Concentration and variability of ice nuclei in the subtropical maritime boundary layer

Concentration and variability of ice nuclei in the subtropical maritime boundary layer

Measurements of the concentration and variability of ice nucleating particles in the subtropical maritime boundary layer are reported. Filter samples collected in Cabo Verde over the period 2009–2013 are analyzed with a drop freezing experiment with sensitivity to detect the few rare ice nuclei acti...

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Bibliographic Details
Published in:Atmospheric chemistry and physics 2018-04, Vol.18 (8), p.5307-5320
Main Authors: Welti, André, Müller, Konrad, Fleming, Zoë L, Stratmann, Frank
Format: Article
Language:eng
Subjects:
Air masses
Boundary layer
Boundary layers
Boundary layers (Fluid dynamics)
Composition
Continuous flow
Data
Diffusion chambers
Dilution
Dye dispersion
Environmental aspects
Freezing
Ice
Ice nucleation
Ice nuclei
Ice nuclei concentration
Marine transportation
Modelling
Nuclear transport
Nucleation
Nuclei concentration
Nucleus
Observations
Particulates
Rangefinding
Sea ice
Sensitivity analysis
Simulation
Slopes
Supercooling
Temperature
Variability
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Summary:Measurements of the concentration and variability of ice nucleating particles in the subtropical maritime boundary layer are reported. Filter samples collected in Cabo Verde over the period 2009–2013 are analyzed with a drop freezing experiment with sensitivity to detect the few rare ice nuclei active at low supercooling. The data set is augmented with continuous flow diffusion chamber measurements at temperatures below −24 ∘C from a 2-month field campaign in Cabo Verde in 2016. The data set is used to address the following questions: what are typical concentrations of ice nucleating particles active at a certain temperature? What affects their concentration and where are their sources? Concentration of ice nucleating particles is found to increase exponentially by 7 orders of magnitude from −5 to −38 ∘C. Sample-to-sample variation in the steepness of the increase indicates that particles of different origin, with different ice nucleation properties (size, composition), contribute to the ice nuclei concentration at different temperatures. The concentration of ice nuclei active at a specific temperature varies over a range of up to 4 orders of magnitude. The frequency with which a certain ice nuclei concentration is measured within this range is found to follow a lognormal distribution, which can be explained by random dilution during transport. To investigate the geographic origin of ice nuclei, source attribution of air masses from dispersion modeling is used to classify the data into seven typical conditions. While no source could be attributed to the ice nuclei active at temperatures higher than −12 ∘C, concentrations at lower temperatures tend to be elevated in air masses originating from the Sahara.
ISSN:1680-7324
1680-7316
1680-7324