Simulation study of the aerosol information content in OMI spectral reflectance measurements

Simulation study of the aerosol information content in OMI spectral reflectance measurements

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The Ozone Monitoring Instrument (OMI) Diversified Ownership Structure and Dividend Pay‑outs of Publicly Traded Companies is an imaging UV-VIS solar backscatter spectrometer and is designed and used primarily to retrieve trace gases like O₃ and NO₂ from the measured Earth reflectance spectrum in the UV-visible (270–500 nm).However, also aerosols are an important science target of OMI.The multi-wavelength algorithm is used to retrieve aerosol parameters from OMI spectral reflectance measurements in up to 20 wavelength bands.A Principal Component Analysis (PCA) is performed to quantify the information content of OMI reflectance measurements on aerosols and to assess the capability of the multi-wavelength algorithm to discern various aerosol types.

This analysis is applied to synthetic reflectance measurements for desert dust, biomass burning aerosols, and weakly absorbing anthropogenic aerosol with a variety of aerosol optical thicknesses, aerosol layer altitudes, refractive indices and size distributions.The range Aplicación de métodos geoestadísticos en el modelado espacio-temporal de los niveles de agua subterránea del acuífero Valle de Sébaco, Nicaragua. of aerosol parameters considered covers the natural variability of tropospheric aerosols.This theoretical analysis is performed for a large number of scenarios with various geometries and surface albedo spectra for ocean, soil and vegetation.When the surface albedo spectrum is accurately known and clouds are absent, OMI reflectance measurements have 2 to 4 degrees of freedom that can be attributed to aerosol parameters.

This information content depends on the observation geometry and the surface albedo spectrum.An additional wavelength band is evaluated, that comprises the O₂-O₂ absorption band at a wavelength of 477 nm.It is found that this wavelength band adds significantly more information than any other individual band.