Ground-based validation of the MetopA and B GOME-2 OClO measurements

This paper reports on ground-based validation of the atmospheric OClO data record produced in the framework of EUMETSAT’s Satellite Application Facility on Atmospheric Chemistry Monitoring (AC SAF) using the GOME2-A and -B instruments over the 2007–2016 and 2013–2016 periods, respectively. OClO slan...

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Bibliographic Details
Main Authors: Pinardi, Gaia, Roozendael, Michel, Hendrick, François, Richter, Andreas, Valks, Pieter, Alwarda, Ramina, Bognar, Kristof, Frieß, Udo, Granville, José, Gu, Myojeong, Johnston, Paul, Prados-Roman, Cristina, Querel, Richard, Strong, Kimberly, Wagner, Thomas, Wittrock, Folkard, Yela Gonzalez, Margarita
Format: Text
Language:English
Published: 2021
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Online Access:https://doi.org/10.5194/amt-2021-356
https://amt.copernicus.org/preprints/amt-2021-356/
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Summary:This paper reports on ground-based validation of the atmospheric OClO data record produced in the framework of EUMETSAT’s Satellite Application Facility on Atmospheric Chemistry Monitoring (AC SAF) using the GOME2-A and -B instruments over the 2007–2016 and 2013–2016 periods, respectively. OClO slant column densities are compared to correlative measurements collected from 9 NDACC Zenith-Scattered-Light DOAS (ZSL-DOAS) instruments distributed in both the Arctic and Antarctic. Sensitivity tests are performed on the ground-based data to estimate the impact of the different OClO DOAS analysis settings. On this basis, we infer systematic uncertainties of about 25 % between the different ground-based data analysis, reaching total uncertainties ranging from about 26 % to 33 % for the different stations. Time-series at the different sites show good agreement between satellite and ground-based data, both for the inter-annual variability and the overall OClO seasonal behavior. GOME-2A results are found to be nosier than those of GOME-2B, especially after 2011, probably due to instrumental degradation effects. Daily linear regression analysis for OClO activated periods yield correlation coefficients of 0.8 for GOME-2A and 0.87 for GOME-2B, with slopes of 0.64 and 0.72, respectively. Biases are within 8 x 10 13 molec/cm 2 with some differences between GOME-2A and GOME-2B, depending on the station. Overall, considering all the stations, a median bias of about −2.2 x 10 13 molec/cm 2 is found for both GOME-2 instruments.