EGU2020-2603
https://doi.org/10.5194/egusphere-egu2020-2603
EGU General Assembly 2020
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

DACAPO-PESO: Remote Sensing and In-situ Observations in Sub-Antarctica (53°S,71°W) to Enhance the Understanding of Aerosol-Moisture-Cloud-Precipitation Interaction

Heike Kalesse1, Patric Seifert2, Martin Radenz2, Johannes Bühl2, Teresa Vogl1, Willi Schimmel1, Andreas Foth1, Audrey Teisseire2, Holger Baars2, Ronny Engelmann2, Boris Barja3, Jonas Witthuhn2, Frank Stratmann2, Albert Ansmann2, and Felix Zamorano3
Heike Kalesse et al.
  • 1University of Leipzig, Institute for Meteorology, Leipzig, Germany (heike.kalesse@uni-leipzig.de)
  • 2Leibniz Institute for Tropospheric Research (TROPOS), Leipzig, Germany
  • 3Atmospheric Research Laboratory LIA-UMAG, University of Magallanes, Punta Arenas, Chile

The southern midlatitudes and Sub-Antarctica are a key region for the Earth’s climate and a source for uncertainties in climate modelling. The low concentration of ice nucleating particles is considered to diminish the efficiency of heterogeneous ice formation. Climate models underestimate the supercooled liquid water content which causes shortwave radiation biases.

The project DACAPO-PESO (Dynamics, Aerosol, Cloud And Precipitation Observations in the Pristine Environment of the Southern Ocean) which is being conducted in Punta Arenas (53°S, 71°W), Chile from Nov 2018 – March 2020 is endorsed by YOPP (Year of Polar Prediction) and fills an observational gap in the Southern Oceans, for which to date hardly any combined observations of lidar, cloud radar and microwave radiometer are available.

During that field experiment, LACROS (Leipzig Aerosol and Cloud Remote Observations System) of Leibniz Institute for Tropospheric Research (TROPOS) which comprises numerous remote sensing instruments, including multi-wavelength polarization Raman lidar, cloud radars, microwave radiometer, radiation sensors among others is deployed. From March 2019 onwards, additionally in-situ observations of the INP and cloud condensation nuclei properties were collected by TROPOS on a 623m high mountain 10 km upwind of the LACROS site. Meso-scale numerical modeling will provide support for interpretation of the results.

The presentation will be dedicated to

How to cite: Kalesse, H., Seifert, P., Radenz, M., Bühl, J., Vogl, T., Schimmel, W., Foth, A., Teisseire, A., Baars, H., Engelmann, R., Barja, B., Witthuhn, J., Stratmann, F., Ansmann, A., and Zamorano, F.: DACAPO-PESO: Remote Sensing and In-situ Observations in Sub-Antarctica (53°S,71°W) to Enhance the Understanding of Aerosol-Moisture-Cloud-Precipitation Interaction, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-2603, https://doi.org/10.5194/egusphere-egu2020-2603, 2020.

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