A cloud algorithm based on the O 2-O 2 477 nm absorption band featuring an advanced spectral fitting method and the use of surface geometry-dependent Lambertian-equivalent reflectivity

Vasilkov, Alexander; Yang, Eun-Su; Marchenko, Sergey; Qin, Wenhan; Lamsal, Lok; Joiner, Joanna; Krotkov, Nickolay; Haffner, David; Bhartia, Pawan K.; Spurr, Robert

We discuss a new cloud algorithm that retrieves an effective cloud pressure, also known as cloud optical centroid pressure (OCP), from oxygen dimer (inline-formulaO2-inline-formulaO2) absorption at 477 nm after determining an effective cloud fraction (ECF) at 466 nm, a wavelength not significantly affected by trace-gas absorption and rotational Raman scattering. The retrieved cloud products are intended for use as inputs to the operational nitrogen dioxide (inline-formulaNO2) retrieval algorithm for the Ozone Monitoring Instrument (OMI) flying on the Aura satellite. The cloud algorithm uses temperature-dependent inline-formulaO2-inline-formulaO2 cross sections and incorporates flexible spectral fitting techniques that account for specifics of the surface reflectivity. The fitting procedure derives inline-formulaO2-inline-formulaO2 slant column densities (SCDs) from radiances after inline-formulaO3, inline-formulaNO2, and inline-formulaH2O absorption features have been removed based on estimates of the amounts of these species from independent OMI algorithms. The cloud algorithm is based on the frequently used mixed Lambertian-equivalent reflectivity (MLER) concept. A geometry-dependent Lambertian-equivalent reflectivity (GLER), which is a proxy of surface bidirectional reflectance, is used for the ground reflectivity in our implementation of the MLER approach. The OCP is derived from a match of the measured inline-formulaO2-inline-formulaO2 SCD to that calculated with the MLER method. Temperature profiles needed for computation of vertical column densities are taken from the Global Modeling Initiative (GMI) model. We investigate the effect of using GLER instead of climatological LER on the retrieved ECF and OCP. For evaluation purposes, the retrieved ECFs and OCPs are compared with those from the operational OMI cloud product, which is also based on the same inline-formulaO2-inline-formulaO2 absorption band. Impacts of the application of the newly developed cloud algorithm to the OMI inline-formulaNO2 retrieval are discussed.

Zitieren

Zitierform:

Vasilkov, Alexander / Yang, Eun-Su / Marchenko, Sergey / et al: A cloud algorithm based on the O2-O2 477 nm absorption band featuring an advanced spectral fitting method and the use of surface geometry-dependent Lambertian-equivalent reflectivity. 2018. Copernicus Publications.

Zugriffsstatistik

Gesamt:
Volltextzugriffe:
Metadatenansicht:
12 Monate:
Volltextzugriffe:
Metadatenansicht:

Grafik öffnen

Rechte

Rechteinhaber: Alexander Vasilkov et al.

Nutzung und Vervielfältigung:

Export