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Sea spray as an obscured source for marine cloud nuclei
by
Ovadnevaite, Jurgita
, Fossum, Kirsten N.
, Ceburnis, Darius
, Lin, Chunshui
, Xu, Wei
, O’Dowd, Colin
, Huang, Ru-Jin
in
704/106/35/824
/ 704/829/827
/ Aerosols
/ Analysis
/ Cloud condensation nuclei
/ Cloud formation
/ Clouds
/ Condensation
/ Condensation nuclei
/ Diameters
/ Earth and Environmental Science
/ Earth Sciences
/ Earth System Sciences
/ Geochemistry
/ Geology
/ Geophysics/Geodesy
/ Global aerosols
/ Haze
/ Hygroscopicity
/ Microphysics
/ Nucleus
/ Sea spray
/ Sea spray aerosols
/ Spray
/ Uptake
/ Water uptake
2022
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Sea spray as an obscured source for marine cloud nuclei
by
Ovadnevaite, Jurgita
, Fossum, Kirsten N.
, Ceburnis, Darius
, Lin, Chunshui
, Xu, Wei
, O’Dowd, Colin
, Huang, Ru-Jin
in
704/106/35/824
/ 704/829/827
/ Aerosols
/ Analysis
/ Cloud condensation nuclei
/ Cloud formation
/ Clouds
/ Condensation
/ Condensation nuclei
/ Diameters
/ Earth and Environmental Science
/ Earth Sciences
/ Earth System Sciences
/ Geochemistry
/ Geology
/ Geophysics/Geodesy
/ Global aerosols
/ Haze
/ Hygroscopicity
/ Microphysics
/ Nucleus
/ Sea spray
/ Sea spray aerosols
/ Spray
/ Uptake
/ Water uptake
2022
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Sea spray as an obscured source for marine cloud nuclei
by
Ovadnevaite, Jurgita
, Fossum, Kirsten N.
, Ceburnis, Darius
, Lin, Chunshui
, Xu, Wei
, O’Dowd, Colin
, Huang, Ru-Jin
in
704/106/35/824
/ 704/829/827
/ Aerosols
/ Analysis
/ Cloud condensation nuclei
/ Cloud formation
/ Clouds
/ Condensation
/ Condensation nuclei
/ Diameters
/ Earth and Environmental Science
/ Earth Sciences
/ Earth System Sciences
/ Geochemistry
/ Geology
/ Geophysics/Geodesy
/ Global aerosols
/ Haze
/ Hygroscopicity
/ Microphysics
/ Nucleus
/ Sea spray
/ Sea spray aerosols
/ Spray
/ Uptake
/ Water uptake
2022
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Journal Article
Sea spray as an obscured source for marine cloud nuclei
2022
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Overview
Sea spray aerosols (SSAs) make up a substantial proportion of aerosols in the global atmosphere and, especially when considering marine haze and cloud layers, can have a large impact on cloud formation and atmospheric radiative balance. Although SSA has the highest cloud condensation nuclei (CCN) activation potential, the majority of its population, residing in sub-micrometre sizes, are often obscured by non-sea-spray CCN. Quantification of SSA-derived CCN is fundamental in understanding the radiative budget. Recent approaches to estimate the sub-micrometre SSA employed a free-monomodal lognormal analysis that depicts the global oceanic CCN population comprising less than 30% SSA. Here we derive SSA distributions from a unique five-year dataset of aerosol microphysics and hygroscopicity (water uptake ability) over Atlantic waters. This approach utilizes the distinctive ultra-high hygroscopicity signature of inorganic sea salt and is able to identify the sub-micrometre sea spray down to 35 nm diameter with high time and size resolution. In stark contrast to previous studies, the hygroscopicity coupled multimodal fitting analysis yields SSA-derived CCN as much as 500% in excess of estimates produced using the free-monomodal approach. Our results suggest the contribution of SSA to global CCN, particularly Aitken mode SSA, has probably been overlooked.
Very small aerosols from sea spray make up a larger proportion of cloud condensation nuclei than previously recognized, according to an analysis of five years of aerosol ground-based measurement data from over the Atlantic Ocean.
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