Abstract
Abstract. The University of Valladolid (UVa, Spain) has managed a calibration center of the AErosol RObotic NETwork (AERONET) since 2006. The CÆLIS software tool, developed by UVa, was created to manage the data generated by AERONET photometers for calibration, quality control and data processing purposes. This paper exploits the potential of this tool in order to obtain products like the aerosol optical depth (AOD) and Ångström exponent (AE), which are of high interest for atmospheric and climate studies, as well as to enhance the quality control of the instruments and data managed by CÆLIS. The AOD and cloud screening algorithms implemented in CÆLIS, both based on AERONET version 3, are described in detail. The obtained products are compared with the AERONET database. In general, the differences in daytime AOD between CÆLIS and AERONET are far below the expected uncertainty of the instrument, ranging in mean differences between -1.3×10-4 at 870 nm and 6.2×10-4 at 380 nm. The standard deviations of the differences range from 2.8×10-4 at 675 nm to 8.1×10-4 at 340 nm. The AOD and AE at nighttime calculated by CÆLIS from Moon observations are also presented, showing good continuity between day and nighttime for different locations, aerosol loads and Moon phase angles. Regarding cloud screening, around 99.9 % of the observations classified as cloud-free by CÆLIS are also assumed cloud-free by AERONET; this percentage is similar for the cases considered cloud-contaminated by both databases. The obtained results point out the capability of CÆLIS as a processing system. The AOD algorithm provides the opportunity to use this tool with other instrument types and to retrieve other aerosol products in the future.
Highlights
Atmospheric aerosol particles contribute to climate forcing through their interactions with radiation and clouds, and its impact is still subject to large uncertainty (IPCC, 2014)
The calculation of aerosol optical depth in CÆLIS is intended to provide this parameter for a number of instruments, i.e., the photometers within the AErosol RObotic NETwork (AERONET) network that are calibrated at the University of Valladolid and routinely provide measurements to the CÆLIS system
The photometer data that CÆLIS is currently processing for aerosol optical depth (AOD) are all produced by Cimel photometers belonging to AERONET
Summary
Atmospheric aerosol particles contribute to climate forcing through their interactions with radiation and clouds, and its impact is still subject to large uncertainty (IPCC, 2014). In order to help in the management of the AERONET/ACTRIS calibration facility at Valladolid, a software tool called CÆLIS was developed (Fuertes et al, 2018) It provides tools for monitoring the instruments, processing the data in real time and offering the scientific community a new tool to work with the data. CÆLIS contains a database and a web interface to visualize raw data and metadata, provides processing of sky radiances, and supports the monitoring of the instrument performance This tool is capable of detecting several technical problems with the network instruments through an automatic warning system based on the CÆLIS metadata and products, which allows a quick response to detect and solve operation problems.
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