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Autori principali: Dall'osto, Manuel, Rinaldi, Matteo, Estrada, Marta, Vaqué Vidal, Maria Dolors, Berdalet, Elisa, Sotomayor, Ana, Cabrera-Brufau, Miguel, Zeppenfeld, Sebastian, Beddows, David C S, Harrison, Roy M, Van Pinxteren, Manuela, Herrmann, Hartmut, Decesari, Stefano, Paglione, Marco
Natura: Artículo científico
Lingua:en
Pubblicazione: Environmental science & technology 2026
Soggetti:
Accesso online:https://pubmed.ncbi.nlm.nih.gov/41489287/
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author Dall'osto, Manuel
Rinaldi, Matteo
Estrada, Marta
Vaqué Vidal, Maria Dolors
Berdalet, Elisa
Sotomayor, Ana
Cabrera-Brufau, Miguel
Zeppenfeld, Sebastian
Beddows, David C S
Harrison, Roy M
Van Pinxteren, Manuela
Herrmann, Hartmut
Decesari, Stefano
Paglione, Marco
author_facet Dall'osto, Manuel
Rinaldi, Matteo
Estrada, Marta
Vaqué Vidal, Maria Dolors
Berdalet, Elisa
Sotomayor, Ana
Cabrera-Brufau, Miguel
Zeppenfeld, Sebastian
Beddows, David C S
Harrison, Roy M
Van Pinxteren, Manuela
Herrmann, Hartmut
Decesari, Stefano
Paglione, Marco
Dall'osto, Manuel
Rinaldi, Matteo
Estrada, Marta
Vaqué Vidal, Maria Dolors
Berdalet, Elisa
Sotomayor, Ana
Cabrera-Brufau, Miguel
Zeppenfeld, Sebastian
Beddows, David C S
Harrison, Roy M
Van Pinxteren, Manuela
Herrmann, Hartmut
Decesari, Stefano
Paglione, Marco
collection PubMed - marine biology
contents Quality over Quantity: Organic Compounds Altering the Antarctic Sea Spray Aerosol Concentrations. Dall'osto, Manuel Rinaldi, Matteo Estrada, Marta Vaqué Vidal, Maria Dolors Berdalet, Elisa Sotomayor, Ana Cabrera-Brufau, Miguel Zeppenfeld, Sebastian Beddows, David C S Harrison, Roy M Van Pinxteren, Manuela Herrmann, Hartmut Decesari, Stefano Paglione, Marco Aerosols Antarctic Regions Organic Chemicals Seawater The Antarctic coastal zones are among the most biologically productive areas on Earth. The effect of marine microbiota on the emissions of sea spray particles, a critical factor for global climate and clouds, remains an open and actively researched question. Here, by means of in situ ship-borne bubble-bursting SSA production experiments at multiple locations around the Antarctic Peninsula, we show a 2-fold variability in the 10-500 nm size-resolved SSA number concentrations. We observed that the organic chemical composition of seawater (SW) and surface microlayers (SML) clearly impacts SSA number concentrations. SW and SML samples with saccharides, proteins, and N-osmolytes were less efficient at emitting SSA compared with waters rich in biotic material originating from lipids, such as fatty acids and polyols. We found that the dissolved organic carbon (DOC) fraction containing lipid degradation products and polyols indicates higher SSA production. Our results indicate that low concentration organic components, rather than the most abundant classes of biomolecules, influence the ability to be aerosolized, with strong chemical selectivity affecting SSA production.
format Artículo científico
id pubmed_41489287
institution PubMed
language en
publishDate 2026
publisher Environmental science & technology
record_format pubmed
spellingShingle Quality over Quantity: Organic Compounds Altering the Antarctic Sea Spray Aerosol Concentrations.
Dall'osto, Manuel
Rinaldi, Matteo
Estrada, Marta
Vaqué Vidal, Maria Dolors
Berdalet, Elisa
Sotomayor, Ana
Cabrera-Brufau, Miguel
Zeppenfeld, Sebastian
Beddows, David C S
Harrison, Roy M
Van Pinxteren, Manuela
Herrmann, Hartmut
Decesari, Stefano
Paglione, Marco
Aerosols
Antarctic Regions
Organic Chemicals
Seawater
Quality over Quantity: Organic Compounds Altering the Antarctic Sea Spray Aerosol Concentrations. Dall'osto, Manuel Rinaldi, Matteo Estrada, Marta Vaqué Vidal, Maria Dolors Berdalet, Elisa Sotomayor, Ana Cabrera-Brufau, Miguel Zeppenfeld, Sebastian Beddows, David C S Harrison, Roy M Van Pinxteren, Manuela Herrmann, Hartmut Decesari, Stefano Paglione, Marco Aerosols Antarctic Regions Organic Chemicals Seawater The Antarctic coastal zones are among the most biologically productive areas on Earth. The effect of marine microbiota on the emissions of sea spray particles, a critical factor for global climate and clouds, remains an open and actively researched question. Here, by means of in situ ship-borne bubble-bursting SSA production experiments at multiple locations around the Antarctic Peninsula, we show a 2-fold variability in the 10-500 nm size-resolved SSA number concentrations. We observed that the organic chemical composition of seawater (SW) and surface microlayers (SML) clearly impacts SSA number concentrations. SW and SML samples with saccharides, proteins, and N-osmolytes were less efficient at emitting SSA compared with waters rich in biotic material originating from lipids, such as fatty acids and polyols. We found that the dissolved organic carbon (DOC) fraction containing lipid degradation products and polyols indicates higher SSA production. Our results indicate that low concentration organic components, rather than the most abundant classes of biomolecules, influence the ability to be aerosolized, with strong chemical selectivity affecting SSA production.
title Quality over Quantity: Organic Compounds Altering the Antarctic Sea Spray Aerosol Concentrations.
topic Aerosols
Antarctic Regions
Organic Chemicals
Seawater
url https://pubmed.ncbi.nlm.nih.gov/41489287/