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Autori principali: Li, Guangyu, Welti, André, Rocchi, Arianna, Fogwill, Germán Pérez, Dall'Osto, Manuel, Kanji, Zamin A
Natura: Artículo científico
Lingua:en
Pubblicazione: Faraday discussions 2025
Accesso online:https://pubmed.ncbi.nlm.nih.gov/39995400/
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author Li, Guangyu
Welti, André
Rocchi, Arianna
Fogwill, Germán Pérez
Dall'Osto, Manuel
Kanji, Zamin A
author_facet Li, Guangyu
Welti, André
Rocchi, Arianna
Fogwill, Germán Pérez
Dall'Osto, Manuel
Kanji, Zamin A
Li, Guangyu
Welti, André
Rocchi, Arianna
Fogwill, Germán Pérez
Dall'Osto, Manuel
Kanji, Zamin A
collection PubMed - marine biology
contents Terrestrial and marine sources of ice nucleating particles in the Eurasian Arctic. Li, Guangyu Welti, André Rocchi, Arianna Fogwill, Germán Pérez Dall'Osto, Manuel Kanji, Zamin A Ice nucleating particles (INPs) catalyze primary ice formation in Arctic low-level mixed-phase clouds, influencing their persistence and radiative properties. Knowledge of the abundance and sources of INP over the remote Arctic Ocean is scarce due to limited data coverage, particularly in the Eurasian Arctic. This study presents summertime measurements of INP concentrations in seawater, fog water and air from the ship-based Arctic Century Expedition, exploring the Barents, Kara, and Laptev Seas, and the adjacent high Arctic islands and archipelagos in August and September 2021. Heat sensitivity tests of ambient aerosols revealed that heat-liable, biogenic INPs make up the majority of Arctic INP populations at temperatures above -20 °C, and to a lesser extent down to -25 °C. INP content in fog water is found to be similar to ambient aerosol, indicating that INP in marine air could also act as cloud condensation nuclei. Measurements of aerosolized INPs using an on-board sea-spray aerosol bubble tank generator exhibit a positive correlation with ambient INP concentrations, but not with INP abundance in seawater samples. INP concentrations in air derived from sea water samples (using a NaCl conversion factor representative for the Arctic) were significantly lower than those measured in ambient air or bubble tank experiments. INP concentrations in bubble tank experiments positively correlated with the phosphate and fluorescence signals in the water. This suggests an important role of the aerosolization mechanism for preferentially partitioning biogenic INPs to the atmosphere.
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language en
publishDate 2025
publisher Faraday discussions
record_format pubmed
spellingShingle Terrestrial and marine sources of ice nucleating particles in the Eurasian Arctic.
Li, Guangyu
Welti, André
Rocchi, Arianna
Fogwill, Germán Pérez
Dall'Osto, Manuel
Kanji, Zamin A
Terrestrial and marine sources of ice nucleating particles in the Eurasian Arctic. Li, Guangyu Welti, André Rocchi, Arianna Fogwill, Germán Pérez Dall'Osto, Manuel Kanji, Zamin A Ice nucleating particles (INPs) catalyze primary ice formation in Arctic low-level mixed-phase clouds, influencing their persistence and radiative properties. Knowledge of the abundance and sources of INP over the remote Arctic Ocean is scarce due to limited data coverage, particularly in the Eurasian Arctic. This study presents summertime measurements of INP concentrations in seawater, fog water and air from the ship-based Arctic Century Expedition, exploring the Barents, Kara, and Laptev Seas, and the adjacent high Arctic islands and archipelagos in August and September 2021. Heat sensitivity tests of ambient aerosols revealed that heat-liable, biogenic INPs make up the majority of Arctic INP populations at temperatures above -20 °C, and to a lesser extent down to -25 °C. INP content in fog water is found to be similar to ambient aerosol, indicating that INP in marine air could also act as cloud condensation nuclei. Measurements of aerosolized INPs using an on-board sea-spray aerosol bubble tank generator exhibit a positive correlation with ambient INP concentrations, but not with INP abundance in seawater samples. INP concentrations in air derived from sea water samples (using a NaCl conversion factor representative for the Arctic) were significantly lower than those measured in ambient air or bubble tank experiments. INP concentrations in bubble tank experiments positively correlated with the phosphate and fluorescence signals in the water. This suggests an important role of the aerosolization mechanism for preferentially partitioning biogenic INPs to the atmosphere.
title Terrestrial and marine sources of ice nucleating particles in the Eurasian Arctic.
url https://pubmed.ncbi.nlm.nih.gov/39995400/