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Proceedings Paper

Statistical study of day and night hourly patterns of columnar aerosol properties using sun and star photometry
Author(s): D. Pérez-Ramírez; H. Lyamani; A. Smirnov; N. T. O'Neill; I. Veselovskii; D. N. Whiteman; F. J. Olmo; L. Alados-Arboledas
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Paper Abstract

This work focuses on the statistical analysis of day and night hourly pattern of columnar aerosol properties. To that end, we use the large database of star-photometry measurements at the University of Granada station (37.16°N, 3.60°W, 680 m a.s.l; South-East of Spain) for nighttime characterization, and co-located AERONET measurements for the daytime. The aerosol properties studied are the aerosol optical depth (AOD), Angstrom parameter (α(440-870)), aerosol optical depths of fine (AODfine) and coarse mode (AODcoarse) through the Spectral Deconvolution Algorithm (SDA). Microphysical properties are calculated by inverting AOD spectra and include the effective radius (reff) and volume concentration (V) of the total size distribution, and also the effective radius of the fine mode (rfine). The initial analysis for the different air masses that reach the study area reveals that generally day and night values of AOD and α(440-870) are not different statistically. Nighttime values of AODfine, reff and rfine do however, present larger values. The influence of North African air masses is remarkable both during the day and night, with high particle loads and low values of the Angstrom parameters and also with large contribution of coarse particles as AODcoarse and reff values are almost the double than for other air masses. The analyses of day-to-night hourly values reveal an increase in AOD, AODfine and AODcoarse during the day and a decrease during the night. Such a pattern could be explained by the different emission rates, accumulation, aging and deposition of particles. Changes in particle radius are also observed as part of the day-tonight particle evolution process, being rfine variations important mainly at daytime while for reff variations are more important at nighttime. Results of day-to-night evolution were found to be independent of air mass origin, and seem to be mainly associated with local processes.

Paper Details

Date Published: 19 October 2016
PDF: 18 pages
Proc. SPIE 10001, Remote Sensing of Clouds and the Atmosphere XXI, 100010K (19 October 2016); doi: 10.1117/12.2242372
Show Author Affiliations
D. Pérez-Ramírez, Univ. de Granada (Spain)
IISTA (Spain)
H. Lyamani, Univ. de Granada (Spain)
ISSTA (Spain)
A. Smirnov, NASA Goddard Space Flight Ctr. (United States)
Science Systems and Applications, Inc. (United States)
N. T. O'Neill, Univ. de Sherbrooke (Canada)
I. Veselovskii, Joint Ctr. for Earth Systems Technology (United States)
Physics Instrumentation Ctr. (Russian Federation)
D. N. Whiteman, NASA Goddard Space Flight Ctr. (United States)
F. J. Olmo, Univ. de Granada (Spain)
IISTA (Spain)
L. Alados-Arboledas, Univ. de Granada (Spain)
IISTA (Spain)

Published in SPIE Proceedings Vol. 10001:
Remote Sensing of Clouds and the Atmosphere XXI
Adolfo Comerón; Evgueni I. Kassianov; Klaus Schäfer, Editor(s)

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