The thin border between cloud and aerosol: Sensitivity of several ground based observation techniques

Cloud and aerosol are two manifestations of what it is essentially the same physical phenomenon: a suspension of particles in the air. The differences between the two come from the different composition (e.g., much higher amount of condensed water in particles constituting a cloud) and/or particle s...

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Bibliographic Details
Published in:Atmospheric research Vol. 196; pp. 248 - 260
Main Authors: Calbó, Josep, Long, Charles N., González, Josep-Abel, Augustine, John, McComiskey, Allison
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2017
Online Access:Get full text
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Summary:Cloud and aerosol are two manifestations of what it is essentially the same physical phenomenon: a suspension of particles in the air. The differences between the two come from the different composition (e.g., much higher amount of condensed water in particles constituting a cloud) and/or particle size, and also from the different number of such particles (10–10,000 particles per cubic centimeter depending on conditions). However, there exist situations in which the distinction is far from obvious, and even when broken or scattered clouds are present in the sky, the borders between cloud/not cloud are not always well defined, a transition area that has been coined as the “twilight zone”. The current paper presents a discussion on the definition of cloud and aerosol, the need for distinguishing or for considering the continuum between the two, and suggests a quantification of the importance and frequency of such ambiguous situations, founded on several ground-based observing techniques. Specifically, sensitivity analyses are applied on sky camera images and broadband and spectral radiometric measurements taken at Girona (Spain) and Boulder (Co, USA). Results indicate that, at these sites, in more than 5% of the daytime hours the sky may be considered cloudless (but containing aerosols) or cloudy (with some kind of optically thin clouds) depending on the observing system and the thresholds applied. Similarly, at least 10% of the time the extension of scattered or broken clouds into clear areas is problematic to establish, and depends on where the limit is put between cloud and aerosol. These findings are relevant to both technical approaches for cloud screening and sky cover categorization algorithms and radiative transfer studies, given the different effect of clouds and aerosols (and the different treatment in models) on the Earth's radiation balance. [Display omitted] •Some cloud and aerosol ground-based observing systems are scrutinized.•Distinguishing between cloud and aerosol may be challenging in >5% of time.•The extension of clouds is problematic to set in >10% of time.•Clouds and aerosol are extremes of a continuum of suspensions of particles in air.
ISSN:0169-8095
1873-2895
DOI:10.1016/j.atmosres.2017.06.010