Homogenization of the Observatoire de Haute Provence electrochemical concentration cell (ECC) ozonesonde data record: comparison with lidar and satellite observations

Homogenization of the Observatoire de Haute Provence electrochemical concentration cell (ECC) ozonesonde data record: comparison with lidar and satellite observations

The Observatoire de Haute Provence (OHP) weekly Electrochemical Concentration Cell (ECC) ozonesonde data have been homogenized for the period 1991-2021 according to the recommendations of the Ozonesonde Data Quality Assessment (O3S-DQA) panel. The assessment of the ECC homogenization benefit has bee...

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Bibliographic Details
Published in:Atmospheric measurement techniques Vol. 15; no. 10; pp. 3105 - 3120
Main Authors: Ancellet, Gérard, Godin-Beekmann, Sophie, Smit, Herman GJ, Stauffer, Ryan M, Malderen, Roeland Van, Bodichon, Renaud, Pazmiño, Andrea
Format: Journal Article
Language:English
Published: Goddard Space Flight Center Copernicus Publications 18-05-2022
Copernicus GmbH
European Geosciences Union
Subjects:
Altitude
Bias
Datasets
Earth Resources And Remote Sensing
Electrochemistry
Emission measurements
Environment Pollution
Evaporation
Freezing
Homogenization
Humidity
Instruments
Laboratories
Lidar
Lidar measurements
Measuring instruments
Ocean, Atmosphere
Optical radar
Ozone
Pollution monitoring
Pressure dependence
Quality assessment
Quality control
Remote sensing
Satellite observation
Satellite-borne instruments
Satellites
Sciences of the Universe
Sondes
Stratosphere
Total organic carbon
Troposphere
Vertical profiles
Weekly
Ozone Trends
Ozonesondes
Data Reprocessing
OHP
Sonde
Troposphere
Electrochemical concentration cell
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Summary:The Observatoire de Haute Provence (OHP) weekly Electrochemical Concentration Cell (ECC) ozonesonde data have been homogenized for the period 1991-2021 according to the recommendations of the Ozonesonde Data Quality Assessment (O3S-DQA) panel. The assessment of the ECC homogenization benefit has been carried out using comparisons with other ozone measuring ground based instruments at the same station (lidar, surface measurements) and with collocated satellite observations of the O3vertical profile by Microwave Limb Sounder (MLS). The major differences between uncorrected and5homogenized ECC data are related to a change of ozonesonde type in 1997, removal of the pressure dependency of the ECC background current and correction of internal pump temperature. The original 3-4 ppbv positive bias between ECC and Lidar in the troposphere is corrected with the homogenization. The ECC 30-years trends of the seasonally adjusted ozone concentrations are also significantly improved in both the troposphere and the stratosphere after the ECC homogenization, as shown by the ECC/lidar or ECC/surface ozone trend comparisons. A -0.19% per year negative trend of the normalization factor (NT)10calculated using independent measurements of the total ozone column (TOC) at OHP disappears after homogenization of the ECC data. There is however a remaining -3.7% negative bias in the TOC which is likely related to an underestimate of the ECC concentrations in the stratosphere above 50 hPa. Differences between TOC measured by homogenized ECC and satellite observations show a smaller bias of -1%. Comparisons between homogenized ECC and OHP stratospheric lidar and MLS observations below 26 km are slightly negative (-2%) or positive (+2%), respectively. Both the comparisons with lidar and15satellite observations suggest that homogenization increases the negative bias of the ECC to values lower than -6% above 28km. The reason for this bias is still unclear, but a possible explanation might be related to freezing or evaporation of the sonde solution in the stratosphere.
Bibliography:GSFC
Goddard Space Flight Center
ISSN:1867-1381
1867-8548
1867-8548
DOI:10.5194/amt-15-3105-2022