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10 tahun:
NASA Aura dan perubahan iklim
A 10-year endeavor: NASA's Aura and climate change
Date:
July 18,
2014
Source:
NASA/Jet Propulsion Laboratory
Summary:
Celebrating its 10th anniversary this week, NASA's
Aura satellite and its four onboard instruments measure some of the climate
agents in the atmosphere, including greenhouse gases, clouds and dust
particles. These global datasets provide clues that help scientists understand
how Earth's climate has varied and how it will continue to change.
.....................
Nitrogen and oxygen make up nearly 99 percent of Earth's
atmosphere. The remaining one percent comprises gases that -- although present
in small concentrations -- can have a big impact on life on Earth. Trace gases
called greenhouse gases warm the surface, making it habitable for humans,
plants and animals. But these greenhouse gases, as well as clouds and tiny
particles called aerosols in the atmosphere, also play vital roles in Earth's
complex climate system.
Celebrating
its 10th anniversary this week, NASA's Aura satellite and its four onboard
instruments measure some of the climate agents in the atmosphere, including
greenhouse gases, clouds and dust particles. These global datasets provide
clues that help scientists understand how Earth's climate has varied and how it
will continue to change.
Measuring
Greenhouse Gases
When the sun
shines on Earth, some of the light reaches and warms the surface. The surface
then radiates this heat back outward, and greenhouse gases stop some of the
heat from escaping to space, keeping the surface warm. Greenhouse gases are
necessary to keep Earth at a habitable temperature, but since the Industrial
Revolution, greenhouse gases have increased substantially, causing an increase
in temperature. Aura provides measurements of greenhouse gases such as ozone
and water vapor, helping scientists understand the gases that influence
climate.
People,
plants and animals live in the lowest layer of the atmosphere, called the
troposphere. In this layer, the temperature decreases with altitude, as
mountain climbers experience. The temperature starts to increase again at the
tropopause, about 8 miles (12.9 kilometers) above the surface at temperate
latitudes, like those of the United States and Europe. Closer to the equator,
the tropopause is about 11 miles (17.7 kilometers) from the surface.
In the
middle and upper troposphere, ozone acts as a greenhouse gas, trapping heat in
Earth's atmosphere. Tropospheric ozone is one of the most important
human-influenced greenhouse gases.
Aura's
Tropospheric Emission Spectrometer (TES) instrument, built and managed by
NASA's Jet Propulsion Laboratory, Pasadena, California, delivers global maps
showing annual averages of the heat absorbed by ozone, in particular in the mid
troposphere. Using these maps and computer models, researchers learned that
ozone trapped different amounts of heat in Earth's atmosphere depending on its
geographic location. For instance, ozone appeared to be a more effective
greenhouse gas over hotter regions like the tropics and cloud-free regions like
the Middle East.
"If you
want to understand climate change, you need to monitor the greenhouse gases and
how they change over time," said Bryan Duncan, an atmospheric scientist at
NASA's Goddard Space Flight Center in Greenbelt, Maryland.
Along with
ozone, Aura measures other important greenhouse gases such as methane, carbon
dioxide and water vapor.
Improving
Climate Models
In addition
to greenhouse gases, Aura measures several other constituents relevant to
climate -- smoke, dust and clouds including the ice particles within the clouds
-- that are important for testing and improving climate models.
"If you
don't have any data, then you don't know if the models are right or not,"
said Anne Douglass, Aura project scientist at Goddard. "The models can
only be as good as your knowledge."
The way
clouds affect Earth's climate depends on their altitude and latitude. Two of
Aura's instruments have provided information about tropical clouds. Like
greenhouse gases, high, thin clouds in the tropics absorb some of Earth's outgoing
heat and warm the surface. Aura's High Resolution Dynamics Limb Sounder
(HIRDLS) instrument provided global maps showing cirrus clouds in the upper
altitudes in the tropics. Researchers have used these data along with data
records from previous satellites going back to 1985 to show that the tropical
cirrus cloud distribution has been steady, giving scientists information about
the interplay among water vapor, ice and the life cycle of these clouds.
Aura's
Microwave Limb Sounder (MLS) instrument, also built and managed by JPL, made
the first global measurements of cloud ice content in the upper troposphere,
providing new data input for climate models. MLS showed cloud ice is often
present over warm oceans. Along with satellite rainfall data, MLS shows that
dirty, polluted clouds rain less than clean clouds. The novel relationships
obtained from HIRDLS and MLS connect ocean temperatures with clouds and ice and
quantify effects of pollution on tropical rainfall -- which are important
assessments for climate models.
Aerosols
influence climate, but their influence is challenging to decipher because they
play several different roles. Aerosols reflect radiation from the sun back into
space; this tends to cool Earth's surface. Aerosols such as dust and smoke also
absorb radiation and heat the atmosphere where they are concentrated. Aura's
Ozone Monitoring Instrument (OMI) is especially good at observing these
absorbing aerosols above clouds and bright deserts. Both OMI and TES also
provide data on gases, such as sulfur dioxide and ammonia, which are primary
ingredients for other types of less-absorbing aerosols. Aura data, in
conjunction with other satellite data, are helping scientists understand how
aerosols interact with incoming sunlight in Earth's atmosphere; this, in turn,
helps scientists improve long-term predictions in climate models.
Learning
from Long Data Sets
Researchers
investigated how natural phenomena such as El Niño affect tropospheric ozone
concentrations -- a study made possible by Aura's extensive data set.
El Niño is
an irregularly occurring phenomenon associated with warm ocean currents near
the Pacific coast of South America that changes the pattern of tropical
rainfall. The occasional appearance of areas of warmer temperatures in the Pacific
Ocean shifts the stormiest area from the west to the east; the region of upward
motion -- a hallmark of low ozone concentrations over the ocean -- moves along
with it.
Without a
decade-long data record, researchers would not be able to conduct such a study.
Using the extensive data set, researchers are able to separate the response of
ozone concentrations to the changes in human activity, such as biomass burning,
from its response to natural forcing such as El Niño.
"Studies
like these that investigate how the composition of the troposphere responds to
a natural variation are important for understanding how the Earth system will
respond to other forcing, potentially including changes in climate," said
Douglass. "The Earth system is complex, and Aura's breadth and the length
of the composition data record help us to understand this important part of the
system."
For more
information on Aura, visit: http://aura.gsfc.nasa.gov/
For more on
TES, visit: http://tes.jpl.nasa.gov/
For more on
MLS, visit: http://mls.jpl.nasa.gov/index-eos-mls.php
NASA
monitors Earth's vital signs from land, air and space with a fleet of
satellites and ambitious airborne and ground-based observation campaigns. NASA
develops new ways to observe and study Earth's interconnected natural systems with
long-term data records and computer analysis tools to better see how our planet
is changing. The agency shares this unique knowledge with the global community
and works with institutions in the United States and around the world that
contribute to understanding and protecting our home planet.
For more
information about NASA's Earth science activities in 2014, visit: http://www.nasa.gov/earthrightnow
Story
Source:
The above
story is based on materials provided by NASA/Jet Propulsion Laboratory. Note: Materials may be edited
for content and length.