“An accurate atmospheric correction (AC) of Earth remote-s


“An accurate atmospheric correction (AC) of Earth remote-sensing data in the spectral region 450-800nm has to account for the ozone gas absorption Akt inhibitor influence. Usual operational AC codes employ a fixed ozone concentration corresponding to a climatologic average for a certain region and season, e.g. the mid-latitude summer atmosphere of the Moderate Resolution Atmospheric Transmission (MODTRAN) code. The reasons for a fixed ozone column are that ozone does not vary rapidly on a spatial and temporal scale, and additionally, the look-up table (LUT) size for AC is already big. This means that another degree of freedom for the ozone parameter would dramatically

increase the size of the LUT database and the time required for LUT interpolation. In order to account for this effect, we use already Screening Library order existing LUTs that were calculated for a certain ozone reference level, e.g. an ozone column of g=330 Dobson Units (DU) for MODTRAN’s mid-latitude summer atmosphere. Then the deviation of the top-of-atmosphere (TOA) radiance L(g) from the reference level L(g=330) is calculated as a function of solar

and view geometries. The calculation is performed for a set of 36 wavelengths in the ozone-sensitive spectrum (450-800nm) and five ozone columns. The last step computes the linear regression coefficients for each wavelength and geometry. The results are stored in a small table (11kB). It is shown that the ozone influence is accurately accounted for by multiplying the modelled radiance L(g=330) with a factor depending on g and wavelength yielding TOA radiance relative errors smaller than 0.5% for a wide range of ozone concentrations between 180 and 500DU. Selected examples of a sensitivity study of the ozone effect on the

retrieval of water constituents demonstrate the need to account for ozone in the AC step.”
“Sulfur compounds continue to be an important component of atmospheric deposition in East Asia. In order to better understand the dry deposition of PM2.5 sulfate, which is one of the most significant transboundary air pollutants CX-6258 in vitro in this region, we measured the dry deposition flux of PM2.5 sulfate above a hilly forest of the Field Museum Tamakyuryo (FM Tama) site in suburban Tokyo. We used the relaxed eddy accumulation (REA) method and took measurements during the summer, from 26 July to 2 August 2013, and the autumn, from 18 to 22 November 2013. We primarily focused on the evaluation of dry deposition above a forest on complex terrain. The total flux and 80% of the runs showed downward flux. The deposition velocities measured by the REA method during times when the wind direction was from a relatively uniform sloping surface over the forest were more reasonable than those measured when the wind direction was from a more complex surface.

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