half by 2030. Halfway into this
decade, the road is steeper than ever. It's steeper than ever.
This is what really, really concerns us, that we have a situation where we now need to move so fast.
And I've been standing on stages like this so many times,
sharing the dire scientific diagnostic.
But still, I just told you that I do conclude
that there is still some window open.
There is a light in the tunnel. And you may ask, what is it that makes me able to continue to be a
realistic optimist in this situation? The most dire situation, I must admit, in my whole professional
life. Well, actually, I promise this is an honest statement. There are so many positive items as well.
The most important one, in my mind,
is that we have ample evidence that citizens across the world,
a majority of them, care about nature and climate.
They trust climate science, they're concerned about climate change,
and they want solutions.
And the second key factor is that we have so much evidence today
that the solutions are not only available,
but if we implement them,
we get a more healthy, stable, secure future
with the jobs and the economies
that can compete and provide livelihoods into the future.
This means, dear friends,
that solving the planetary crisis is not only necessary,
it is possible, and we all win if we succeed. Thank you very much.
Support for this show comes from Airbnb. If you know me, you know I love staying in Airbnbs when
I travel. They make my family feel most at home when we're away from Airbnb. If you know me, you know I love staying in Airbnbs when I travel.
They make my family feel most at home when we're away from home.
As we settled down at our Airbnb during a recent vacation to Palm Springs,
I pictured my own home sitting empty.
Wouldn't it be smart and better put to use welcoming a family like mine by hosting it on Airbnb?
It feels like the practical thing to do,
and with the extra income, I could save up
for renovations to make the space even more inviting for ourselves and for future guests.
Your home might be worth more than you think. Find out how much at Airbnb.ca slash host.
That was Johan Rockström speaking at TED's Countdown Bloomberg Green Festival in 2024.
If you're curious about TED's curation, find out more at TED.com slash curation guidelines.
And that's it for today. TED Talks Daily is part of the TED Audio Collective. This episode was
produced and edited by our team, Martha Estefanos, Oliver Friedman, Brian Green,
Autumn Thompson, and Alejandra Salazar. It was mixed by Christopher Fazi-Bogan.
Additional support from Emma Taubner,
Daniela Balarezo, and Will Hennessy.
I'm Elise Hugh.
I'll be back tomorrow with a fresh idea for your feed.
Thanks for listening.
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