The ice-nucleating activity of African mineral dust in the Caribbean boundary layer
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Published:2022-07-29
Issue:14
Volume:22
Page:9663-9680
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ISSN:1680-7324
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Container-title:Atmospheric Chemistry and Physics
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language:en
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Short-container-title:Atmos. Chem. Phys.
Author:
Harrison Alexander D., O'Sullivan Daniel, Adams Michael P., Porter Grace C. E.ORCID, Blades Edmund, Brathwaite Cherise, Chewitt-Lucas Rebecca, Gaston Cassandra, Hawker Rachel, Krüger Ovid O.ORCID, Neve Leslie, Pöhlker Mira L., Pöhlker ChristopherORCID, Pöschl UlrichORCID, Sanchez-Marroquin Alberto, Sealy Andrea, Sealy Peter, Tarn Mark D., Whitehall Shanice, McQuaid James B., Carslaw Kenneth S.ORCID, Prospero Joseph M., Murray Benjamin J.ORCID
Abstract
Abstract. African mineral dust is transported many thousands of
kilometres from its source regions, and, because of its ability to nucleate
ice, it plays a major role in cloud glaciation around the globe. The
ice-nucleating activity of desert dust is influenced by its mineralogy,
which varies substantially between source regions and across particle sizes.
However, in models it is often assumed that the activity (expressed as
active sites per unit surface area as a function of temperature) of
atmospheric mineral dust is the same everywhere on the globe. Here, we find
that the ice-nucleating activity of African desert dust sampled in the
summertime marine boundary layer of Barbados (July and August 2017) is
substantially lower than parameterizations based on soil from specific
locations in the Sahara or dust sedimented from dust storms. We
conclude that the activity of dust in Barbados' boundary layer is primarily
defined by the low K-feldspar content of the dust, which is around 1 %. We
propose that the dust we sampled in the Caribbean was from a region in western Africa (in and around the Sahel in Mauritania and Mali), which has a much
lower feldspar content than other African sources across the Sahara and
Sahel.
Funder
H2020 European Research Council National Science Foundation Natural Environment Research Council
Publisher
Copernicus GmbH
Subject
Atmospheric Science
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