One fundamental question has been whether the satellite data collection was reliable at low levels in the atmosphere. A recent paper indicates that this is a valid assumption.
As reported in phys.org, a team from "the Laboratoire Atmosphères, Milieux, Observations Spatiales (CNRS / UPMC / UVSQ) in collaboration with Belgian researchers and with support from CNES, using measurements by the IASI infrared sounder launched on board the MetOp satellite. Their groundbreaking results are published online on the website of the journal Geophysical Research Letters dated 17 January 2014."
See: http://phys.org/news/2014-01-infrared-satellite-peak-pollution-episodes.html
What they tracked, from December 2012 and into January 2013, was the trace gas pollution around Beijing and the North China plain, including the main air
pollutants: sulfur dioxide (SO2), nitrogen dioxide (NO2), particulate matter,
ozone (O3) and carbon monoxide (CO).
Credit: © Anne Boynard (LATMOS-IPSL, CNRS
/ UPMC / UVSQ)
What the researchers and the paper indicate is that the METOP/IASI sounder is "contrary
to expectations, the IASI sounder is able to detect plumes of pollutants even
near ground level as long as two conditions are met: weather conditions must be
stable, which leads to a build-up of pollutants at ground level, and there must
be a significant temperature difference between the ground and the air just
above the Earth's surface. In January 2013, IASI measured very high
concentrations of anthropogenic pollutants such as CO, SO2, ammonia (NH3)
and ammonium sulfate aerosols over Beijing and neighboring cities. The IASI
infrared sounder thus proves to be well suited to monitoring these pollutants
in such conditions."
Spatial distributions of CO and SO2 measured by the IASI/MetOp sounder over China on 12 January 2013. Credit: © Anne Boynard (LATMOS-IPSL, CNRS / UPMC / UVSQ)
As phys.org correctly concludes:
"This work represents a breakthrough in pollution monitoring from space. With the launch of IASI-B, two IASI sounders are now able to collect infrared data from space and twice as much information has therefore been available since the end of January 2013. It will henceforth be possible to monitor pollution episodes associated with stable weather conditions more accurately and regularly. The work opens up new prospects for improved assessment and management of air quality." The paper is:
First simultaneous space measurements of atmospheric pollutants in the boundary layer from IASI: a case study in the North China Plain, Anne Boynard, Cathy Clerbaux, Lieven Clarisse, Sarah Safieddine, Matthieu Pommier, Martin Van Damme, Sophie Bauduin, Charlotte Oudot, Juliette Hadji-Lazaro, Daniel Hurtmans and Pierre-Francois Coheur, Geophys. Res. Lett., Online 17 January, 2014. DOI: 10.1002/2013GL058333
What is substantiated by this paper is that METOP/IASI is useful for measuring pollutants in other geographic areas and globally and is able to measure of global methane release and measurements through the troposphere.
More on that later.
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