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UP: Umweltphysik
UP 15: Poster: Atmosph
äre und Klima
UP 15.2: Poster
Tuesday, March 14, 2006, 14:00–16:00, C
Retrieval of tropospheric NO2 by synergistic use of ENVISAT/SCIAMACHY and ground-based solar FTIR measurements at the Zugspitze — •Ralf Sussmann1, Wolfgang Stremme1, Johan P. Burrows2, Andreas Richter2, Wolfgang Seiler1, and Markus Rettinger1 — 1Forschungszentrum Karlsruhe, IMK-IFU, Garmisch-Partenkirchen — 2Universität Bremen, Institut für Umweltphysik
Columnar NO2 from FTIR measurements at the Zugspitze (47∘ N, 11∘ E, 2964 m asl.) was investigated synergistically with SCIAMACHY satellite data (Univ. Bremen algorithm UB1.5). A new concept to match FTIR data to the time of satellite overpass makes use of the NO2 daytime increasing rate retrieved from the FTIR data set. SCIAMACHY data within a 200-km selection radius were considered, and a pollution-clearing scheme was developed to select only pixels corresponding to clean background tropospheric conditions. Analysis of the averaging kernels gives proof that at mountain-site FTIR is a highly accurate measure for the stratospheric column, while SCIAMACHY shows significant tropospheric sensitivity. Based on this finding, we set up a combined a posteriori FTIR-SCIAMACHY retrieval for free tropospheric NO2. It yields an annual cycle with variations between 0.75-1.54E+15 cm−2 and an intermediate phase between that of the well known boundary layer and the stratospheric annual cycles. The outcome is a concept for an integrated global observing system for tropospheric NO2 that comprises DOAS NADIR satellite measurements and a set of latitudinally distributed mountain-site or clean-air FTIR stations.