Abstract
The UV/Vis/near infrared spectrometer SCIAMACHY on board the European
ENVISAT satellite enables total column retrieval of atmospheric methane with high
sensitivity to the lower troposphere. The vertical column density of methane is converted
to column averaged mixing ratio by using carbon dioxide retrievals as proxy for the
probed atmospheric column. For this purpose, we apply concurrent total column
measurements of CO2 in combination with modeled column-averaged CO2 mixing ratios.
Possible systematic errors are discussed in detail while the precision error is 1.8% on
average. This paper focuses on methane retrievals from January 2003 through December
2004. The measurements with global coverage over continents are compared with
model results from the chemistry–transport model TM4. In the retrievals, the north-south
gradient as well as regions with enhanced methane levels can be clearly identified. The
highest abundances are found in the Red Basin of China, followed by northern South
America, the Gangetic plains of India and central parts of Africa. Especially the
abundances in northern South America and the Red Basin are generally higher than
modeled. Further, we present the seasonal variations within the investigated time period.
Peak values in Asia due to rice emissions are observed from August through October.
We expand earlier investigations that suggest underestimated emissions in the tropics. It is
shown that these underestimations show a seasonal behavior that peaks from August
through December. The global measurements may be used for inverse modeling and are
thus an important step towards better quantification of the methane budget.
Original language | Undefined/Unknown |
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Pages (from-to) | D07303/1-D07303/18 |
Number of pages | 18 |
Journal | Journal of Geophysical Research: Atmospheres |
Volume | 111 |
Publication status | Published - 2006 |