Improvement of airborne retrievals of cloud droplet number concentration of trade wind cumulus using a synergetic approach

In situ measurements of cloud droplet number concentration N are limited by the sampled cloud volume. Satellite retrievals of N suffer from inherent uncertainties, spatial averaging, and retrieval problems arising from the commonly assumed strictly adiabatic vertical profiles of cloud properties. To...

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Bibliographic Details
Published in:Atmospheric Measurement Techniques
Main Authors: K. Wolf, A. Ehrlich, M. Jacob, S. Crewell, M. Wirth, M. Wendisch
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2019
Subjects:
Environmental engineering
TA170-171
Earthwork. Foundations
TA715-787
narval
Online Access:https://doi.org/10.5194/amt-12-1635-2019
https://doaj.org/article/86a838d45ff84ca2b4d10edb8de9af85
Description
Summary:In situ measurements of cloud droplet number concentration N are limited by the sampled cloud volume. Satellite retrievals of N suffer from inherent uncertainties, spatial averaging, and retrieval problems arising from the commonly assumed strictly adiabatic vertical profiles of cloud properties. To improve retrievals of N it is suggested in this paper to use a synergetic combination of passive and active airborne remote sensing measurement, to reduce the uncertainty of N retrievals, and to bridge the gap between in situ cloud sampling and global averaging. For this purpose, spectral solar radiation measurements above shallow trade wind cumulus were combined with passive microwave and active radar and lidar observations carried out during the second Next Generation Remote Sensing for Validation Studies (NARVAL-II) campaign with the High Altitude and Long Range Research Aircraft (HALO) in August 2016. The common technique to retrieve N is refined by including combined measurements and retrievals of cloud optical thickness τ , liquid water path (LWP), cloud droplet effective radius r eff , and cloud base and top altitude. Three approaches are tested and applied to synthetic measurements and two cloud scenarios observed during NARVAL-II . Using the new combined retrieval technique, errors in N due to the adiabatic assumption have been reduced significantly.

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