They call me the tornado chaser.
When the wind is up
and conditions are right,
I get in my car and follow violent storms.
“Crazy,” you say? Perhaps, but really
I chase these sky beasts
to learn about them.
I want to share with you what I know.
Tornadoes are rapidly rotating columns
of air that form inside storms
that connect with the ground via
a funnel of cloud.
When that happens,
they tear across the Earth,
posing a huge threat to life and property.
Because of this, there's a great deal
of research into these phenomena,
but the truth is, there's still a lot
we don't know about how tornadoes form.
The conditions that may
give rise to one tornado
won't necessarily cause another.
But we have learned a lot since
people first started recording tornadoes,
like how to recognize the signs
when one is brewing in the sky.
Are you coming along for the ride?
Tornadoes begin with a thunderstorm
but not just any thunderstorm.
These are especially powerful,
towering thunderstorms called supercells.
Reaching up to over 50,000 feet,
they bring high force winds,
giant hailstones, sometimes flooding,
and great flashes of lightning, too.
These are the kinds of storms
that breed tornadoes,
but only if there are also very
specific conditions in place,
clues that we can measure and look out for
when we're trying to forecast a storm.
Rising air is the first ingredient needed
for a tornado to develop.
Any storm is formed
when condensation occurs,
the byproducts of the clouds.
Condensation releases heat,
and heat becomes the energy that drives
huge upward drafts of air.
The more condensation
and the bigger the storm clouds grow,
the more powerful those updrafts become.
In supercells, this rising airmass
is particularly strong.
As the air climbs, it can change direction
and start to move more quickly.
Finally, at the storm's base,
if there is a lot of moisture,
a huge cloud base develops,
giving the tornado something
to feed off later,
if it gets that far.
When all these things are in place, a
vortex can develop enclosed by the storm,
and forming a wide, tall tube of spinning
air that then gets pulled upwards.
We call this a mesocyclone.
Outside, cool, dry, sinking air
starts to wrap around the back of
this mesocyclone,
forming what’s known
as a rear flank downdraft.
This unusual scenario creates
a stark temperature difference
between the air inside the mesocyclone,
and the air outside,
building up a level of instability
that allows a tornado to thrive.
Then, the mesocyclone's lower part
becomes tighter,
increasing the speed of the wind.
If, and that's a big if,
this funnel of air moves down
into that large, moist cloud base
at the bottom of the parent storm,
it sucks it in and turns it
into a rotating wall of cloud,
forming a link between the storm
that created it and the Earth.
The second that tube of
spinning cloud touches the ground,
it becomes a tornado.
Most are small and short-lived,
producing winds of 65-110 miles per hour,
but others can last for over an hour,
producing 200 mile per hour winds.
They are beautiful but terrifying,
especially if you or your town
is in its path.
In that case, no one,
not even tornado chasers like me,
enjoy watching thing unfold.
Just like everything, however,
tornadoes do come to an end.
When the temperature difference disappears
and conditions grow more stable,
or the moisture in the air dries up,
the once fierce parent storm
loses momentum
and draws its tornado back inside.
Even so, meteorologists and storm chasers
like me will remain on the lookout,
watching, always watching to see
if the storm releases its long rope again.