2020 Weather Patterns Push Antarctic Ozone Hole to 12th Largest on Record
Narration: Kathleen Gaeta
Transcript:
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On September 20, the Antarctic
ozone hole reached an extent of
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24 point 8 million square
kilometers. 2020 was the 12th
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largest hole on record in 2019.
The peak extent was the second
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smallest hole on record, but
this stark contrast doesn't mean
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the hole is worsening. That's
where weather patterns come in.
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Colder temperatures are one of
the factors that activate ozone
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depletion, which means that
weather patterns play a vital
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role in determining the ozone
holes extent each year. The
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Antarctic ozone hole peaks
during the southern hemisphere's
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late winter, when temperatures
are at a low and the sun's rays
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return. The 2020 ozone hole was
exceptionally large due to a
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stable and cold Antarctic
vortex, the stratospheric low
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pressure system that flows
clockwise in the atmosphere
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above Antarctica. It's there
that the colder conditions help
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support formation of polar
stratospheric clouds, whose
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cloud particles activate ozone
layer destroying forms of
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chlorine and bromine compounds.
These compounds stem from
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years of human production and
used to be found in things like
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aerosol sprays and refrigerants.
Unfortunately, it took years to
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realize how damaging they are to
the ozone.
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If chemically active forms of
chlorine and bromine are
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present, and there are both cold
enough temperatures and sun
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rays, a reaction occurs on the
surfaces of cloud particles that
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form in cold stratospheric
layers, leading ultimately to
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runaway reactions that destroy
ozone molecules. The Antarctic
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ozone hole was first discovered
by researchers at the British
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Antarctic Survey in 1985. Just a
few years later, in 1987, the
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international community signed
the Montreal Protocol on
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substances that deplete the
ozone layer. Countries as small
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as the Vatican and as far as
North Korea signed the deal,
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regulating the consumption and
production of ozone depleting
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compounds. Since 2000, human
made ozone depleting substances
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have slowly declined, but remain
high enough to produce
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significant ozone loss. These
compounds have lifetimes of more
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than 50 years, which is why
we're still seeing their effects
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on the environment today. The
ozone hole over Antarctica is
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expected to gradually become
less severe, as
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chlorofluorocarbons continue to
decline. And because of
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scientifically supported
international action. Scientists
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expect the Antarctic ozone to
recover back to 1980 levels
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around the year 2070.