acquired August 6, 2013
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acquired August 6, 2013
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In the past few years, NASA scientist Tom Hanisco has been hunting for formaldehyde, a carcinogenic
air pollutant common in smoke. A byproduct of combustion, formaldehyde
affects human health and also has significant—but little
understood—effects on Earth’s atmosphere. For instance, chemical
reactions that break down formaldehyde in the lower atmosphere can
produce small airborne particles that have an outsized influence on Earth’s climate. Other reactions involving formaldehyde affect the production of ozone.
Hanisco’s tool for tracking the short-lived and elusive pollutant is a
lightweight aircraft sensor he developed at NASA’s Goddard Space Flight
Center. Called the In-Situ Airborne Formaldehyde (ISAF), the sensor uses lasers to measure the abundance of formaldehyde in the atmosphere.
ISAF is one of 28 sensors mounted on NASA’s DC-8, a research airplane used in the NASA-led SEAC4RS
field campaign, which stands for Studies of Emissions, Atmospheric
Composition, Clouds and Climate Coupling by Regional Surveys. The
campaign began in August and will continue through the end of September.
The broad goal is to investigate how the combination of summer storms
and pollution from wildfires, cities, and other sources affect air
quality and the workings of Earth’s climate.
During the first science flight on August 6, 2013, scientists targeted smoke plumes emanating from a cluster of large wildfires in northern California and southern Oregon, including the Big Windy Complex.
When the DC-8 reached the smoke, pilots performed a series of maneuvers
that brought the aircraft directly through the smoke numerous times at
various altitudes.
As shown in the map above, ISAF detected sharp elevations in
formaldehyde, which increased from background levels of 1 to 5 parts per
billion in clear air to about 80 parts per billion within the plume.
Especially high formaldehyde levels were detected near the Big Windy
Complex and off the coast of California, over a deck of low-lying
stratus clouds. Where pilots flew overlapping flight paths at different
altitudes, only the highest values are shown above.
Hanisco is paying particular attention to the altitudes where
formaldehyde shows up in the ISAF data. In some circumstances,
formaldehyde produced near the surface can rise fairly high in the
atmosphere, where it has the most potent impact on climate. However,
atmospheric models struggle to simulate how this vertical transport
works. Missions like SEAC4RS should help clarify this and improve the models.
During the August 6 flight, ISAF found elevated formaldehyde
concentrations between 5,000 and 10,000 feet (1,500 meters to 3,000
meters), not especially high for wildfire emissions. Hanisco notes that
strong updrafts from thunderstorms or from pyrocumulus clouds can easily loft pollutants like formaldehyde to three times that height.
“We would love to sample the outflow from a thunderstorm or a pyrocumulus event during a SEAC4RS
flight,” said Hanisco. “But it’s most important that we sample a wide
variety of events. We’re going to compare the chemical reactions that
happen within new smoke plumes, old plumes, wet plumes, dry plumes, calm
plumes, and turbulent plumes.”
SEAC4RS, the most complex NASA airborne science campaign
of the year, will be conducted from Houston’s Ellington Field, which is
operated by the agency’s Johnson Space Center. Aircraft and sensors will
probe the atmosphere from top to bottom at a time of year when weather
systems are sufficiently strong and regional air pollution and natural
emissions are prolific enough to pump gases and particles high into the
atmosphere. NASA’s DC-8 and ER-2 aircraft will both participate.
Further Reading
- NASA Earth Science Project Office (2013) SEAC4RS Accessed August 22, 2013.
- NASA (2013) SEAC4RS Accessed August 22, 2013.
NASA Earth Observatory image by Robert Simmon, using data from the In-Situ Airborne Formaldehyde Instrument (ISAF) provided by Thomas Hanisco. Caption by Adam Voiland.
- Instrument:
- Aqua - MODIS
NASA: Flying through Formaldehyde - Hunting for formaldehyde (carcinogenic) - 08.30.13
Ricardo M Marcenaro - Facebook
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solitary dog sculptor:
http://byricardomarcenaro.blogspot.com
Solitary Dog Sculptor I:
http://byricardomarcenaroi.blogspot.com
Para:
comunicarse conmigo,
enviar materiales para publicar,
propuestas:
marcenaroescultor@gmail.com
For:
contact me,
submit materials for publication,
proposals:
marcenaroescultor@gmail.com
My blogs are an open house to all cultures, religions and countries. Be a follower if you like it, with this action you are building a new culture of tolerance, open mind and heart for peace, love and human respect.
Thanks :)
Mis blogs son una casa abierta a todas las culturas, religiones y países. Se un seguidor si quieres, con esta acción usted está construyendo una nueva cultura de la tolerancia, la mente y el corazón abiertos para la paz, el amor y el respeto humano.
Gracias :)
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