Kurzfassungen der Meteorologentagung DACH
DACH2022-235, 2022, updated on 15 Aug 2024
https://doi.org/10.5194/dach2022-235
DACH2022
© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Calibration of water vapor Raman lidar measurements by use of radiosonde and microwave radiometer measurements

Dietrich Althausen1, Clara Seidel2, Ronny Engelmann1, Hannes Griesche1, Martin Radenz1, Julian Hofer1, Sandro Dahlke3, and Marion Maturilli3
Dietrich Althausen et al.
  • 1Leibniz Institute for Tropospheric Research, Leipzig, Germany (dietrich@tropos.de)
  • 2University Leipzig, Leipzig, Germany
  • 3Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Potsdam, Germany

Water vapor profiles with high vertical and temporal resolution were determined by use of the Raman lidar PollyXT within the MOSAiC campaign in the Arctic during the winter time 2019 – 2020. These measurements need a calibration. Usually, radiosonde data are utilized to calibrate the lidar data by the profile or the linear fit method, respectively. The radiosonde is drifting with the wind; thus, it is often measuring different atmospheric volumes compared to the lidar observations.

The period 5-7 February 2020 is used to demonstrate the results. The correlation coefficient of the linear fit between the radiosonde and the lidar data varies with the different atmospheric conditions. The calibration results from the profile method coincide with those of the linear fit method, but the selection of the appropriate calibration setup is not straightforward. The varying correlation of the calibration results is attributed to the partly too low data-variability of the water vapor mixing ratio in the respective heights.  Moreover, the drift of the radiosondes with the wind and hence measurements of atmospheric volumes with lateral distances will have decreased the correlation between the lidar and the radiosonde measurements.

During MOSAiC a microwave radiometer was collocated close to the lidar. This system was measuring the same atmospheric vertical column. Its product, the integrated water vapor, might be useful for the calibration of the lidar.

Hence, the contribution will analyze the error of the lidar retrieved water vapor mixing ratio that includes the calibration with the radiosonde data and the microwave radiometer product.

 

How to cite: Althausen, D., Seidel, C., Engelmann, R., Griesche, H., Radenz, M., Hofer, J., Dahlke, S., and Maturilli, M.: Calibration of water vapor Raman lidar measurements by use of radiosonde and microwave radiometer measurements, DACH2022, Leipzig, Deutschland, 21–25 Mar 2022, DACH2022-235, https://doi.org/10.5194/dach2022-235, 2022.