Validation of Ozone Profile Retrievals Derived from the OMPS LP Version 2.5 Algorithm Against Correlative Satellite Measurements

• Published in: Atmospheric measurement techniques Vol. 11; no. 5; pp. 2837 - 2861
• Main Authors: Kramarova, Natalya A., Bhartia, Pawan K., Jaross, Glen, Moy, Leslie, Xu, Philippe, Chen, Zhong, DeLand, Matthew, Froidevaux, Lucien, Livesey, Nathaniel, Degenstein, Douglas, Bourassa, Adam, Walker, Kaley A., Sheese, Patrick
• Format: Journal Article
• Language: English
• Published: Goddard Space Flight Center Atmospheric Measurement Techniques 16.05.2018; Copernicus GmbH; Copernicus Publications
• Subjects: Aerosols; Air pollution; Algorithms; Annual variations; Atmospheric chemistry; Atmospheric research; Cloud height; Correlation analysis; Criminal investigation; Detection; Drift; Emission measurements; Fourier transform spectrometers; Fourier transforms; Geosciences (General); Imaging systems; Imaging techniques; Infrared imaging; Infrared imaging systems; Lower stratosphere; Mapping; Mesosphere; Meteorological satellites; Middle atmosphere; Organic chemistry; Oscillations; Ozone; Ozone distribution; Ozone profiles; Profiles; Quasi-biennial oscillation; Radiation (Physics); Radiation measurement; Retrieval; Satellite launching; Satellite observation; Satellites; Satellites (Spacecraft); Seasonal variation; Sensitivity analysis; Sensors; Solar radiation; Spatial distribution; Stability; Stability analysis; Stratosphere; Troposphere; Tropospheric ozone; Ultraviolet spectra; Upper stratosphere; Upper troposphere; Wavelengths; Limb Profiler; Ozone Mapping; Suomi Npp
• ISSN: 1867-1381; 1867-8548; 1867-8548
• DOI: 10.5194/amt-11-2837-2018

The Limb Profiler (LP) is a part of the Ozone Mapping and Profiler Suite launched on board of the Suomi NPP satellite in October 2011. The LP measures solar radiation scattered from the atmospheric limb in ultraviolet and visible spectral ranges between the surface and 80 km. These measurements of scattered solar radiances allow for the retrieval of ozone profiles from cloud tops up to 55 km. The LP started operational observations in April 2012. In this study we evaluate more than 5.5 years of ozone profile measurements from the OMPS LP processed with the new NASA GSFC version 2.5 retrieval algorithm. We provide a brief description of the key changes that had been implemented in this new algorithm, including a pointing correction, new cloud height detection, explicit aerosol correction and a reduction of the number of wavelengths used in the retrievals. The OMPS LP ozone retrievals have been compared with independent satellite profile measurements obtained from the Aura Microwave Limb Sounder (MLS), Atmospheric Chemistry Experiment Fourier Transform Spectrometer (ACE-FTS) and Odin Optical Spectrograph and InfraRed Imaging System (OSIRIS). We document observed biases and seasonal differences and evaluate the stability of the version 2.5 ozone record over 5.5 years. Our analysis indicates that the mean differences between LP and correlative measurements are well within required +/- 10% between 18 and 42 km. In the upper stratosphere and lower mesosphere (>43 km) LP tends to have a negative bias. We find larger biases in the lower stratosphere and upper troposphere, but LP ozone retrievals have significantly improved in version 2.5 compared to version 2 due to the implemented aerosol correction. In the northern high latitudes we observe larger biases between 20 and 32 km due to the remaining thermal sensitivity issue. Our analysis shows that LP ozone retrievals agree well with the correlative satellite observations in characterizing vertical, spatial and temporal ozone distribution associated with natural processes, like the seasonal cycle and quasi-biennial oscillations. We found a small positive drift approx. 0.5%/yr in the LP ozone record against MLS and OSIRIS that is more pronounced at altitudes above 35 km. This pattern in the relative drift is consistent with a possible 100m drift in the LP sensor pointing detected by one of our altitude-resolving methods.