Abstract
<p>N<sub>2</sub>O is the third anthropogenic greenhouse gas, after CO<sub>2</sub> and CH<sub>4</sub>. N<sub>2</sub>O is about a 1000 times less abundant than CO<sub>2</sub>, but is a much stronger greenhouse gas (265 times stronger, for the same amount of gas). N<sub>2</sub>O has an atmospheric lifetime of about 120 years, and resides mostly in the troposphere and lower stratosphere. N<sub>2</sub>O is also the principal source of nitrogen in the stratosphere, participating in the ozone destruction.</p><p>Although N<sub>2</sub>O emissions are mostly natural as a part of biogeochemical cycles, a significant part of the emissions is anthropogenic, linked to agriculture, industry and transport. The N<sub>2</sub>O concentrations are continuously increasing since the industrial era. Because its greenhouse potential is very high, identifying and regulating the anthropogenic N<sub>2</sub>O emissions is crucial for climate change mitigation.</p><p>The Infrared Atmospheric Sounding Interferometer (IASI) is a nadir viewing satellite instrument, measuring the outgoing radiation in the Infrared range. It flies on board the Metop satellite series, on a polar sun-synchronous orbit, and has been providing data since 2006 with a succession of 3 instruments. The follow-up instrument, IASI-NG (new generation), is already in preparation and will not only ensure data continuity for at least an additional decade, but it will also provide improved performances.</p><p>In this work, we present N<sub>2</sub>O profiles with a limited resolution of maximum 2 degrees of freedom, and the corresponding integrated columns, retrieved from IASI measurements using a new retrieval strategy. We assess the quality of our data through comparisons with Network for the Detection of Atmospheric Composition Change (NDACC) and Total Carbon Column Observing Network (TCCON) measurements. We will discuss the main “trouble makers” in this retrieval, i.e. the non-retrieved parameters that have the highest impact on the resulting N<sub>2</sub>O data quality. Finally, we will discuss a preliminary trend assessment derived from the retrieved time series covering 13-years.</p>
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