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The Jet Stream
The Discovery
and Impact of the Jet Stream
by
Amanda Briney,
Contributing Writer
A jet stream is defined as a current of rapidly moving air that
is usually several thousand miles long and wide but is relatively thin.
They are found in the upper levels of Earth's atmosphere at the
tropopause - the boundary between the troposphere and stratosphere (see atmospheric
layers).
Jet streams are important because they contribute to
worldwide weather patterns
and as such, they help meteorologists forecast weather based on their position.
In addition, they are important to air travel because flying in
or out of them can reduce flight time and fuel consumption.
Discovery of the Jet Stream
The exact first discovery of the jet stream is debated today
because it took some years for jet stream research to become mainstream around
the world.
The jet stream was first discovered in the 1920s by Wasaburo
Ooishi, a Japanese meteorologist who
used weather balloons to track upper-level winds as they ascended into the
Earth's atmosphere near Mount Fuji.
His work significantly contributed to knowledge of these wind
patterns but was mostly confined to Japan.
In 1934, knowledge of the jet stream increased when Wiley Post,
an American pilot, attempted to fly solo around the world.
To complete this feat, he invented a pressurized suit that would
allow him to fly at high altitudes and during his practice runs, Post noticed
that his ground and airspeed measurements differed, indicating that he was
flying in a current of air.
Despite these discoveries, the term "jet stream" was
not officially coined until 1939 by a German meteorologist named H. Seilkopf
when he used it in a research paper.
From there, knowledge of the jet stream increased during World War II as
pilots noticed variations in winds when flying between Europe and North
America.
Description and Causes of the
Jet Stream
Thanks to further research conducted by pilots and
meteorologists, it is understood today that there are two main jet streams in
the northern hemisphere.
While jet streams do exist in the southern hemisphere, they are
strongest between latitudes of 30°N and 60°N.
The weaker subtropical jet stream is located closer to 30°N.
The location of these jet streams shift throughout the year however
and they are said to "follow the sun" since they move north with warm
weather and south with cold weather.
Jet streams are also stronger in the winter because there is a
large contrast between the colliding Arctic and tropical air masses.
In the summer, the temperature difference is less extreme
between the air masses and
the jet stream is weaker.
Jet streams typically cover long distances and can be thousands
of miles long. They can be discontinuous and often meander across the
atmosphere but they all flow east at a rapid speed.
The meanders in the jet stream flow slower than the rest of the
air and are called Rossby Waves. They move slower because they are caused by
the Coriolis Effect and turn west in respect to the flow of air they are
embedded in.
As a result, it slows the eastward movement of the air when
there is a significant amount of meandering in the flow.
Specifically, the jet stream is caused by the meeting of air
masses just under the tropopause where winds are the strongest.
When two air masses of different densities meet here, the
pressure created by the different densities causes winds to increase.
As these winds attempt to flow from the warm area in the nearby
stratosphere down into the cooler troposphere they are deflected by the Coriolis Effect and
flow along the boundaries of the original two air masses.
The results are the polar and subtropical jet streams that form
around the world.
Importance of the Jet Stream
In terms of commercial usage, the jet stream is important for
the airline industry.
Its use began in 1952 with a Pan Am flight from Tokyo, Japan to
Honolulu, Hawaii.
By flying well within the jet stream at 25,000 feet (7,600
meters), the flight time was reduced from 18 hours to 11.5 hours.
The reduced flight time and aid of the strong winds also allowed
for a reduction in fuel consumption. Since this flight, the airline industry
has consistently used the jet stream for its flights.
One of the most important impacts of the jet stream though is
the weather it brings.
Because it is a strong current of rapidly moving air, it has the
ability to push weather patterns around the world.
As a result, most weather systems do not just sit over an area,
but they are instead moved forward with the jet stream.
The position and strength of the jet stream then helps
meteorologists forecast future weather events.
In addition, various climatic factors can cause the jet stream
to shift and dramatically change an area's weather patterns.
For instance, during the last glaciation in
North America, the polar jet stream was deflected south because the Laurentide
Ice Sheet, which was 10,000 feet (3,048 meters) thick created its own weather
and deflected it south.
As a result, the normally dry Great Basin area of the United
States experienced a significant increase in precipitation and large pluvial lakes formed
over the area.
The world’s jet streams are also impacted by El Nino and La
Nina.
During El Nino for
example, precipitation usually increases in California because the polar jet
stream moves farther south and brings more storms with it.
Conversely, during La Nina events,
California dries out and precipitation moves into the Pacific
Northwest because the polar jet stream moves more north.
In addition, precipitation often increases in Europe because the
jet stream is stronger in the Northern Atlantic and is capable of pushing it
farther east.
Today, movement of the jet stream north has been detected
indicating possible changes in climate.
Whatever the position of the jet stream, though, it has a
significant impact on the world's weather patterns and severe weather events
like floods and droughts.
It is, therefore essential that meteorologists and other
scientists understand as much as possible about the jet stream and continue to
track its movement, to in turn monitor such weather around the world.
Amanda
Briney
Introduction
Professional
geographer, writer, and scholar
More
than 10 years of experience writing about a broad array of geographical topics
Holds
three university degrees and an advanced certificate in GIS
Experience
Amanda
Briney is a professional geographer and writer who contributed to ThoughtCo for
more than 10 years. She wrote countless articles on a wide range of topics such
as an introduction to the subject of geography, reviews of ecotourism,
discussions about environmental determinism, and the structure of Latin
American cities. The scope of her work also includes other formats such as
histories, guides, and fact sheets about many parts of the world. An ultimate
scholar, Amanda also contributes work to academic venues and the GIS Lounge, an
informational portal about geography.
Amanda
enjoys all aspects of geography and mapping but is especially interested in
examining natural landscapes through spatial analysis. As such, she holds a
certificate in Geographic Information Systems (GIS) from California State
University. She also attended Diablo Valley College where she studied air photo
interpretation and the formation of the Earth's landscapes.
Education
Amanda
Briney received a Master Arts (M.A.) in Geography from California State
University–East Bay. She also holds a Bachelor Arts (B.A.) in English and Geography
from California State University–Sacramento and a earned a Certificate of
Advanced Study in Geographic Information Systems (GIS) from California State
University.
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