The Antarctica Challenge (2009) Movie Script
Antarctica:
the most undiscovered continent on Earth,
and for very good reasons.
Freezing temperatures
and deadly storms have defeated
many explorers and scientists
seeking to understand this mysterious land
on which man has never lived.
Today, they know enough to survive
this beautiful, though hostile place,
but events are now unfolding here
that may spell disaster
for the rest of the world.
What we find here today is unnerving.
Glaciers are melting rapidly into the ocean,
threatening to flood the world's coastlines.
Penguins are walking off
to their death in inexplicable
"Suicide Marches".
Seals are struck blind by ultraviolet rays.
Starfish are unable to reproduce
and the continent's largest land animal,
a creature smaller than a common housefly,
is facing possible extinction.
And now, on newly-exposed rocky landscapes,
seeing sunlight for the very first time,
green vegetation is thriving in the world's
largest desert.
Has an irreversible environmental
change begun here?
Or can we - as a global
community - work together,
to save our planet as well as ourselves?
This is - The Antarctica Challenge.
According to the National Oceanic
and Atmospheric Administration,
global temperatures have been increasing
steadily for the past 100 years,
with seven of the eight warmest
years on record occurring since 2001.
The most dramatic rise has been here,
in Antarctica,
as scientists from every discipline
search for clues,
and hopefully answers.
Warming temperatures here mean melting ice
and that means flooding
for the rest of the world.
Dr. Julian Scott, a geophysicist
with the British Antarctic Survey,
believes we have to prepare
for this catastrophe today.
Adding the water to the ocean
will cause more flooding
and we'll need to put up more flood defenses
and build our cities in a different way
because of it.
Pine Island is one of Antarctica's
largest glaciers.
Over 250 kilometers long
approximately the distance
between New York City and Boston
and two kilometers thick,
it is the greatest contributor of ice
flow into the ocean
of any ice drainage basin in the world.
In this time-lapse photography
of a melting glacier,
we can see just how
quickly large areas of ice
can move from their rocky shores to the sea.
Through his extensive study,
Dr. Scott has found that
Pine Island Glacier alone
is currently adding 46
gigatons of fresh water
to the world's sea level every year.
The main reason the glacier is increasing
its speed at the moment
is thought by most
scientists working on the area
to be due to warm ocean water.
Now this isn't necessarily water
that's been affected by atmospheric
changes in recent history.
This is deep ocean water off the edge
of the continental shelf
that is somehow being pushed up
onto the continental shelf
by the wind patterns,
and the pressure systems in Antarctica.
And shifting warm water right to the area
of this glacier where it starts to float.
Now this is thinning
this area of the glacier,
and by thinning this floating portion
of the glacier,
this causes a reduction in the pressure
which means there's less
holding the glacier back
which means it can speed up.
Another cause of the faster-moving ice
is the warming of the newly exposed rock
that extends beneath the ice.
As the sun warms this bare rock,
it creates an endothermic reaction
that heats the rock bed
and melts the ice from underneath.
Antarctica holds 70 per cent
of the world's fresh water in its ice.
According to NASA,
if the land ice of the west coast of
the continent alone were to melt,
the world's sea level
would rise 18 to 20 feet.
This would result in massive
flooding around the world
as well as increased weight
and pressure on the world's seabed.
This, in turn, could provide severe stress
on oceanic fault lines
resulting in earthquakes and tsunamis.
Even the ozone hole
may be contributing to
this problem by the way
it has changed weather patterns here.
Now one theory that's been suggested
is it actually could be anthropogenic,
but due to the ozone hole over Antarctica
which has been shown to change
the weather systems around Antarctica,
or we could be seeing El Nino-type effects
in the southern weather systems
that the wind is driving this ocean water
up to the front of the glacier.
It's a huge ice sheet
grounded largely below sea level
which is why we are concerned about it.
But the ice is very thick
and extends way above sea level,
so obviously if we were to lose it,
it would contribute to
the global sea levels.
And in fact,
the whole of the West Antarctic Ice Sheet
could contribute up to five meters.
And the Amundsen Sea area,
where Pine Island and Thwaites Glaciers are,
that have both been
noted to be speeding up recently
that could contribute around one and
a half meters to global sea level.
Dr. Scott is one of many scientists
dedicated to studying Antarctica.
He spends long periods
of study in the field,
but returns home to analyze his findings.
His headquarters are located here,
half a world away,
in the historic university
town of Cambridge, England.
His research, along with others
at the British Antarctic Survey,
pays tribute to the first
scientific expeditions
in Antarctica 100 years ago.
While many ships and lives
were lost in those early days
by explorers the world over,
it was one British explorer
who is perhaps best known for paving the way
for scientific study here today:
Sir Ernest Shackleton.
In 1909, he led one
of the very first scientific expeditions
to Antarctica.
Ernest Shackleton really filled
the old dictionary
definition of an explorer:
one who explores to discover new lands.
There are very few new
lands left to discover
under the sea, possibly and of
course in space in the future.
But for scientists there
are always new lands
and they never stop discovering.
Well during the early expeditions,
polar science was really
a matter of observation
more than very precise science.
I mean they didn't have the gear.
A lot of scientific
research was accomplished
during the Nimrod Expedition.
And they did accomplish some notable firsts.
They did discover that the south,
the south magnetic pole
which is not a fixed point
but moves about, about six miles a year.
That was enough for Shackleton
to secure a second expedition.
However, this time,
it didn't turn out as expected.
When the ship became trapped in the ice,
it was hoped that she would rise above it
and be able to be floated once more,
but instead she was slowly crushed.
They watched with horror
as, as, as this took place.
Eventually the mast came down.
And though, you can see the little group,
rather desolate on the ice, their home
because the ship is always
a sailor's home - gone.
They were in a very dangerous situation.
No one knew where they were.
Shackleton and his crew were left stranded,
and fighting for their lives,
for over a year and a half.
Amazingly, Shackleton led his Endurance crew
back to safety without losing one life.
Their incredible story of
survival is commemorated
by one of Antarctica's very few museums.
With many of their supplies
still on its shelves,
this unique museum
provides an eerie reminder of
how difficult survival
is in this harsh land.
A struggle which helped give inspiration to
an international treaty fifty years later.
For the first time in human history,
twelve nations were able to agree
to administer an entire continent.
Signed on December 1, 1959,
the "Antarctica Treaty"
bans any military activity
and restricts any human occupation
solely to scientific study.
Never before has the world come together
to jointly govern a continent,
rather than fight over its ownership.
Today, there are 47 nations ensuring the
"peaceful use"
of Antarctica strictly
for scientific research.
One of the more recent countries to sign
the Treaty is Ukraine.
Dr. Yeugeny Karyagin
is a Seismologist from Ukraine.
His country joined the treaty in 1992
and took over
Great Britain's Faraday Research Station,
renaming it Vernadsky Station.
He believes that the melting fresh water
is contributing to the
further melting of the ice
in a very unusual way.
Dr. Karyagin warns that
the increased precipitation
will accelerate the
melting of the glacier ice,
compounding and accelerating the process,
as more fresh water
from the melting land ice
dilutes the salt-water
of the Antarctic Ocean.
Since fresh water
evaporates faster than salt water,
there will be a lot more rain and snow here.
Over the past 20 years,
the continent of Antarctica
has diminished in size dramatically,
shrinking the ice fields
at an alarming rate.
How much further can Antarctica shrink
before its melting ice floods the world?
Dr. Karyagin is measuring
this melting every day
through a series of seismology tests
designed to record shifts
in glacial movement.
Dr. Karyagin has been recording vibrations
from nearby glaciers.
He claims that the increased frequency
of seismic signals
tells him that the climate is warming.
If he's right,
more glaciers will soon resemble this one,
diluting the sea with fresh ice water
at unprecedented speeds.
At this continued rate it could mean
catastrophic flooding
for most of the coastal towns
and cities of the planet.
Are we too late?
Is there anything we can do now to slow,
and perhaps even reverse,
this continent's warming to prevent
world flooding?
Most scientists predict that
the world's coastal towns and cities
will be hit the hardest
by the rising sea levels
and the ensuing hurricanes,
earthquakes and tsunamis.
Coastal cities that are the centre
of life to millions are at peril.
Cities like San Francisco.
This picturesque coastal city in California
is the occasional home
of renowned environmentalist
and penguin specialist, Dr. David Ainley,
who, after spending more than 30 years
in the field in Antarctica,
has likely spent more time there than here.
His contribution to scientific study
in Antarctica is so significant
a mountain there has been
named after him - Ainley's Peak.
He believes that cities
like his will soon have some serious
environmental issues to deal with.
I think we're going to
see some major problems.
We are too late by 20 years
and it's really serious.
Anybody that lives on the coast
is going to be having problems.
It doesn't take much of a rise in sea level,
just an inch and that's huge
when you get a storm surge you know,
from a nor'easter or a hurricane
or that sort of thing.
You know foreclosures are
happening on beachfront.
That's probably a good thing
because those properties are history anyway.
And while today's Antarctic scientists
are suggesting we need to relocate
to higher ground,
the penguins here are already being forced
to do the same thing.
There are up to seven species of penguins
that might occur in the Antarctic.
Four of those are relatively common
and if we start from
the largest - the Emperor Penguin
it's the one that is least tolerant
to temperature changes.
It's the one that nests the furthest south,
the one that nests in the coldest climates.
Next would be the Adelie penguin.
They're very much dependant
on ice floes and the near-ice
conditions for hunting,
so they again would be very much affected
by rising temperature changes.
The Chinstrap penguin
is somewhere in between.
It is more adaptive.
It will move further north and further south
than some of the other ones.
But the one behind me, the Gentoo,
is probably the most adaptive.
It's the one that might be the super penguin
of the Antarctic eventually.
As well, warming waters
are responsible for a drastic decline
in the penguins' sole
food source, the krill.
Krill are small shrimp-like
marine crustaceans.
They're the primary food supply of penguins
and all other Antarctic animal life.
They travel in schools of millions and
are very sensitive to water temperature.
A rise in temperature of even half a degree
hinders their ability to reproduce,
seriously impacting the penguins here.
Compounding this problem is that more whales
are entering these waters now
that they have become warmer.
In one gulp,
these whales can consume a quantity of krill
that would otherwise feed 2,000 penguins.
If the krill move out of the area entirely,
these penguins will have to find
another food source
and most of them won't be able to.
When krill's available all of the species
of smaller penguins here
the Adelie, the Chinstrap and the Gentoo
will eat them almost exclusively.
It's only when the krill
is in diminishing numbers
that they would turn to other species.
Well, if there's no food,
there's no birds, pretty simple.
As the food resources change,
it's only the species that are able to adapt
that are going to survive.
The other species, such as the Adelie,
the Emperor, will have to either stay south
or move south into the colder waters
and try to catch the
krill that are still there.
Over the past 25 years,
the population of the Adelie penguins here
in the Antarctic Peninsula
has dropped by 50 per cent,
while the Chinstrap numbers
have fallen by as much as 65 per cent,
but the most noticeable relocation recently
has been among the Gentoos.
The biggest change that's occurred here
is the movement of the Gentoo.
They're moving further south.
They're moving south in greater numbers.
They're moving higher up onto the slopes.
When you have small numbers of them,
they will nest in near-shore areas.
As the population increases
in a preferred nesting locale,
they'll move upslope.
So we have the penguins behind me.
We have penguins on a
higher slope to the right,
and then sometimes we'll get penguins
even higher up on the slope behind.
So while it looks as
though the Gentoo is poised
to take over the warming
west coast of Antarctica,
the retreating penguin species
are moving to the colder
climates down the coast,
and individual penguins have begun
wandering off to certain death
a phenomenon only recently observed
in the past five years.
Viewed by many as "suicide marches",
Ione penguins have been observed
to leave their colony,
walk away from the sea,
and venture deep into the continent,
never to return.
Penguin scientist Dr. David Ainley
has been studying penguin
behavior for 40 years,
most of those years in
the field in Antarctica.
His theory is that
these so-called suicidal penguins
are actually pioneers, a
kind of "noble explorer"
who ventures out on his own
to find a new home for his colony.
We have these individual
penguins that purportedly
are committing suicide by walking away
from the sea,
into the interior of the Antarctic,
kind of like Scott did.
When these populations expand,
it's because of pioneers
that find new places.
They go off and disappear and nobody hears
about 'em anymore unless
they have good publicists.
This unusual behavior was first noted
when an iceberg measuring 97 nautical miles
came to rest at the shore of
a large penguin colony,
effectively blocking
access to their food supply.
So this big iceberg, B15A,
parked itself in the southern Ross Sea.
So there was a lot of disoriented penguins
during those five years that essentially
had this 97-mile-long fence
that went across the Ross Sea.
So during those five years,
there was an increase in the numbers
of these penguins
that were really beside themselves
about which way to go
and which would get them
to where they wanted to go.
Several more of these penguins
that were going the wrong way,
so to speak these would be the heroes
that penguins would write about.
However, without the warming temperatures
that placed giant icebergs in their path,
there would be no heroic penguins
looking for a new home for their tribe.
Suicide missions aside,
the relocation of penguin populations is
taking a significant toll on their numbers.
As well, global warming and the ozone hole
have combined to threaten penguin
populations across the continent
and may very well cause their extinction.
For many penguin species,
warming temperatures have reduced
the size of ice floes upon
which species such as the Emperor penguin
hatch their young.
Combined with the increased winds
resulting from the ozone hole,
entire colonies of baby chicks
are being blown off the
ice to certain death.
But as is being shown at Point Geologie,
that colony has decreased by
50 per cent since the mid-70s
and partially it is related to the fact
that the fast ice is too thin
and so it gets blown out repeatedly.
And many eggs and chicks are blown away
on the ice with parents sitting on them.
It's okay with the parents,
you know they're used to water
but this is happening
with greater frequency.
Also occurring with greater frequency
is an extended period of dependency
by young penguins on their parents for food.
Young Gentoos such as
this one have usually begun
to collect food for themselves by now.
Yet more and more of these penguins
have been observed to be
relying on their parents.
Penguins far beyond the age of nestling
are having trouble "leaving
the nest" as it were,
perhaps afraid to face
the relatively bleak prospects
of their diminishing food supplies.
Failed mating attempts, such as this one,
have been observed more and more
in the past five years,
suggesting the birds
are becoming more disoriented,
perhaps another result of their difficulty in
adapting to the rapidly changing environment.
Another cause for concern,
especially among the younger penguins,
is the increase in attacks
from a predatory bird
known as the skua.
Usually, these birds attack
only the eggs of penguins,
but as the number of eggs has been reduced,
the skua has now become
a predator of baby chicks.
And since these birds prefer a warmer
climate and a rocky shore to live on,
more of them are entering
the peninsula area,
providing the remaining penguin populations
something they are
not used to - a predator.
While the warmer climate in Antarctica
is impacting on the survival of
the once plentiful penguin populations...
...the increased temperatures
are also resulting
in the decline of Antarctica's
only indigenous land animal the common fly.
Okay, what we've been looking at here
are little, tiny terrestrial invertebrates
that are the main animal fauna
on the Antarctic Peninsula.
They're virtually the only fauna
you see in the Antarctic
and what I've been looking at
specifically here is this little fly.
There are only two real flies in Antarctica,
and this is one of them.
It's the largest land animal in Antarctica,
and if you're lucky,
it's about 4 or 5 mm long
and about half a milligram in weight
so it's a, a really rather, a small,
cute little insect basically.
It's a fly without any wings.
The Antarctic Peninsula,
it's one of the three fastest warming parts
of the planet at the moment.
And these little invertebrates
and in their distributions
are potentially sensitive to these changes.
So if it gets warmer, as it is doing,
they can carry out their lifecycle quicker.
What this means is they die faster.
The warmer habitat here can be deadly.
The barren rock now being exposed
by melting ice is very dry,
depriving the creatures of water.
It doesn't have very good
water-holding capacity.
If you warm it up, and particularly
if you have increased amounts of sunshine,
direct sunshine landing on it,
it actually dries out more quickly,
so you actually may end
up with a warmer habitat
but one in which there's no water available.
Now that combination of effects
is actually then negative
on these little invertebrates.
And while warming temperatures are creating
deadly environments for Antarctica's land animals,
the warmer waters are having the same effect
for Antarctica's marine life.
Laura Grange is a marine biologist
working with the British Antarctic Survey
at their Rothera Research Station.
She tells us that an anticipated increase of
only two degrees in water temperature
will cause starfish and other marine life
to stop reproducing.
This is a starfish.
All these animals were
actually collected from
the shallow water
around the Rothera Research Station.
And they're all
collected by scuba-diving.
And it's also incredibly colourful
which is easily shown on this starfish.
We collect them directly from outside
and then we bring them in to carry out
various experiments on them.
I'm actually looking at their
breeding success from year to year.
They're also very important
because they're very sensitive
to temperature change.
Many scientists have actually predicted
that there will possibly
be a global temperature change
of two degrees within the next 100 years.
Well, these animals, in particular,
are very susceptible
or very sensitive to changes in temperature.
And therefore, because
of this predicted change,
both regionally but also globally,
it's very unlikely that
they won't be affected.
And in my case, for my work,
if they're not able to breed,
obviously they won't be able to survive.
And while global warming in Antarctica
seems to be a significant
threat to its fauna,
the flora seems to be
experiencing a genesis...
in what is commonly referred to
as the world's largest desert.
Daniella Rubling,
a sub-Antarctic botany researcher,
describes a new vegetation here
that she has not seen before.
It looks to be a combination
of moss-type plant...
as well as potentially some algae as well
but basically chlorophyllic species
that do use photosynthesis in order
to produce their food,
and to produce, to grow and to survive.
And it's very interesting to see it
in this type of area
because most of the time,
these islands are covered by snow.
They're covered by ice.
They don't see light.
And so to see greenery in an area that
has always been considered to be a desert,
it's very interesting and exciting
to see new life growing in places
where it has never been previously.
But perhaps the biggest mystery
of the "greening of Antarctica" is
where this new life came from.
Was it always here,
lying dormant in the rocky soil?
Or was it brought here by birds or winds?
Well I mean the seeds
or spores of these plants
may have been carried in by winds.
This may have been occurring
for hundreds of years
but because it's been covered in snow,
these plants have not been able
to establish themselves.
Whereas now, once you get exposure of rock,
you get soil deposition,
allowing these seeds or spores
to establish themselves
and grow in areas where they would
never have been before.
And does it stop there?
Is this possibly the beginning of
an entirely new eco-system?
This type of vegetation,
it can serve as both food supply for animals
that need to convert the plant material
into energy for themselves,
but also in and amongst you can see
that it could also provide shelter
or protection for animals
as well or for smaller invertebrates.
I mean the possibilities are,
are for more life to grow
and for more species to find their way here
and establish themselves as well.
But in order to predict how severe climate
change will affect this continent and,
by extension, the rest of the world,
a series of measurements
and data recordings is done
on a daily basis by devoted
scientists the world over
in what is often a
thankless, yet essential, job.
Recording temperatures from the past,
and projecting a tendency to continue,
is not a very reliable method of forecast
given the wildly changing atmospheric
and meteorological conditions here.
What was different last night, I don't know.
Okay, down we go!
Okay!
One of the more accurate methods involves
ice core sampling.
Where I'm sitting, the
ice is 950 meters thick.
If I drill through all the way
down to the bedrock,
I would have recovered ice spanning
the last 40,000 years.
This is quite an important period.
Forty thousand years ago,
the earth was in an ice age.
Today we're in a warm period.
By analyzing the record of the climate
from the bottom of the core to the top,
I will be able to see how we moved
from a cold period into a warm period
and this helps us understand
how we expect the climate to change
over the next hundred years.
That's a nice piece of
core about 2 meters long,
and round about here is 500 meters
depth from the surface,
and that's ice that fell as snow about
5,800 years ago.
Many things in the atmosphere change
from summer to winter
and we can see this in the ice cores
when we analyze them.
So when we plot out our results,
we see a series of waves going down the ice
and these are summer,
winter, summer, winter.
So we can simply count the layers
just like counting tree rings.
Once we get the 2-meter ice core
back to the surface
and we've packed it into insulated boxes,
and then it's shipped by small aircraft back
to one of our coastal stations, Hailey Bay
where it's loaded onto one of our ships,
and is shipped back to Europe
in a refrigerated container.
Once it gets back to Europe,
we cut it into much smaller pieces
and send each of these pieces out to
different laboratories for different analyses
to try to understand all the things that are
happening in the climate and the atmosphere.
This study has shown
that the increase of greenhouse gases
found in the air bubbles
is directly proportionate to the increase
in size of the ozone hole.
And what if the hole gets bigger?
How many lives might be at risk
as a result of the cancer-inducing UV rays?
One of the most important areas
of study in Antarctica
today is the ozone hole.
As its regularly increasing size
approaches human habitats,
such as New Zealand,
the related increase in cases of skin cancer
has made ozone study a high priority.
At Vernadsky Station,
ozone scientist Igor Gvodzdovskyy
keeps a daily vigil of recording ozone
readings every three hours.
To do this,
he uses a Dobson Ozone Spectrophotometer,
an instrument used by the British
Antarctic Survey to study the Ozone Hole.
The hole was discovered in 1985
by Dr. Jonathan Shanklin,
using this very device.
Well this sort of white box
that we've got in front of us
is the Dobson Ozone Spectrophotometer.
And as you might guess from the fact
that it's got ozone in its name,
it's for measuring ozone
in the atmosphere above us.
And we can see on the top of the instrument
this black tube with a prism at the top,
and that allows us to direct a beam
of sunlight into the instrument.
Now this sunlight has come through
the earth's atmosphere,
through the ozone layer,
and it's slightly changed that beam,
particularly in the ultraviolet part
of the spectrum.
And what we do inside the instrument
is select out those wavelengths,
or parts of the ultraviolet spectrum,
that have been affected by the ozone.
And by looking at the ratio of intensity
of two wavelengths,
we can look at how much
ozone was in the path
from the instrument to the sun.
And the observer would make some adjustments
on the levers
and the dial to either
select the wavelength,
or to find out what the absorption was.
So it's essentially a very simple design,
designed by an Oxford professor
of physics in the 1920s,
and it's still the world standard
for measuring ozone from the ground.
Measurements recorded
here on Galindez Island
detail the amount of
ozone in the atmosphere.
Recent measurements have ranged
from 270 to 300 Dobsons
and this is good news!
A measurement of 260 or less
is dangerous for people and animals.
This allows all wavelengths
of ultra-violet rays through,
burning unprotected skin in five minutes
and blinding Antarctica's land animals.
This Weddell Seal, for example,
has been blinded by UV rays
and this is becoming an increasing problem.
There seems to be evidence
that the changes in the ozone hole
are having an effect on climate
change here as well.
The changes in the ozone hole
certainly have been driving some of the
changes that we've seen in surface climate.
I think that's now pretty well established
that one of the big changes in
Antarctic climate over the last 30 years
or so has been that the westerly winds
that blow around the continent
have speeded up by maybe 20%.
We now think that a large part of that
is due to the reduction of ozone
in the stratosphere.
Since its discovery in 1985
by Dr. Jonathan Shanklin,
the hole has been getting bigger every week.
Now that it has reached an area
in excess of 25 million square kilometers
the size of North America,
it has, for the very first
time, stopped growing.
This year's ozone hole has actually
been quite unusual.
Quite often, it's not a circular thing.
It can be quite elliptical
and sometimes when it's elliptical
it sweeps northwards
over the tip of South America
or the Falkland Islands and South Georgia.
And that can usually
happen once every few weeks.
This year, it's only happened once.
The hole has remained very,
very circular and consequently, very stable.
The reason for this, many scientists believe
has been the Montreal Protocol
an urgently created global initiative
to ban the use of gases
that destroy ozone, such as
chlorofluorocarbons, or CFCs.
The treaty was signed on September 16, 1987
by almost all the nations of the world
and the results have made a difference.
Timor-Leste, San Marino and Andorra
are the three that haven't signed up.
Everybody else has signed up
to the basic protocol and it's working!
It's really quite amazing.
The amount of these ozone-destroying substances
in the atmosphere is clearly dropping.
It will take a few years before
what we see at the surface filters through
to the high atmosphere above Antarctica.
But nevertheless I think even in Antarctica
we're starting to see the amount of
ozone-destroying substances go down.
It's a slow process
because they're very stable
and it's probably going to be
another decade before
we can be certain that things
are actually improving,
but we can confidently say
that we're on the right track.
And while Dr. Shanklin believes
in the reduction of our use of CFCs
is the reason why the ozone hole
has stopped growing,
his counterpart in Antarctica,
Igor Gvozdovskyy, has recorded measurements
that suggest the hole is actually shrinking.
The correlation between
the world-wide CFC ban
and the reversal of the ozone hole's size
will hopefully encourage
further collective efforts
to help reduce the damage to ourselves
and our planet.
The Montreal Protocol together with
the signing of the Antarctica Treaty,
have proven to be two unprecedented
international co-operatives
that ended up protecting
the Earth's environment.
No territorial disputes,
no military presence,
no natural resource mining,
no commercial interests,
no residential land claims.
Antarctica is unique in so many ways.
It is the driest, windiest,
highest and coldest continent on Earth.
We can now add to that list
that it is the only place on Earth
where the world has come together in peace
to effect environmental change
for the betterment of all life.
No matter how insurmountable
the environmental crisis may seem to be,
we have proven that with
an internationally united effort,
we can answer the call to any challenge,
even The Antarctica Challenge.
There's no denying the effects
of global warming on our planet.
Countries around the world...
have been experiencing record
temperatures for years,
but none more pronounced than
right here in Antarctica.
I'm standing in beautiful Neko Harbour here
where the temperatures have increased hugely
in the past five years.
Five years ago the idea
of swimming in Antarctica
was not only ludicrous
but actually impossible
because most of the
shoreline water was frozen.
However, as you can see over my shoulder,
the water is not frozen.
And the temperature today is
a balmy eight degrees Celsius
and to me, that sounds like
a good temperature for a swim.
So here I go.
Okay, we'll see you in a bit!
So there you have it:
swimming, Antarctica's newest sport!
the most undiscovered continent on Earth,
and for very good reasons.
Freezing temperatures
and deadly storms have defeated
many explorers and scientists
seeking to understand this mysterious land
on which man has never lived.
Today, they know enough to survive
this beautiful, though hostile place,
but events are now unfolding here
that may spell disaster
for the rest of the world.
What we find here today is unnerving.
Glaciers are melting rapidly into the ocean,
threatening to flood the world's coastlines.
Penguins are walking off
to their death in inexplicable
"Suicide Marches".
Seals are struck blind by ultraviolet rays.
Starfish are unable to reproduce
and the continent's largest land animal,
a creature smaller than a common housefly,
is facing possible extinction.
And now, on newly-exposed rocky landscapes,
seeing sunlight for the very first time,
green vegetation is thriving in the world's
largest desert.
Has an irreversible environmental
change begun here?
Or can we - as a global
community - work together,
to save our planet as well as ourselves?
This is - The Antarctica Challenge.
According to the National Oceanic
and Atmospheric Administration,
global temperatures have been increasing
steadily for the past 100 years,
with seven of the eight warmest
years on record occurring since 2001.
The most dramatic rise has been here,
in Antarctica,
as scientists from every discipline
search for clues,
and hopefully answers.
Warming temperatures here mean melting ice
and that means flooding
for the rest of the world.
Dr. Julian Scott, a geophysicist
with the British Antarctic Survey,
believes we have to prepare
for this catastrophe today.
Adding the water to the ocean
will cause more flooding
and we'll need to put up more flood defenses
and build our cities in a different way
because of it.
Pine Island is one of Antarctica's
largest glaciers.
Over 250 kilometers long
approximately the distance
between New York City and Boston
and two kilometers thick,
it is the greatest contributor of ice
flow into the ocean
of any ice drainage basin in the world.
In this time-lapse photography
of a melting glacier,
we can see just how
quickly large areas of ice
can move from their rocky shores to the sea.
Through his extensive study,
Dr. Scott has found that
Pine Island Glacier alone
is currently adding 46
gigatons of fresh water
to the world's sea level every year.
The main reason the glacier is increasing
its speed at the moment
is thought by most
scientists working on the area
to be due to warm ocean water.
Now this isn't necessarily water
that's been affected by atmospheric
changes in recent history.
This is deep ocean water off the edge
of the continental shelf
that is somehow being pushed up
onto the continental shelf
by the wind patterns,
and the pressure systems in Antarctica.
And shifting warm water right to the area
of this glacier where it starts to float.
Now this is thinning
this area of the glacier,
and by thinning this floating portion
of the glacier,
this causes a reduction in the pressure
which means there's less
holding the glacier back
which means it can speed up.
Another cause of the faster-moving ice
is the warming of the newly exposed rock
that extends beneath the ice.
As the sun warms this bare rock,
it creates an endothermic reaction
that heats the rock bed
and melts the ice from underneath.
Antarctica holds 70 per cent
of the world's fresh water in its ice.
According to NASA,
if the land ice of the west coast of
the continent alone were to melt,
the world's sea level
would rise 18 to 20 feet.
This would result in massive
flooding around the world
as well as increased weight
and pressure on the world's seabed.
This, in turn, could provide severe stress
on oceanic fault lines
resulting in earthquakes and tsunamis.
Even the ozone hole
may be contributing to
this problem by the way
it has changed weather patterns here.
Now one theory that's been suggested
is it actually could be anthropogenic,
but due to the ozone hole over Antarctica
which has been shown to change
the weather systems around Antarctica,
or we could be seeing El Nino-type effects
in the southern weather systems
that the wind is driving this ocean water
up to the front of the glacier.
It's a huge ice sheet
grounded largely below sea level
which is why we are concerned about it.
But the ice is very thick
and extends way above sea level,
so obviously if we were to lose it,
it would contribute to
the global sea levels.
And in fact,
the whole of the West Antarctic Ice Sheet
could contribute up to five meters.
And the Amundsen Sea area,
where Pine Island and Thwaites Glaciers are,
that have both been
noted to be speeding up recently
that could contribute around one and
a half meters to global sea level.
Dr. Scott is one of many scientists
dedicated to studying Antarctica.
He spends long periods
of study in the field,
but returns home to analyze his findings.
His headquarters are located here,
half a world away,
in the historic university
town of Cambridge, England.
His research, along with others
at the British Antarctic Survey,
pays tribute to the first
scientific expeditions
in Antarctica 100 years ago.
While many ships and lives
were lost in those early days
by explorers the world over,
it was one British explorer
who is perhaps best known for paving the way
for scientific study here today:
Sir Ernest Shackleton.
In 1909, he led one
of the very first scientific expeditions
to Antarctica.
Ernest Shackleton really filled
the old dictionary
definition of an explorer:
one who explores to discover new lands.
There are very few new
lands left to discover
under the sea, possibly and of
course in space in the future.
But for scientists there
are always new lands
and they never stop discovering.
Well during the early expeditions,
polar science was really
a matter of observation
more than very precise science.
I mean they didn't have the gear.
A lot of scientific
research was accomplished
during the Nimrod Expedition.
And they did accomplish some notable firsts.
They did discover that the south,
the south magnetic pole
which is not a fixed point
but moves about, about six miles a year.
That was enough for Shackleton
to secure a second expedition.
However, this time,
it didn't turn out as expected.
When the ship became trapped in the ice,
it was hoped that she would rise above it
and be able to be floated once more,
but instead she was slowly crushed.
They watched with horror
as, as, as this took place.
Eventually the mast came down.
And though, you can see the little group,
rather desolate on the ice, their home
because the ship is always
a sailor's home - gone.
They were in a very dangerous situation.
No one knew where they were.
Shackleton and his crew were left stranded,
and fighting for their lives,
for over a year and a half.
Amazingly, Shackleton led his Endurance crew
back to safety without losing one life.
Their incredible story of
survival is commemorated
by one of Antarctica's very few museums.
With many of their supplies
still on its shelves,
this unique museum
provides an eerie reminder of
how difficult survival
is in this harsh land.
A struggle which helped give inspiration to
an international treaty fifty years later.
For the first time in human history,
twelve nations were able to agree
to administer an entire continent.
Signed on December 1, 1959,
the "Antarctica Treaty"
bans any military activity
and restricts any human occupation
solely to scientific study.
Never before has the world come together
to jointly govern a continent,
rather than fight over its ownership.
Today, there are 47 nations ensuring the
"peaceful use"
of Antarctica strictly
for scientific research.
One of the more recent countries to sign
the Treaty is Ukraine.
Dr. Yeugeny Karyagin
is a Seismologist from Ukraine.
His country joined the treaty in 1992
and took over
Great Britain's Faraday Research Station,
renaming it Vernadsky Station.
He believes that the melting fresh water
is contributing to the
further melting of the ice
in a very unusual way.
Dr. Karyagin warns that
the increased precipitation
will accelerate the
melting of the glacier ice,
compounding and accelerating the process,
as more fresh water
from the melting land ice
dilutes the salt-water
of the Antarctic Ocean.
Since fresh water
evaporates faster than salt water,
there will be a lot more rain and snow here.
Over the past 20 years,
the continent of Antarctica
has diminished in size dramatically,
shrinking the ice fields
at an alarming rate.
How much further can Antarctica shrink
before its melting ice floods the world?
Dr. Karyagin is measuring
this melting every day
through a series of seismology tests
designed to record shifts
in glacial movement.
Dr. Karyagin has been recording vibrations
from nearby glaciers.
He claims that the increased frequency
of seismic signals
tells him that the climate is warming.
If he's right,
more glaciers will soon resemble this one,
diluting the sea with fresh ice water
at unprecedented speeds.
At this continued rate it could mean
catastrophic flooding
for most of the coastal towns
and cities of the planet.
Are we too late?
Is there anything we can do now to slow,
and perhaps even reverse,
this continent's warming to prevent
world flooding?
Most scientists predict that
the world's coastal towns and cities
will be hit the hardest
by the rising sea levels
and the ensuing hurricanes,
earthquakes and tsunamis.
Coastal cities that are the centre
of life to millions are at peril.
Cities like San Francisco.
This picturesque coastal city in California
is the occasional home
of renowned environmentalist
and penguin specialist, Dr. David Ainley,
who, after spending more than 30 years
in the field in Antarctica,
has likely spent more time there than here.
His contribution to scientific study
in Antarctica is so significant
a mountain there has been
named after him - Ainley's Peak.
He believes that cities
like his will soon have some serious
environmental issues to deal with.
I think we're going to
see some major problems.
We are too late by 20 years
and it's really serious.
Anybody that lives on the coast
is going to be having problems.
It doesn't take much of a rise in sea level,
just an inch and that's huge
when you get a storm surge you know,
from a nor'easter or a hurricane
or that sort of thing.
You know foreclosures are
happening on beachfront.
That's probably a good thing
because those properties are history anyway.
And while today's Antarctic scientists
are suggesting we need to relocate
to higher ground,
the penguins here are already being forced
to do the same thing.
There are up to seven species of penguins
that might occur in the Antarctic.
Four of those are relatively common
and if we start from
the largest - the Emperor Penguin
it's the one that is least tolerant
to temperature changes.
It's the one that nests the furthest south,
the one that nests in the coldest climates.
Next would be the Adelie penguin.
They're very much dependant
on ice floes and the near-ice
conditions for hunting,
so they again would be very much affected
by rising temperature changes.
The Chinstrap penguin
is somewhere in between.
It is more adaptive.
It will move further north and further south
than some of the other ones.
But the one behind me, the Gentoo,
is probably the most adaptive.
It's the one that might be the super penguin
of the Antarctic eventually.
As well, warming waters
are responsible for a drastic decline
in the penguins' sole
food source, the krill.
Krill are small shrimp-like
marine crustaceans.
They're the primary food supply of penguins
and all other Antarctic animal life.
They travel in schools of millions and
are very sensitive to water temperature.
A rise in temperature of even half a degree
hinders their ability to reproduce,
seriously impacting the penguins here.
Compounding this problem is that more whales
are entering these waters now
that they have become warmer.
In one gulp,
these whales can consume a quantity of krill
that would otherwise feed 2,000 penguins.
If the krill move out of the area entirely,
these penguins will have to find
another food source
and most of them won't be able to.
When krill's available all of the species
of smaller penguins here
the Adelie, the Chinstrap and the Gentoo
will eat them almost exclusively.
It's only when the krill
is in diminishing numbers
that they would turn to other species.
Well, if there's no food,
there's no birds, pretty simple.
As the food resources change,
it's only the species that are able to adapt
that are going to survive.
The other species, such as the Adelie,
the Emperor, will have to either stay south
or move south into the colder waters
and try to catch the
krill that are still there.
Over the past 25 years,
the population of the Adelie penguins here
in the Antarctic Peninsula
has dropped by 50 per cent,
while the Chinstrap numbers
have fallen by as much as 65 per cent,
but the most noticeable relocation recently
has been among the Gentoos.
The biggest change that's occurred here
is the movement of the Gentoo.
They're moving further south.
They're moving south in greater numbers.
They're moving higher up onto the slopes.
When you have small numbers of them,
they will nest in near-shore areas.
As the population increases
in a preferred nesting locale,
they'll move upslope.
So we have the penguins behind me.
We have penguins on a
higher slope to the right,
and then sometimes we'll get penguins
even higher up on the slope behind.
So while it looks as
though the Gentoo is poised
to take over the warming
west coast of Antarctica,
the retreating penguin species
are moving to the colder
climates down the coast,
and individual penguins have begun
wandering off to certain death
a phenomenon only recently observed
in the past five years.
Viewed by many as "suicide marches",
Ione penguins have been observed
to leave their colony,
walk away from the sea,
and venture deep into the continent,
never to return.
Penguin scientist Dr. David Ainley
has been studying penguin
behavior for 40 years,
most of those years in
the field in Antarctica.
His theory is that
these so-called suicidal penguins
are actually pioneers, a
kind of "noble explorer"
who ventures out on his own
to find a new home for his colony.
We have these individual
penguins that purportedly
are committing suicide by walking away
from the sea,
into the interior of the Antarctic,
kind of like Scott did.
When these populations expand,
it's because of pioneers
that find new places.
They go off and disappear and nobody hears
about 'em anymore unless
they have good publicists.
This unusual behavior was first noted
when an iceberg measuring 97 nautical miles
came to rest at the shore of
a large penguin colony,
effectively blocking
access to their food supply.
So this big iceberg, B15A,
parked itself in the southern Ross Sea.
So there was a lot of disoriented penguins
during those five years that essentially
had this 97-mile-long fence
that went across the Ross Sea.
So during those five years,
there was an increase in the numbers
of these penguins
that were really beside themselves
about which way to go
and which would get them
to where they wanted to go.
Several more of these penguins
that were going the wrong way,
so to speak these would be the heroes
that penguins would write about.
However, without the warming temperatures
that placed giant icebergs in their path,
there would be no heroic penguins
looking for a new home for their tribe.
Suicide missions aside,
the relocation of penguin populations is
taking a significant toll on their numbers.
As well, global warming and the ozone hole
have combined to threaten penguin
populations across the continent
and may very well cause their extinction.
For many penguin species,
warming temperatures have reduced
the size of ice floes upon
which species such as the Emperor penguin
hatch their young.
Combined with the increased winds
resulting from the ozone hole,
entire colonies of baby chicks
are being blown off the
ice to certain death.
But as is being shown at Point Geologie,
that colony has decreased by
50 per cent since the mid-70s
and partially it is related to the fact
that the fast ice is too thin
and so it gets blown out repeatedly.
And many eggs and chicks are blown away
on the ice with parents sitting on them.
It's okay with the parents,
you know they're used to water
but this is happening
with greater frequency.
Also occurring with greater frequency
is an extended period of dependency
by young penguins on their parents for food.
Young Gentoos such as
this one have usually begun
to collect food for themselves by now.
Yet more and more of these penguins
have been observed to be
relying on their parents.
Penguins far beyond the age of nestling
are having trouble "leaving
the nest" as it were,
perhaps afraid to face
the relatively bleak prospects
of their diminishing food supplies.
Failed mating attempts, such as this one,
have been observed more and more
in the past five years,
suggesting the birds
are becoming more disoriented,
perhaps another result of their difficulty in
adapting to the rapidly changing environment.
Another cause for concern,
especially among the younger penguins,
is the increase in attacks
from a predatory bird
known as the skua.
Usually, these birds attack
only the eggs of penguins,
but as the number of eggs has been reduced,
the skua has now become
a predator of baby chicks.
And since these birds prefer a warmer
climate and a rocky shore to live on,
more of them are entering
the peninsula area,
providing the remaining penguin populations
something they are
not used to - a predator.
While the warmer climate in Antarctica
is impacting on the survival of
the once plentiful penguin populations...
...the increased temperatures
are also resulting
in the decline of Antarctica's
only indigenous land animal the common fly.
Okay, what we've been looking at here
are little, tiny terrestrial invertebrates
that are the main animal fauna
on the Antarctic Peninsula.
They're virtually the only fauna
you see in the Antarctic
and what I've been looking at
specifically here is this little fly.
There are only two real flies in Antarctica,
and this is one of them.
It's the largest land animal in Antarctica,
and if you're lucky,
it's about 4 or 5 mm long
and about half a milligram in weight
so it's a, a really rather, a small,
cute little insect basically.
It's a fly without any wings.
The Antarctic Peninsula,
it's one of the three fastest warming parts
of the planet at the moment.
And these little invertebrates
and in their distributions
are potentially sensitive to these changes.
So if it gets warmer, as it is doing,
they can carry out their lifecycle quicker.
What this means is they die faster.
The warmer habitat here can be deadly.
The barren rock now being exposed
by melting ice is very dry,
depriving the creatures of water.
It doesn't have very good
water-holding capacity.
If you warm it up, and particularly
if you have increased amounts of sunshine,
direct sunshine landing on it,
it actually dries out more quickly,
so you actually may end
up with a warmer habitat
but one in which there's no water available.
Now that combination of effects
is actually then negative
on these little invertebrates.
And while warming temperatures are creating
deadly environments for Antarctica's land animals,
the warmer waters are having the same effect
for Antarctica's marine life.
Laura Grange is a marine biologist
working with the British Antarctic Survey
at their Rothera Research Station.
She tells us that an anticipated increase of
only two degrees in water temperature
will cause starfish and other marine life
to stop reproducing.
This is a starfish.
All these animals were
actually collected from
the shallow water
around the Rothera Research Station.
And they're all
collected by scuba-diving.
And it's also incredibly colourful
which is easily shown on this starfish.
We collect them directly from outside
and then we bring them in to carry out
various experiments on them.
I'm actually looking at their
breeding success from year to year.
They're also very important
because they're very sensitive
to temperature change.
Many scientists have actually predicted
that there will possibly
be a global temperature change
of two degrees within the next 100 years.
Well, these animals, in particular,
are very susceptible
or very sensitive to changes in temperature.
And therefore, because
of this predicted change,
both regionally but also globally,
it's very unlikely that
they won't be affected.
And in my case, for my work,
if they're not able to breed,
obviously they won't be able to survive.
And while global warming in Antarctica
seems to be a significant
threat to its fauna,
the flora seems to be
experiencing a genesis...
in what is commonly referred to
as the world's largest desert.
Daniella Rubling,
a sub-Antarctic botany researcher,
describes a new vegetation here
that she has not seen before.
It looks to be a combination
of moss-type plant...
as well as potentially some algae as well
but basically chlorophyllic species
that do use photosynthesis in order
to produce their food,
and to produce, to grow and to survive.
And it's very interesting to see it
in this type of area
because most of the time,
these islands are covered by snow.
They're covered by ice.
They don't see light.
And so to see greenery in an area that
has always been considered to be a desert,
it's very interesting and exciting
to see new life growing in places
where it has never been previously.
But perhaps the biggest mystery
of the "greening of Antarctica" is
where this new life came from.
Was it always here,
lying dormant in the rocky soil?
Or was it brought here by birds or winds?
Well I mean the seeds
or spores of these plants
may have been carried in by winds.
This may have been occurring
for hundreds of years
but because it's been covered in snow,
these plants have not been able
to establish themselves.
Whereas now, once you get exposure of rock,
you get soil deposition,
allowing these seeds or spores
to establish themselves
and grow in areas where they would
never have been before.
And does it stop there?
Is this possibly the beginning of
an entirely new eco-system?
This type of vegetation,
it can serve as both food supply for animals
that need to convert the plant material
into energy for themselves,
but also in and amongst you can see
that it could also provide shelter
or protection for animals
as well or for smaller invertebrates.
I mean the possibilities are,
are for more life to grow
and for more species to find their way here
and establish themselves as well.
But in order to predict how severe climate
change will affect this continent and,
by extension, the rest of the world,
a series of measurements
and data recordings is done
on a daily basis by devoted
scientists the world over
in what is often a
thankless, yet essential, job.
Recording temperatures from the past,
and projecting a tendency to continue,
is not a very reliable method of forecast
given the wildly changing atmospheric
and meteorological conditions here.
What was different last night, I don't know.
Okay, down we go!
Okay!
One of the more accurate methods involves
ice core sampling.
Where I'm sitting, the
ice is 950 meters thick.
If I drill through all the way
down to the bedrock,
I would have recovered ice spanning
the last 40,000 years.
This is quite an important period.
Forty thousand years ago,
the earth was in an ice age.
Today we're in a warm period.
By analyzing the record of the climate
from the bottom of the core to the top,
I will be able to see how we moved
from a cold period into a warm period
and this helps us understand
how we expect the climate to change
over the next hundred years.
That's a nice piece of
core about 2 meters long,
and round about here is 500 meters
depth from the surface,
and that's ice that fell as snow about
5,800 years ago.
Many things in the atmosphere change
from summer to winter
and we can see this in the ice cores
when we analyze them.
So when we plot out our results,
we see a series of waves going down the ice
and these are summer,
winter, summer, winter.
So we can simply count the layers
just like counting tree rings.
Once we get the 2-meter ice core
back to the surface
and we've packed it into insulated boxes,
and then it's shipped by small aircraft back
to one of our coastal stations, Hailey Bay
where it's loaded onto one of our ships,
and is shipped back to Europe
in a refrigerated container.
Once it gets back to Europe,
we cut it into much smaller pieces
and send each of these pieces out to
different laboratories for different analyses
to try to understand all the things that are
happening in the climate and the atmosphere.
This study has shown
that the increase of greenhouse gases
found in the air bubbles
is directly proportionate to the increase
in size of the ozone hole.
And what if the hole gets bigger?
How many lives might be at risk
as a result of the cancer-inducing UV rays?
One of the most important areas
of study in Antarctica
today is the ozone hole.
As its regularly increasing size
approaches human habitats,
such as New Zealand,
the related increase in cases of skin cancer
has made ozone study a high priority.
At Vernadsky Station,
ozone scientist Igor Gvodzdovskyy
keeps a daily vigil of recording ozone
readings every three hours.
To do this,
he uses a Dobson Ozone Spectrophotometer,
an instrument used by the British
Antarctic Survey to study the Ozone Hole.
The hole was discovered in 1985
by Dr. Jonathan Shanklin,
using this very device.
Well this sort of white box
that we've got in front of us
is the Dobson Ozone Spectrophotometer.
And as you might guess from the fact
that it's got ozone in its name,
it's for measuring ozone
in the atmosphere above us.
And we can see on the top of the instrument
this black tube with a prism at the top,
and that allows us to direct a beam
of sunlight into the instrument.
Now this sunlight has come through
the earth's atmosphere,
through the ozone layer,
and it's slightly changed that beam,
particularly in the ultraviolet part
of the spectrum.
And what we do inside the instrument
is select out those wavelengths,
or parts of the ultraviolet spectrum,
that have been affected by the ozone.
And by looking at the ratio of intensity
of two wavelengths,
we can look at how much
ozone was in the path
from the instrument to the sun.
And the observer would make some adjustments
on the levers
and the dial to either
select the wavelength,
or to find out what the absorption was.
So it's essentially a very simple design,
designed by an Oxford professor
of physics in the 1920s,
and it's still the world standard
for measuring ozone from the ground.
Measurements recorded
here on Galindez Island
detail the amount of
ozone in the atmosphere.
Recent measurements have ranged
from 270 to 300 Dobsons
and this is good news!
A measurement of 260 or less
is dangerous for people and animals.
This allows all wavelengths
of ultra-violet rays through,
burning unprotected skin in five minutes
and blinding Antarctica's land animals.
This Weddell Seal, for example,
has been blinded by UV rays
and this is becoming an increasing problem.
There seems to be evidence
that the changes in the ozone hole
are having an effect on climate
change here as well.
The changes in the ozone hole
certainly have been driving some of the
changes that we've seen in surface climate.
I think that's now pretty well established
that one of the big changes in
Antarctic climate over the last 30 years
or so has been that the westerly winds
that blow around the continent
have speeded up by maybe 20%.
We now think that a large part of that
is due to the reduction of ozone
in the stratosphere.
Since its discovery in 1985
by Dr. Jonathan Shanklin,
the hole has been getting bigger every week.
Now that it has reached an area
in excess of 25 million square kilometers
the size of North America,
it has, for the very first
time, stopped growing.
This year's ozone hole has actually
been quite unusual.
Quite often, it's not a circular thing.
It can be quite elliptical
and sometimes when it's elliptical
it sweeps northwards
over the tip of South America
or the Falkland Islands and South Georgia.
And that can usually
happen once every few weeks.
This year, it's only happened once.
The hole has remained very,
very circular and consequently, very stable.
The reason for this, many scientists believe
has been the Montreal Protocol
an urgently created global initiative
to ban the use of gases
that destroy ozone, such as
chlorofluorocarbons, or CFCs.
The treaty was signed on September 16, 1987
by almost all the nations of the world
and the results have made a difference.
Timor-Leste, San Marino and Andorra
are the three that haven't signed up.
Everybody else has signed up
to the basic protocol and it's working!
It's really quite amazing.
The amount of these ozone-destroying substances
in the atmosphere is clearly dropping.
It will take a few years before
what we see at the surface filters through
to the high atmosphere above Antarctica.
But nevertheless I think even in Antarctica
we're starting to see the amount of
ozone-destroying substances go down.
It's a slow process
because they're very stable
and it's probably going to be
another decade before
we can be certain that things
are actually improving,
but we can confidently say
that we're on the right track.
And while Dr. Shanklin believes
in the reduction of our use of CFCs
is the reason why the ozone hole
has stopped growing,
his counterpart in Antarctica,
Igor Gvozdovskyy, has recorded measurements
that suggest the hole is actually shrinking.
The correlation between
the world-wide CFC ban
and the reversal of the ozone hole's size
will hopefully encourage
further collective efforts
to help reduce the damage to ourselves
and our planet.
The Montreal Protocol together with
the signing of the Antarctica Treaty,
have proven to be two unprecedented
international co-operatives
that ended up protecting
the Earth's environment.
No territorial disputes,
no military presence,
no natural resource mining,
no commercial interests,
no residential land claims.
Antarctica is unique in so many ways.
It is the driest, windiest,
highest and coldest continent on Earth.
We can now add to that list
that it is the only place on Earth
where the world has come together in peace
to effect environmental change
for the betterment of all life.
No matter how insurmountable
the environmental crisis may seem to be,
we have proven that with
an internationally united effort,
we can answer the call to any challenge,
even The Antarctica Challenge.
There's no denying the effects
of global warming on our planet.
Countries around the world...
have been experiencing record
temperatures for years,
but none more pronounced than
right here in Antarctica.
I'm standing in beautiful Neko Harbour here
where the temperatures have increased hugely
in the past five years.
Five years ago the idea
of swimming in Antarctica
was not only ludicrous
but actually impossible
because most of the
shoreline water was frozen.
However, as you can see over my shoulder,
the water is not frozen.
And the temperature today is
a balmy eight degrees Celsius
and to me, that sounds like
a good temperature for a swim.
So here I go.
Okay, we'll see you in a bit!
So there you have it:
swimming, Antarctica's newest sport!