Columnar NO₂ retrievals from solar FTIR measurements at the Zugspitze (47.42° N, 10.98° E, 2964 m a.s.l.), Germany were investigated synergistically with columnar NO₂ retrieved from SCIAMACHY data by the University of Bremen scientific algorithm UB1.5 for the time span July 2002?October 2004. 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 itself (+1.02E+14 cm^-2/h). This measured increasing rate shows no significant seasonal variation. SCIAMACHY data within a 200-km selection radius around Zugspitze were considered, and a pollution-clearing scheme was developed to select only pixels corresponding to clean background (free) tropospheric conditions, and exclude local pollution hot spots. The resulting (uncorrected) difference between SCIAMACHY and FTIR columns varies between 0.59?0.95E+15 cm^-2 with an average of 0.74E+15 cm^-2. A day-to-day scatter of daily means of 7?10% could be retrieved in mutual agreement from FTIR and SCIAMACHY. Both data sets are showing sufficient precisions to make this assessment. Analysis of the averaging kernels gives proof that at high-mountain-site FTIR is a perfect measure for the pure stratospheric column, while SCIAMACHY shows significant tropospheric sensitivity. Based on this finding, we set up a combined a posteriori FTIR-SCIAMACHY retrieval for tropospheric NO