Terrestrial or marine – indications towards the origin of ice-nucleating particles during melt season in the European Arctic up to 83.7° N

Ice-nucleating particles (INPs) initiate the primary ice formation in clouds at temperatures above ca. -38gC and have an impact on precipitation formation, cloud optical properties, and cloud persistence. Despite their roles in both weather and climate, INPs are not well characterized, especially in...

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Main Authors: Hartmann, Markus, Gong, Xianda, Kecorius, Simonas, van Pinxteren, Manuela, Vogl, Teresa, Welti, André, Wex, Heike, Zeppenfeld, Sebastian, Herrmann, Hartmut, Wiedensohler, Alfred, Stratmann, Frank
Format: Article in Journal/Newspaper
Language:English
Published: Katlenburg-Lindau : European Geosciences Union 2021
Subjects:
cloud condensation nucleus
cloud microphysics
concentration (composition)
fog
optical property
seasonal variation
temperature effect
Arctic
Europe
550
Online Access:https://oa.tib.eu/renate/handle/123456789/8148
https://doi.org/10.34657/7188
id ftleibnizopen:oai:oai.leibnizopen.de:8yaOVYsBBwLIz6xGxe31
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spelling ftleibnizopen:oai:oai.leibnizopen.de:8yaOVYsBBwLIz6xGxe31 2023-11-12T04:11:57+01:00 Terrestrial or marine – indications towards the origin of ice-nucleating particles during melt season in the European Arctic up to 83.7° N Hartmann, Markus Gong, Xianda Kecorius, Simonas van Pinxteren, Manuela Vogl, Teresa Welti, André Wex, Heike Zeppenfeld, Sebastian Herrmann, Hartmut Wiedensohler, Alfred Stratmann, Frank 2021 application/pdf https://oa.tib.eu/renate/handle/123456789/8148 https://doi.org/10.34657/7188 eng eng Katlenburg-Lindau : European Geosciences Union CC BY 4.0 Unported https://creativecommons.org/licenses/by/4.0/ Atmospheric Chemistry and Physics 21 (2021), Nr. 15 cloud condensation nucleus cloud microphysics concentration (composition) fog optical property seasonal variation temperature effect Arctic Europe 550 article Text 2021 ftleibnizopen https://doi.org/10.34657/7188 2023-10-22T23:34:35Z Ice-nucleating particles (INPs) initiate the primary ice formation in clouds at temperatures above ca. -38gC and have an impact on precipitation formation, cloud optical properties, and cloud persistence. Despite their roles in both weather and climate, INPs are not well characterized, especially in remote regions such as the Arctic. We present results from a ship-based campaign to the European Arctic during May to July 2017. We deployed a filter sampler and a continuous-flow diffusion chamber for offline and online INP analyses, respectively. We also investigated the ice nucleation properties of samples from different environmental compartments, i.e., the sea surface microlayer (SML), the bulk seawater (BSW), and fog water. Concentrations of INPs (NINP) in the air vary between 2 to 3 orders of magnitudes at any particular temperature and are, except for the temperatures above -10gC and below -32gC, lower than in midlatitudes. In these temperature ranges, INP concentrations are the same or even higher than in the midlatitudes. By heating of the filter samples to 95gC for 1ĝ€¯h, we found a significant reduction in ice nucleation activity, i.e., indications that the INPs active at warmer temperatures are biogenic. At colder temperatures the INP population was likely dominated by mineral dust. The SML was found to be enriched in INPs compared to the BSW in almost all samples. The enrichment factor (EF) varied mostly between 1 and 10, but EFs as high as 94.97 were also observed. Filtration of the seawater samples with 0.2ĝ€¯μm syringe filters led to a significant reduction in ice activity, indicating the INPs are larger and/or are associated with particles larger than 0.2ĝ€¯μm. A closure study showed that aerosolization of SML and/or seawater alone cannot explain the observed airborne NINP unless significant enrichment of INP by a factor of 105 takes place during the transfer from the ocean surface to the atmosphere. In the fog water samples with -3.47gC, we observed the highest freezing onset of any sample. A ... Article in Journal/Newspaper Arctic Unknown Arctic
institution Open Polar
collection Unknown
op_collection_id ftleibnizopen
language English
topic cloud condensation nucleus
cloud microphysics
concentration (composition)
fog
optical property
seasonal variation
temperature effect
Arctic
Europe
550
spellingShingle cloud condensation nucleus
cloud microphysics
concentration (composition)
fog
optical property
seasonal variation
temperature effect
Arctic
Europe
550
Hartmann, Markus
Gong, Xianda
Kecorius, Simonas
van Pinxteren, Manuela
Vogl, Teresa
Welti, André
Wex, Heike
Zeppenfeld, Sebastian
Herrmann, Hartmut
Wiedensohler, Alfred
Stratmann, Frank
Terrestrial or marine – indications towards the origin of ice-nucleating particles during melt season in the European Arctic up to 83.7° N
topic_facet cloud condensation nucleus
cloud microphysics
concentration (composition)
fog
optical property
seasonal variation
temperature effect
Arctic
Europe
550
description Ice-nucleating particles (INPs) initiate the primary ice formation in clouds at temperatures above ca. -38gC and have an impact on precipitation formation, cloud optical properties, and cloud persistence. Despite their roles in both weather and climate, INPs are not well characterized, especially in remote regions such as the Arctic. We present results from a ship-based campaign to the European Arctic during May to July 2017. We deployed a filter sampler and a continuous-flow diffusion chamber for offline and online INP analyses, respectively. We also investigated the ice nucleation properties of samples from different environmental compartments, i.e., the sea surface microlayer (SML), the bulk seawater (BSW), and fog water. Concentrations of INPs (NINP) in the air vary between 2 to 3 orders of magnitudes at any particular temperature and are, except for the temperatures above -10gC and below -32gC, lower than in midlatitudes. In these temperature ranges, INP concentrations are the same or even higher than in the midlatitudes. By heating of the filter samples to 95gC for 1ĝ€¯h, we found a significant reduction in ice nucleation activity, i.e., indications that the INPs active at warmer temperatures are biogenic. At colder temperatures the INP population was likely dominated by mineral dust. The SML was found to be enriched in INPs compared to the BSW in almost all samples. The enrichment factor (EF) varied mostly between 1 and 10, but EFs as high as 94.97 were also observed. Filtration of the seawater samples with 0.2ĝ€¯μm syringe filters led to a significant reduction in ice activity, indicating the INPs are larger and/or are associated with particles larger than 0.2ĝ€¯μm. A closure study showed that aerosolization of SML and/or seawater alone cannot explain the observed airborne NINP unless significant enrichment of INP by a factor of 105 takes place during the transfer from the ocean surface to the atmosphere. In the fog water samples with -3.47gC, we observed the highest freezing onset of any sample. A ...
format Article in Journal/Newspaper
author Hartmann, Markus
Gong, Xianda
Kecorius, Simonas
van Pinxteren, Manuela
Vogl, Teresa
Welti, André
Wex, Heike
Zeppenfeld, Sebastian
Herrmann, Hartmut
Wiedensohler, Alfred
Stratmann, Frank
author_facet Hartmann, Markus
Gong, Xianda
Kecorius, Simonas
van Pinxteren, Manuela
Vogl, Teresa
Welti, André
Wex, Heike
Zeppenfeld, Sebastian
Herrmann, Hartmut
Wiedensohler, Alfred
Stratmann, Frank
author_sort Hartmann, Markus
title Terrestrial or marine – indications towards the origin of ice-nucleating particles during melt season in the European Arctic up to 83.7° N
title_short Terrestrial or marine – indications towards the origin of ice-nucleating particles during melt season in the European Arctic up to 83.7° N
title_full Terrestrial or marine – indications towards the origin of ice-nucleating particles during melt season in the European Arctic up to 83.7° N
title_fullStr Terrestrial or marine – indications towards the origin of ice-nucleating particles during melt season in the European Arctic up to 83.7° N
title_full_unstemmed Terrestrial or marine – indications towards the origin of ice-nucleating particles during melt season in the European Arctic up to 83.7° N
title_sort terrestrial or marine – indications towards the origin of ice-nucleating particles during melt season in the european arctic up to 83.7° n
publisher Katlenburg-Lindau : European Geosciences Union
publishDate 2021
url https://oa.tib.eu/renate/handle/123456789/8148
https://doi.org/10.34657/7188
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_source Atmospheric Chemistry and Physics 21 (2021), Nr. 15
op_rights CC BY 4.0 Unported
https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.34657/7188
_version_ 1782330784171950080

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